mirror of
https://github.com/ceph/ceph
synced 2024-12-27 05:53:20 +00:00
997c0c3d62
This was only used in get_first_mon, which doesn't actually need the parameter itself. Makes it easier to casually use Filesystem from any place with a ctx to hand. Signed-off-by: John Spray <john.spray@redhat.com>
430 lines
15 KiB
Python
430 lines
15 KiB
Python
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"""
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Teuthology task for exercising CephFS client recovery
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"""
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import contextlib
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import logging
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import time
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import unittest
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from teuthology.orchestra.run import CommandFailedError, ConnectionLostError
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from teuthology.task import interactive
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from tasks.cephfs.cephfs_test_case import CephFSTestCase, run_tests
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from tasks.cephfs.filesystem import Filesystem
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from tasks.cephfs.fuse_mount import FuseMount
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log = logging.getLogger(__name__)
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# Arbitrary timeouts for operations involving restarting
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# an MDS or waiting for it to come up
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MDS_RESTART_GRACE = 60
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class TestClientRecovery(CephFSTestCase):
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# Environment references
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mds_session_timeout = None
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mds_reconnect_timeout = None
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ms_max_backoff = None
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def test_basic(self):
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# Check that two clients come up healthy and see each others' files
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# =====================================================
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self.mount_a.create_files()
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self.mount_a.check_files()
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self.mount_a.umount_wait()
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self.mount_b.check_files()
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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# Check that the admin socket interface is correctly reporting
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# two sessions
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# =====================================================
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ls_data = self._session_list()
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self.assert_session_count(2, ls_data)
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self.assertSetEqual(
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set([l['id'] for l in ls_data]),
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{self.mount_a.get_global_id(), self.mount_b.get_global_id()}
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)
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def test_restart(self):
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# Check that after an MDS restart both clients reconnect and continue
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# to handle I/O
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# =====================================================
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self.fs.mds_stop()
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self.fs.mds_fail()
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self.fs.mds_restart()
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self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE)
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self.mount_a.create_destroy()
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self.mount_b.create_destroy()
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def _session_num_caps(self, client_id):
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ls_data = self.fs.mds_asok(['session', 'ls'])
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return int(self._session_by_id(ls_data).get(client_id, {'num_caps': None})['num_caps'])
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def test_reconnect_timeout(self):
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# Reconnect timeout
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# =================
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# Check that if I stop an MDS and a client goes away, the MDS waits
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# for the reconnect period
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self.fs.mds_stop()
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self.fs.mds_fail()
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mount_a_client_id = self.mount_a.get_global_id()
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self.mount_a.umount_wait(force=True)
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self.fs.mds_restart()
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self.fs.wait_for_state('up:reconnect', reject='up:active', timeout=MDS_RESTART_GRACE)
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ls_data = self._session_list()
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self.assert_session_count(2, ls_data)
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# The session for the dead client should have the 'reconnect' flag set
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self.assertTrue(self.get_session(mount_a_client_id)['reconnecting'])
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# Wait for the reconnect state to clear, this should take the
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# reconnect timeout period.
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in_reconnect_for = self.fs.wait_for_state('up:active', timeout=self.mds_reconnect_timeout * 2)
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# Check that the period we waited to enter active is within a factor
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# of two of the reconnect timeout.
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self.assertGreater(in_reconnect_for, self.mds_reconnect_timeout / 2,
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"Should have been in reconnect phase for {0} but only took {1}".format(
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self.mds_reconnect_timeout, in_reconnect_for
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))
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self.assert_session_count(1)
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# Check that the client that timed out during reconnect can
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# mount again and do I/O
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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self.mount_a.create_destroy()
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self.assert_session_count(2)
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def test_reconnect_eviction(self):
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# Eviction during reconnect
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# =========================
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self.fs.mds_stop()
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self.fs.mds_fail()
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mount_a_client_id = self.mount_a.get_global_id()
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self.mount_a.umount_wait(force=True)
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self.fs.mds_restart()
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# Enter reconnect phase
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self.fs.wait_for_state('up:reconnect', reject='up:active', timeout=MDS_RESTART_GRACE)
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self.assert_session_count(2)
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# Evict the stuck client
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self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id])
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self.assert_session_count(1)
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# Observe that we proceed to active phase without waiting full reconnect timeout
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evict_til_active = self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE)
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# Once we evict the troublemaker, the reconnect phase should complete
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# in well under the reconnect timeout.
