from textwrap import dedent from tasks.cephfs.cephfs_test_case import CephFSTestCase from tasks.cephfs.filesystem import ObjectNotFound, ROOT_INO class TestFlush(CephFSTestCase): def test_flush(self): self.mount_a.run_shell(["mkdir", "mydir"]) self.mount_a.run_shell(["touch", "mydir/alpha"]) dir_ino = self.mount_a.path_to_ino("mydir") file_ino = self.mount_a.path_to_ino("mydir/alpha") # Unmount the client so that it isn't still holding caps self.mount_a.umount_wait() # Before flush, the dirfrag object does not exist with self.assertRaises(ObjectNotFound): self.fs.list_dirfrag(dir_ino) # Before flush, the file's backtrace has not been written with self.assertRaises(ObjectNotFound): self.fs.read_backtrace(file_ino) # Before flush, there are no dentries in the root self.assertEqual(self.fs.list_dirfrag(ROOT_INO), []) # Execute flush flush_data = self.fs.mds_asok(["flush", "journal"]) self.assertEqual(flush_data['return_code'], 0) # After flush, the dirfrag object has been created dir_list = self.fs.list_dirfrag(dir_ino) self.assertEqual(dir_list, ["alpha_head"]) # And the 'mydir' dentry is in the root self.assertEqual(self.fs.list_dirfrag(ROOT_INO), ['mydir_head']) # ...and the data object has its backtrace backtrace = self.fs.read_backtrace(file_ino) self.assertEqual(['alpha', 'mydir'], [a['dname'] for a in backtrace['ancestors']]) self.assertEqual([dir_ino, 1], [a['dirino'] for a in backtrace['ancestors']]) self.assertEqual(file_ino, backtrace['ino']) # ...and the journal is truncated to just a single subtreemap from the # newly created segment summary_output = self.fs.journal_tool(["event", "get", "summary"]) try: self.assertEqual(summary_output, dedent( """ Events by type: SUBTREEMAP: 1 Errors: 0 """ ).strip()) except AssertionError: # In some states, flushing the journal will leave you # an extra event from locks a client held. This is # correct behaviour: the MDS is flushing the journal, # it's just that new events are getting added too. # In this case, we should nevertheless see a fully # empty journal after a second flush. self.assertEqual(summary_output, dedent( """ Events by type: SUBTREEMAP: 1 UPDATE: 1 Errors: 0 """ ).strip()) flush_data = self.fs.mds_asok(["flush", "journal"]) self.assertEqual(flush_data['return_code'], 0) self.assertEqual(self.fs.journal_tool(["event", "get", "summary"]), dedent( """ Events by type: SUBTREEMAP: 1 Errors: 0 """ ).strip()) # Now for deletion! # We will count the RADOS deletions and MDS file purges, to verify that # the expected behaviour is happening as a result of the purge initial_dels = self.fs.mds_asok(['perf', 'dump', 'objecter'])['objecter']['osdop_delete'] initial_purges = self.fs.mds_asok(['perf', 'dump', 'mds_cache'])['mds_cache']['strays_enqueued'] # Use a client to delete a file self.mount_a.mount() self.mount_a.wait_until_mounted() self.mount_a.run_shell(["rm", "-rf", "mydir"]) # Flush the journal so that the directory inode can be purged flush_data = self.fs.mds_asok(["flush", "journal"]) self.assertEqual(flush_data['return_code'], 0) # We expect to see a single file purge self.wait_until_true( lambda: self.fs.mds_asok(['perf', 'dump', 'mds_cache'])['mds_cache']['strays_enqueued'] - initial_purges >= 2, 60) # We expect two deletions, one of the dirfrag and one of the backtrace self.wait_until_true( lambda: self.fs.mds_asok(['perf', 'dump', 'objecter'])['objecter']['osdop_delete'] - initial_dels >= 2, 60) # timeout is fairly long to allow for tick+rados latencies with self.assertRaises(ObjectNotFound): self.fs.list_dirfrag(dir_ino) with self.assertRaises(ObjectNotFound): self.fs.read_backtrace(file_ino) self.assertEqual(self.fs.list_dirfrag(ROOT_INO), [])