mirror of
https://github.com/ceph/ceph
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8f49a7d86a
May have been causing spurious failures on trying to read session state after MDS restart ( session list isn't populated until recovery is complete) Signed-off-by: John Spray <john.spray@redhat.com>
245 lines
8.3 KiB
Python
245 lines
8.3 KiB
Python
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"""
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Exercise the MDS's behaviour when clients and the MDCache reach or
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exceed the limits of how many caps/inodes they should hold.
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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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from teuthology.orchestra.run import CommandFailedError
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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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from tasks.cephfs.cephfs_test_case import CephFSTestCase, run_tests
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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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# Hardcoded values from Server::recall_client_state
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CAP_RECALL_RATIO = 0.8
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CAP_RECALL_MIN = 100
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def wait_until_equal(get_fn, expect_val, timeout, reject_fn=None):
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period = 5
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elapsed = 0
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while True:
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val = get_fn()
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if val == expect_val:
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return
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elif reject_fn and reject_fn(val):
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raise RuntimeError("wait_until_equal: forbidden value {0} seen".format(val))
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else:
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if elapsed >= timeout:
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raise RuntimeError("Timed out after {0} seconds waiting for {1} (currently {2})".format(
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elapsed, expect_val, val
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))
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else:
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log.debug("wait_until_equal: {0} != {1}, waiting...".format(val, expect_val))
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time.sleep(period)
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elapsed += period
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log.debug("wait_until_equal: success")
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def wait_until_true(condition, timeout):
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period = 5
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elapsed = 0
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while True:
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if condition():
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return
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else:
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if elapsed >= timeout:
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raise RuntimeError("Timed out after {0} seconds".format(elapsed))
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else:
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log.debug("wait_until_equal: waiting...")
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time.sleep(period)
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elapsed += period
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log.debug("wait_until_equal: success")
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class TestClientLimits(CephFSTestCase):
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# Environment references
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mount_a = None
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mount_b = None
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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 __init__(self, *args, **kwargs):
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super(TestClientLimits, self).__init__(*args, **kwargs)
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self.configs_set = set()
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def set_conf(self, subsys, key, value):
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self.configs_set.add((subsys, key))
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self.fs.set_ceph_conf(subsys, key, value)
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def setUp(self):
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self.fs.mds_restart()
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self.fs.wait_for_daemons()
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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self.mount_b.mount()
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self.mount_b.wait_until_mounted()
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def tearDown(self):
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self.fs.clear_firewall()
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self.mount_a.teardown()
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self.mount_b.teardown()
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for subsys, key in self.configs_set:
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self.fs.clear_ceph_conf(subsys, key)
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def wait_for_health(self, pattern, timeout):
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"""
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Wait until 'ceph health' contains a single message matching the pattern
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"""
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def seen_health_warning():
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health = self.fs.mon_manager.get_mon_health()
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summary_strings = [s['summary'] for s in health['summary']]
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if len(summary_strings) == 0:
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log.debug("Not expected number of summary strings ({0})".format(summary_strings))
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return False
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elif len(summary_strings) == 1 and pattern in summary_strings[0]:
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return True
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else:
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raise RuntimeError("Unexpected health messages: {0}".format(summary_strings))
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wait_until_true(seen_health_warning, timeout)
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def _test_client_pin(self, use_subdir):
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"""
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When a client pins an inode in its cache, for example because the file is held open,
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it should reject requests from the MDS to trim these caps. The MDS should complain
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to the user that it is unable to enforce its cache size limits because of this
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objectionable client.
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:param use_subdir: whether to put test files in a subdir or use root
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"""
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cache_size = 200
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open_files = 250
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self.fs.set_ceph_conf('mds', 'mds cache size', cache_size)
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self.fs.mds_restart()
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self.fs.wait_for_daemons()
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mount_a_client_id = self.mount_a.get_global_id()
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path = "subdir/mount_a" if use_subdir else "mount_a"
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open_proc = self.mount_a.open_n_background(path, open_files)
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# Client should now hold:
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# `open_files` caps for the open files
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# 1 cap for root
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# 1 cap for subdir
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wait_until_equal(lambda: self.get_session(mount_a_client_id)['num_caps'],
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open_files + (2 if use_subdir else 1),
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timeout=600,
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reject_fn=lambda x: x > open_files + 2)
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# MDS should not be happy about that, as the client is failing to comply
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# with the SESSION_RECALL messages it is being sent
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mds_recall_state_timeout = int(self.fs.get_config("mds_recall_state_timeout"))
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self.wait_for_health("failing to respond to cache pressure", mds_recall_state_timeout + 10)
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# When the client closes the files, it should retain only as many caps as allowed
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# under the SESSION_RECALL policy
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log.info("Terminating process holding files open")
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open_proc.stdin.close()
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try:
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open_proc.wait()
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except CommandFailedError:
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# We killed it, so it raises an error
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pass
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# The remaining caps should comply with the numbers sent from MDS in SESSION_RECALL message,
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# which depend on the cache size and overall ratio
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wait_until_equal(
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lambda: self.get_session(mount_a_client_id)['num_caps'],
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int(cache_size * 0.8),
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timeout=600,
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reject_fn=lambda x: x < int(cache_size*.8))
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def test_client_pin_root(self):
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self._test_client_pin(False)
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def test_client_pin(self):
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self._test_client_pin(True)
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def test_client_release_bug(self):
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"""
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When a client has a bug (which we will simulate) preventing it from releasing caps,
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the MDS should notice that releases are not being sent promptly, and generate a health
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metric to that effect.
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"""
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self.set_conf('client.{0}'.format(self.mount_a.client_id), 'client inject release failure', 'true')
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self.mount_a.teardown()
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self.mount_a.mount()
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self.mount_a.wait_until_mounted()
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mount_a_client_id = self.mount_a.get_global_id()
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# Client A creates a file. He will hold the write caps on the file, and later (simulated bug) fail
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# to comply with the MDSs request to release that cap
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self.mount_a.run_shell(["touch", "file1"])
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# Client B tries to stat the file that client A created
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rproc = self.mount_b.write_background("file1")
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# After mds_revoke_cap_timeout, we should see a health warning (extra lag from
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# MDS beacon period)
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mds_revoke_cap_timeout = int(self.fs.get_config("mds_revoke_cap_timeout"))
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self.wait_for_health("failing to respond to capability release", mds_revoke_cap_timeout + 10)
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# Client B should still be stuck
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self.assertFalse(rproc.finished)
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# Kill client A
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self.mount_a.kill()
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self.mount_a.kill_cleanup()
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# Client B should complete
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self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id])
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rproc.wait()
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@contextlib.contextmanager
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def task(ctx, config):
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fs = Filesystem(ctx, config)
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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):
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# TODO: make kclient mount capable of all the same test tricks as ceph_fuse
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raise RuntimeError("Require FUSE clients")
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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, TestClientLimits, {
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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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