ceph/tasks/cephfs/cephfs_test_case.py

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import json
import logging
import unittest
from unittest import case
import time
import os
import re
from StringIO import StringIO
from tasks.cephfs.fuse_mount import FuseMount
from teuthology.orchestra import run
from teuthology.orchestra.run import CommandFailedError
log = logging.getLogger(__name__)
def long_running(f):
"""
Decorator that adds an "is_long_running" attribute to the wrapped function
"""
f.is_long_running = True
return f
def needs_trimming(f):
"""
Mark fn as requiring a client capable of trimming its cache (i.e. for ceph-fuse
this means it needs to be able to run as root, currently)
"""
f.needs_trimming = True
return f
class CephFSTestCase(unittest.TestCase):
"""
Test case for Ceph FS, requires caller to populate Filesystem and Mounts,
into the fs, mount_a, mount_b class attributes (setting mount_b is optional)
Handles resetting the cluster under test between tests.
"""
# Environment references
mounts = None
fs = None
ctx = None
# FIXME weird explicit naming
mount_a = None
mount_b = None
# Declarative test requirements: subclasses should override these to indicate
# their special needs. If not met, tests will be skipped.
CLIENTS_REQUIRED = 1
MDSS_REQUIRED = 1
REQUIRE_KCLIENT_REMOTE = False
REQUIRE_ONE_CLIENT_REMOTE = False
REQUIRE_MEMSTORE = False
LOAD_SETTINGS = []
def setUp(self):
if len(self.fs.mds_ids) < self.MDSS_REQUIRED:
raise case.SkipTest("Only have {0} MDSs, require {1}".format(
len(self.fs.mds_ids), self.MDSS_REQUIRED
))
if len(self.mounts) < self.CLIENTS_REQUIRED:
raise case.SkipTest("Only have {0} clients, require {1}".format(
len(self.mounts), self.CLIENTS_REQUIRED
))
if self.REQUIRE_KCLIENT_REMOTE:
if not isinstance(self.mounts[0], FuseMount) or not isinstance(self.mounts[1], FuseMount):
# kclient kill() power cycles nodes, so requires clients to each be on
# their own node
if self.mounts[0].client_remote.hostname == self.mounts[1].client_remote.hostname:
raise case.SkipTest("kclient clients must be on separate nodes")
if self.REQUIRE_ONE_CLIENT_REMOTE:
if self.mounts[0].client_remote.hostname in self.fs.get_mds_hostnames():
raise case.SkipTest("Require first client to be on separate server from MDSs")
if self.REQUIRE_MEMSTORE:
objectstore = self.fs.get_config("osd_objectstore", "osd")
if objectstore != "memstore":
# You certainly *could* run this on a real OSD, but you don't want to sit
# here for hours waiting for the test to fill up a 1TB drive!
raise case.SkipTest("Require `memstore` OSD backend to simulate full drives")
# Unmount all surplus clients
for i in range(self.CLIENTS_REQUIRED, len(self.mounts)):
mount = self.mounts[i]
log.info("Unmounting unneeded client {0}".format(mount.client_id))
mount.umount_wait()
# Create friendly mount_a, mount_b attrs
for i in range(0, self.CLIENTS_REQUIRED):
setattr(self, "mount_{0}".format(chr(ord('a') + i)), self.mounts[i])
self.fs.clear_firewall()
# Unmount in order to start each test on a fresh mount, such
# that test_barrier can have a firm expectation of what OSD
# epoch the clients start with.
if self.mount_a.is_mounted():
self.mount_a.umount_wait()
if self.mount_b:
if self.mount_b.is_mounted():
self.mount_b.umount_wait()
# To avoid any issues with e.g. unlink bugs, we destroy and recreate
# the filesystem rather than just doing a rm -rf of files
self.fs.mds_stop()
if self.fs.exists():
self.fs.mon_manager.raw_cluster_cmd('mds', 'cluster_down')
self.fs.mds_fail()
self.fs.delete_all()
self.fs.create()