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self.assertLess(evict_til_active, self.mds_reconnect_timeout * 0.5,
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"reconnect did not complete soon enough after eviction, took {0}".format(
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evict_til_active
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))
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# Bring the client back
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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self.mount_a.create_destroy()
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def test_stale_caps(self):
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# Capability release from stale session
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# =====================================
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cap_holder = self.mount_a.open_background()
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# Wait for the file to be visible from another client, indicating
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# that mount_a has completed its network ops
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self.mount_b.wait_for_visible()
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# Simulate client death
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self.mount_a.kill()
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try:
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# Now, after mds_session_timeout seconds, the waiter should
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# complete their operation when the MDS marks the holder's
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# session stale.
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cap_waiter = self.mount_b.write_background()
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a = time.time()
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cap_waiter.wait()
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b = time.time()
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# Should have succeeded
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self.assertEqual(cap_waiter.exitstatus, 0)
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cap_waited = b - a
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log.info("cap_waiter waited {0}s".format(cap_waited))
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self.assertTrue(self.mds_session_timeout / 2.0 <= cap_waited <= self.mds_session_timeout * 2.0,
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"Capability handover took {0}, expected approx {1}".format(
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cap_waited, self.mds_session_timeout
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))
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cap_holder.stdin.close()
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try:
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cap_holder.wait()
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except (CommandFailedError, ConnectionLostError):
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# We killed it (and possibly its node), so it raises an error
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pass
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finally:
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# teardown() doesn't quite handle this case cleanly, so help it out
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self.mount_a.kill_cleanup()
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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def test_evicted_caps(self):
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# Eviction while holding a capability
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# ===================================
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# Take out a write capability on a file on client A,
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# and then immediately kill it.
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cap_holder = self.mount_a.open_background()
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mount_a_client_id = self.mount_a.get_global_id()
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# Wait for the file to be visible from another client, indicating
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# that mount_a has completed its network ops
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self.mount_b.wait_for_visible()
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# Simulate client death
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self.mount_a.kill()
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try:
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# The waiter should get stuck waiting for the capability
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# held on the MDS by the now-dead client A
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cap_waiter = self.mount_b.write_background()
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time.sleep(5)
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self.assertFalse(cap_waiter.finished)
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self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id])
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# Now, because I evicted the old holder of the capability, it should
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# immediately get handed over to the waiter
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a = time.time()
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cap_waiter.wait()
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b = time.time()
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cap_waited = b - a
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log.info("cap_waiter waited {0}s".format(cap_waited))
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# This is the check that it happened 'now' rather than waiting
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# for the session timeout
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self.assertLess(cap_waited, self.mds_session_timeout / 2.0,
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"Capability handover took {0}, expected less than {1}".format(
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cap_waited, self.mds_session_timeout / 2.0
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))
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cap_holder.stdin.close()
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try:
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cap_holder.wait()
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except (CommandFailedError, ConnectionLostError):
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# We killed it (and possibly its node), so it raises an error
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pass
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finally:
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self.mount_a.kill_cleanup()
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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def test_trim_caps(self):
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# Trim capability when reconnecting MDS
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# ===================================
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count = 500
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# Create lots of files
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for i in range(count):
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self.mount_a.run_shell(["sudo", "touch", "f{0}".format(i)])
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# Populate mount_b's cache
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self.mount_b.run_shell(["sudo", "ls"])
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client_id = self.mount_b.get_global_id()
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num_caps = self._session_num_caps(client_id)
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self.assertGreaterEqual(num_caps, count)
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# Restart MDS. client should trim its cache when reconnecting to the MDS
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self.fs.mds_stop()
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self.fs.mds_fail()
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self.fs.mds_restart()
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self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE)
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num_caps = self._session_num_caps(client_id)
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self.assertLess(num_caps, count,
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"should have less than {0} capabilities, have {1}".format(
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count, num_caps
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))
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def test_network_death(self):
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"""
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Simulate software freeze or temporary network failure.
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Check that the client blocks I/O during failure, and completes
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I/O after failure.
