mirror of
https://github.com/ceph/ceph
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6f8a35bb42
...instead of checking for it procedurally during TestClusterFull.setUp Signed-off-by: John Spray <john.spray@redhat.com>
394 lines
16 KiB
Python
394 lines
16 KiB
Python
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import json
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import logging
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import os
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from textwrap import dedent
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import time
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from teuthology.orchestra.run import CommandFailedError
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from tasks.cephfs.cephfs_test_case import CephFSTestCase
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log = logging.getLogger(__name__)
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class FullnessTestCase(CephFSTestCase):
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CLIENTS_REQUIRED = 2
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# Subclasses define whether they're filling whole cluster or just data pool
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data_only = False
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# Subclasses define how many bytes should be written to achieve fullness
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pool_capacity = None
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fill_mb = None
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# Subclasses define what fullness means to them
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def is_full(self):
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raise NotImplementedError()
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def setUp(self):
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CephFSTestCase.setUp(self)
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# These tests just use a single active MDS throughout, so remember its ID
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# for use in mds_asok calls
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self.active_mds_id = self.fs.get_active_names()[0]
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# Capture the initial OSD map epoch for later use
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self.initial_osd_epoch = json.loads(
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self.fs.mon_manager.raw_cluster_cmd("osd", "dump", "--format=json").strip()
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)['epoch']
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# Check the initial barrier epoch on the MDS: this should be
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# set to the latest map at MDS startup. We do this check in
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# setUp to get in there before subclasses might touch things
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# in their own setUp functions.
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self.assertGreaterEqual(self.fs.mds_asok(["status"], mds_id=self.active_mds_id)['osdmap_epoch_barrier'],
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self.initial_osd_epoch)
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def test_barrier(self):
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"""
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That when an OSD epoch barrier is set on an MDS, subsequently
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issued capabilities cause clients to update their OSD map to that
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epoch.
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"""
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# Sync up clients with initial MDS OSD map barrier
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self.mount_a.open_no_data("foo")
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self.mount_b.open_no_data("bar")
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# Grab mounts' initial OSD epochs: later we will check that
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# it hasn't advanced beyond this point.
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mount_a_initial_epoch = self.mount_a.get_osd_epoch()[0]
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mount_b_initial_epoch = self.mount_b.get_osd_epoch()[0]
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# Freshly mounted at start of test, should be up to date with OSD map
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self.assertGreaterEqual(mount_a_initial_epoch, self.initial_osd_epoch)
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self.assertGreaterEqual(mount_b_initial_epoch, self.initial_osd_epoch)
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# Set and unset a flag to cause OSD epoch to increment
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self.fs.mon_manager.raw_cluster_cmd("osd", "set", "pause")
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self.fs.mon_manager.raw_cluster_cmd("osd", "unset", "pause")
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out = self.fs.mon_manager.raw_cluster_cmd("osd", "dump", "--format=json").strip()
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new_epoch = json.loads(out)['epoch']
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self.assertNotEqual(self.initial_osd_epoch, new_epoch)
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# Do a metadata operation on clients, witness that they end up with
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# the old OSD map from startup time (nothing has prompted client
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# to update its map)
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self.mount_a.open_no_data("alpha")
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self.mount_b.open_no_data("bravo1")
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# Sleep long enough that if the OSD map was propagating it would
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# have done so (this is arbitrary because we are 'waiting' for something
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# to *not* happen).
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time.sleep(30)
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mount_a_epoch, mount_a_barrier = self.mount_a.get_osd_epoch()
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self.assertEqual(mount_a_epoch, mount_a_initial_epoch)
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mount_b_epoch, mount_b_barrier = self.mount_b.get_osd_epoch()
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self.assertEqual(mount_b_epoch, mount_b_initial_epoch)
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# Set a barrier on the MDS
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self.fs.mds_asok(["osdmap", "barrier", new_epoch.__str__()], mds_id=self.active_mds_id)
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# Do an operation on client B, witness that it ends up with
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# the latest OSD map from the barrier. This shouldn't generate any
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# cap revokes to A because B was already the last one to touch
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# a file in root.
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self.mount_b.run_shell(["touch", "bravo2"])
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self.mount_b.open_no_data("bravo2")
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# Some time passes here because the metadata part of the operation
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# completes immediately, while the resulting OSD map update happens
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# asynchronously (it's an Objecter::_maybe_request_map) as a result
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# of seeing the new epoch barrier.
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self.wait_until_equal(
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lambda: self.mount_b.get_osd_epoch(),
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(new_epoch, new_epoch),
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30,
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lambda x: x[0] > new_epoch or x[1] > new_epoch)
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# ...and none of this should have affected the oblivious mount a,
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# because it wasn't doing any data or metadata IO
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mount_a_epoch, mount_a_barrier = self.mount_a.get_osd_epoch()
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self.assertEqual(mount_a_epoch, mount_a_initial_epoch)
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def _data_pool_name(self):
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data_pool_names = self.fs.get_data_pool_names()
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if len(data_pool_names) > 1:
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raise RuntimeError("This test can't handle multiple data pools")
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else:
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return data_pool_names[0]
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def _test_full(self, easy_case):
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"""
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- That a client trying to write data to a file is prevented
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from doing so with an -EFULL result
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- That they are also prevented from creating new files by the MDS.