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"""
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# We only need one client
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self.mount_b.umount_wait()
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# Initially our one client session should be visible
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client_id = self.mount_a.get_global_id()
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ls_data = self._session_list()
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self.assert_session_count(1, ls_data)
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self.assertEqual(ls_data[0]['id'], client_id)
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self.assert_session_state(client_id, "open")
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# ...and capable of doing I/O without blocking
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self.mount_a.create_files()
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# ...but if we turn off the network
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self.fs.set_clients_block(True)
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# ...and try and start an I/O
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write_blocked = self.mount_a.write_background()
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# ...then it should block
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self.assertFalse(write_blocked.finished)
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self.assert_session_state(client_id, "open")
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time.sleep(self.mds_session_timeout * 1.5) # Long enough for MDS to consider session stale
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self.assertFalse(write_blocked.finished)
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self.assert_session_state(client_id, "stale")
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# ...until we re-enable I/O
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self.fs.set_clients_block(False)
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# ...when it should complete promptly
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a = time.time()
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write_blocked.wait()
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b = time.time()
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recovery_time = b - a
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log.info("recovery time: {0}".format(recovery_time))
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self.assertLess(recovery_time, self.ms_max_backoff * 2)
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self.assert_session_state(client_id, "open")
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def test_filelock(self):
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"""
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Check that file lock doesn't get lost after an MDS restart
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"""
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lock_holder = self.mount_a.lock_background()
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self.mount_b.wait_for_visible("background_file-2")
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self.mount_b.check_filelock()
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self.fs.mds_stop()
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self.fs.mds_fail()
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self.fs.mds_restart()
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self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE)
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self.mount_b.check_filelock()
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# Tear down the background process
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lock_holder.stdin.close()
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try:
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lock_holder.wait()
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except (CommandFailedError, ConnectionLostError):
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# We killed it, so it raises an error
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pass
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class LogStream(object):
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def __init__(self):
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self.buffer = ""
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def write(self, data):
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self.buffer += data
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if "\n" in self.buffer:
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lines = self.buffer.split("\n")
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for line in lines[:-1]:
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log.info(line)
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self.buffer = lines[-1]
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def flush(self):
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pass
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class InteractiveFailureResult(unittest.TextTestResult):
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"""
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Specialization that implements interactive-on-error style
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behavior.
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"""
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ctx = None
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def addFailure(self, test, err):
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log.error(self._exc_info_to_string(err, test))
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log.error("Failure in test '{0}', going interactive".format(
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self.getDescription(test)
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))
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interactive.task(ctx=self.ctx, config=None)
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def addError(self, test, err):
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log.error(self._exc_info_to_string(err, test))
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log.error("Error in test '{0}', going interactive".format(
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self.getDescription(test)
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))
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interactive.task(ctx=self.ctx, config=None)
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@contextlib.contextmanager
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def task(ctx, config):
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"""
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Execute CephFS client recovery test suite.
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Requires:
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- An outer ceph_fuse task with at least two clients
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- That the clients are on a separate host to the MDS
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"""
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fs = Filesystem(ctx)
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# Pick out the clients we will use from the configuration
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# =======================================================
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if len(ctx.mounts) < 2:
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raise RuntimeError("Need at least two clients")
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mount_a = ctx.mounts.values()[0]
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mount_b = ctx.mounts.values()[1]
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if not isinstance(mount_a, FuseMount) or not isinstance(mount_b, FuseMount):
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# kclient kill() power cycles nodes, so requires clients to each be on
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# their own node
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if mount_a.client_remote.hostname == mount_b.client_remote.hostname:
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raise RuntimeError("kclient clients must be on separate nodes")
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# Check we have at least one remote client for use with network-dependent tests
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# =============================================================================
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if mount_a.client_remote.hostname in fs.get_mds_hostnames():
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raise RuntimeError("Require first client to on separate server from MDSs")
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# Stash references on ctx so that we can easily debug in interactive mode
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# =======================================================================
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ctx.filesystem = fs
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ctx.mount_a = mount_a
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ctx.mount_b = mount_b
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run_tests(ctx, config, TestClientRecovery, {
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"mds_reconnect_timeout": int(fs.mds_asok(
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['config', 'get', 'mds_reconnect_timeout']
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)['mds_reconnect_timeout']),
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"mds_session_timeout": int(fs.mds_asok(
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['config', 'get', 'mds_session_timeout']
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)['mds_session_timeout']),
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"ms_max_backoff": int(fs.mds_asok(
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['config', 'get', 'ms_max_backoff']
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)['ms_max_backoff']),
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"fs": fs,
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"mount_a": mount_a,
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"mount_b": mount_b
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})
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# Continue to any downstream tasks
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# ================================
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yield
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