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- That they may delete another file to get the system healthy again
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:param easy_case: if true, delete a successfully written file to
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free up space. else, delete the file that experienced
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the failed write.
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"""
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osd_mon_report_interval_max = int(self.fs.get_config("osd_mon_report_interval_max", service_type='osd'))
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log.info("Writing {0}MB should fill this cluster".format(self.fill_mb))
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# Fill up the cluster. This dd may or may not fail, as it depends on
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# how soon the cluster recognises its own fullness
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self.mount_a.write_n_mb("large_file_a", self.fill_mb / 2)
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try:
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self.mount_a.write_n_mb("large_file_b", self.fill_mb / 2)
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except CommandFailedError:
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log.info("Writing file B failed (full status happened already)")
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assert self.is_full()
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else:
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log.info("Writing file B succeeded (full status will happen soon)")
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self.wait_until_true(lambda: self.is_full(),
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timeout=osd_mon_report_interval_max * 5)
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# Attempting to write more data should give me ENOSPC
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with self.assertRaises(CommandFailedError) as ar:
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self.mount_a.write_n_mb("large_file_b", 50, seek=self.fill_mb / 2)
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self.assertEqual(ar.exception.exitstatus, 1) # dd returns 1 on "No space"
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# Wait for the MDS to see the latest OSD map so that it will reliably
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# be applying the policy of rejecting non-deletion metadata operations
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# while in the full state.
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osd_epoch = json.loads(self.fs.mon_manager.raw_cluster_cmd("osd", "dump", "--format=json-pretty"))['epoch']
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self.wait_until_true(
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lambda: self.fs.mds_asok(['status'], mds_id=self.active_mds_id)['osdmap_epoch'] >= osd_epoch,
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timeout=10)
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if not self.data_only:
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with self.assertRaises(CommandFailedError):
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self.mount_a.write_n_mb("small_file_1", 0)
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# Clear out some space
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if easy_case:
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self.mount_a.run_shell(['rm', '-f', 'large_file_a'])
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self.mount_a.run_shell(['rm', '-f', 'large_file_b'])
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else:
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# In the hard case it is the file that filled the system.
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# Before the new #7317 (ENOSPC, epoch barrier) changes, this
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# would fail because the last objects written would be
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# stuck in the client cache as objecter operations.
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self.mount_a.run_shell(['rm', '-f', 'large_file_b'])
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self.mount_a.run_shell(['rm', '-f', 'large_file_a'])
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# Here we are waiting for two things to happen:
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# * The MDS to purge the stray folder and execute object deletions
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# * The OSDs to inform the mon that they are no longer full
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self.wait_until_true(lambda: not self.is_full(),
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timeout=osd_mon_report_interval_max * 5)
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# Wait for the MDS to see the latest OSD map so that it will reliably
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# be applying the free space policy
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osd_epoch = json.loads(self.fs.mon_manager.raw_cluster_cmd("osd", "dump", "--format=json-pretty"))['epoch']
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self.wait_until_true(
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lambda: self.fs.mds_asok(['status'], mds_id=self.active_mds_id)['osdmap_epoch'] >= osd_epoch,
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timeout=10)
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# Now I should be able to write again
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self.mount_a.write_n_mb("large_file", 50, seek=0)
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# Ensure that the MDS keeps its OSD epoch barrier across a restart
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def test_full_different_file(self):
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self._test_full(True)
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def test_full_same_file(self):
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self._test_full(False)
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def _remote_write_test(self, template):
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"""
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Run some remote python in a way that's useful for
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testing free space behaviour (see test_* methods using this)
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"""
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file_path = os.path.join(self.mount_a.mountpoint, "full_test_file")
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# Enough to trip the full flag
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osd_mon_report_interval_max = int(self.fs.get_config("osd_mon_report_interval_max", service_type='osd'))
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mon_tick_interval = int(self.fs.get_config("mon_tick_interval", service_type="mon"))
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# Sufficient data to cause RADOS cluster to go 'full'
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log.info("pool capacity {0}, {1}MB should be enough to fill it".format(self.pool_capacity, self.fill_mb))
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# Long enough for RADOS cluster to notice it is full and set flag on mons
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# (report_interval for mon to learn PG stats, tick interval for it to update OSD map,
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# factor of 1.5 for I/O + network latency in committing OSD map and distributing it
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# to the OSDs)
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full_wait = (osd_mon_report_interval_max + mon_tick_interval) * 1.5
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# Configs for this test should bring this setting down in order to
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# run reasonably quickly
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if osd_mon_report_interval_max > 10:
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log.warn("This test may run rather slowly unless you decrease"
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"osd_mon_report_interval_max (5 is a good setting)!")
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self.mount_a.run_python(template.format(
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fill_mb=self.fill_mb,
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file_path=file_path,
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full_wait=full_wait
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))
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def test_full_fclose(self):
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# A remote script which opens a file handle, fills up the filesystem, and then
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# checks that ENOSPC errors on buffered writes appear correctly as errors in fsync
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remote_script = dedent("""
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import time
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import datetime
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import subprocess
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import os
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# Write some buffered data through before going full, all should be well
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bytes = 0
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f = os.open("{file_path}", os.O_WRONLY | os.O_CREAT)
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bytes += os.write(f, 'a' * 4096)
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os.fsync(f)
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# Okay, now we're going to fill up the filesystem, and then keep
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# writing until we see an error from fsync. As long as we're doing
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# buffered IO, the error should always only appear from fsync and not
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# from write
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full = False
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for n in range(0, {fill_mb}):
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bytes += os.write(f, 'x' * 1024 * 1024)
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# OK, now we should sneak in under the full condition
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# due to the time it takes the OSDs to report to the
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# mons, and get a successful fsync on our full-making data
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os.fsync(f)
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# Now wait for the full flag to get set so that our
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# next flush IO will fail
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time.sleep(30)
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# A buffered IO, should succeed
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os.write(f, 'x' * 4096)
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# Wait long enough for a background flush that should fail
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time.sleep(30)
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# ...and check that the failed background flush is reflected in fclose
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try:
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os.close(f)
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except OSError:
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print "close() returned an error as expected"
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else:
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raise RuntimeError("close() failed to raise error")
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os.unlink("{file_path}")
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""")
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self._remote_write_test(remote_script)
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def test_full_fsync(self):
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"""
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That when the full flag is encountered during asynchronous
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flushes, such that an fwrite() succeeds but an fsync/fclose()
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should return the ENOSPC error.
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"""
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# A remote script which opens a file handle, fills up the filesystem, and then
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# checks that ENOSPC errors on buffered writes appear correctly as errors in fsync
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remote_script = dedent("""
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import time
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import datetime
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import subprocess
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import os
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# Write some buffered data through before going full, all should be well
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bytes = 0
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f = os.open("{file_path}", os.O_WRONLY | os.O_CREAT)
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bytes += os.write(f, 'a' * 4096)
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os.fsync(f)
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# Okay, now we're going to fill up the filesystem, and then keep
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# writing until we see an error from fsync. As long as we're doing
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# buffered IO, the error should always only appear from fsync and not
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# from write
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full = False
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for n in range(0, {fill_mb} + 1):
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bytes += os.write(f, 'x' * 1024 * 1024)
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try:
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os.fsync(f)
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except OSError as e:
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print "Reached fullness after %.2f MB" % (bytes / (1024.0 * 1024.0))
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full = True
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break
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else:
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print "Not full yet after %.2f MB" % (bytes / (1024.0 * 1024.0))
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if n > {fill_mb} * 0.8:
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# Be cautious in the last region where we expect to hit
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# the full condition, so that we don't overshoot too dramatically
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time.sleep({full_wait})
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if not full:
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raise RuntimeError("Failed to reach fullness after writing %d bytes" % bytes)
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# The error sticks to the inode until we dispose of it
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try:
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os.close(f)
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except OSError:
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print "Saw error from close() as expected"
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else:
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raise RuntimeError("Did not see expected error from close()")
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os.unlink("{file_path}")
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""")
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self._remote_write_test(remote_script)
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class TestQuotaFull(FullnessTestCase):
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"""
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Test per-pool fullness, which indicates quota limits exceeded
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"""
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pool_capacity = 1024 * 1024 * 32 # arbitrary low-ish limit
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fill_mb = pool_capacity / (1024 * 1024)
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# We are only testing quota handling on the data pool, not the metadata
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# pool.
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data_only = True
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def setUp(self):
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super(TestQuotaFull, self).setUp()
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pool_name = self.fs.get_data_pool_name()
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self.fs.mon_manager.raw_cluster_cmd("osd", "pool", "set-quota", pool_name,
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"max_bytes", "{0}".format(self.pool_capacity))
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def is_full(self):
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return self.fs.is_pool_full(self.fs.get_data_pool_name())
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class TestClusterFull(FullnessTestCase):
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"""
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Test cluster-wide fullness, which indicates that an OSD has become too full
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"""
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pool_capacity = None
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REQUIRE_MEMSTORE = True
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def setUp(self):
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super(TestClusterFull, self).setUp()
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if self.pool_capacity is None:
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# This is a hack to overcome weird fluctuations in the reported
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# `max_avail` attribute of pools that sometimes occurs in between
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# tests (reason as yet unclear, but this dodges the issue)
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TestClusterFull.pool_capacity = self.fs.get_pool_df(self._data_pool_name())['max_avail']
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mon_osd_full_ratio = float(self.fs.get_config("mon_osd_full_ratio"))
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TestClusterFull.fill_mb = int(1.05 * mon_osd_full_ratio * (self.pool_capacity / (1024.0 * 1024.0)))
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def is_full(self):
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return self.fs.is_full()
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# Hide the parent class so that unittest.loader doesn't try to run it.
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del globals()['FullnessTestCase']
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