# In case the previous filesystem had filled up the RADOS cluster, wait for that
# flag to pass.
osd_mon_report_interval_max = int(self.fs.get_config("osd_mon_report_interval_max", service_type='osd'))
self.wait_until_true(lambda: not self.fs.is_full(),
timeout=osd_mon_report_interval_max * 5)
# In case anything is in the OSD blacklist list, clear it out. This is to avoid
# the OSD map changing in the background (due to blacklist expiry) while tests run.
blacklist = json.loads(self.fs.mon_manager.raw_cluster_cmd("osd", "dump", "--format=json-pretty"))['blacklist']
log.info("Removing {0} blacklist entries".format(len(blacklist)))
for addr, blacklisted_at in blacklist.items():
self.fs.mon_manager.raw_cluster_cmd("osd", "blacklist", "rm", addr)
# In case some test messed with auth caps, reset them
client_mount_ids = [m.client_id for m in self.mounts]
for client_id in client_mount_ids:
self.fs.mon_manager.raw_cluster_cmd_result(
'auth', 'caps', "client.{0}".format(client_id),
'mds', 'allow',
'mon', 'allow r',
'osd', 'allow rw pool={0}'.format(self.fs.get_data_pool_name()))
log.info(client_mount_ids)
# In case the test changes the IDs of clients, stash them so that we can
# reset in tearDown
self._original_client_ids = client_mount_ids
# In case there were any extra auth identities around from a previous
# test, delete them
for entry in self.auth_list():
ent_type, ent_id = entry['entity'].split(".")
if ent_type == "client" and ent_id not in client_mount_ids and ent_id != "admin":
self.fs.mon_manager.raw_cluster_cmd("auth", "del", entry['entity'])
self.fs.mds_restart()
self.fs.wait_for_daemons()
if not self.mount_a.is_mounted():
self.mount_a.mount()
self.mount_a.wait_until_mounted()
if self.mount_b:
if not self.mount_b.is_mounted():
self.mount_b.mount()
self.mount_b.wait_until_mounted()
# Load an config settings of interest
for setting in self.LOAD_SETTINGS:
setattr(self, setting, int(self.fs.mds_asok(
['config', 'get', setting], self.fs.mds_ids[0]
)[setting]))
self.configs_set = set()
def tearDown(self):
self.fs.clear_firewall()
for m in self.mounts:
m.teardown()
for i, m in enumerate(self.mounts):
m.client_id = self._original_client_ids[i]
for subsys, key in self.configs_set:
self.fs.clear_ceph_conf(subsys, key)
def set_conf(self, subsys, key, value):
self.configs_set.add((subsys, key))
self.fs.set_ceph_conf(subsys, key, value)
def auth_list(self):
"""
Convenience wrapper on "ceph auth list"
"""
return json.loads(self.fs.mon_manager.raw_cluster_cmd(
"auth", "list", "--format=json-pretty"
))['auth_dump']
def assert_session_count(self, expected, ls_data=None, mds_id=None):
if ls_data is None:
ls_data = self.fs.mds_asok(['session', 'ls'], mds_id=mds_id)
self.assertEqual(expected, len(ls_data), "Expected {0} sessions, found {1}".format(
expected, len(ls_data)
))
def assert_session_state(self, client_id, expected_state):
self.assertEqual(
self._session_by_id(
self.fs.mds_asok(['session', 'ls'])).get(client_id, {'state': None})['state'],
expected_state)
def get_session_data(self, client_id):
return self._session_by_id(client_id)
def _session_list(self):
ls_data = self.fs.mds_asok(['session', 'ls'])
ls_data = [s for s in ls_data if s['state'] not in ['stale', 'closed']]
return ls_data
def get_session(self, client_id, session_ls=None):
if session_ls is None:
session_ls = self.fs.mds_asok(['session', 'ls'])
return self._session_by_id(session_ls)[client_id]
def _session_by_id(self, session_ls):
return dict([(s['id'], s) for s in session_ls])
def wait_until_equal(self, get_fn, expect_val, timeout, reject_fn=None):
period = 5
elapsed = 0
while True:
val = get_fn()
if val == expect_val:
return
elif reject_fn and reject_fn(val):
raise RuntimeError("wait_until_equal: forbidden value {0} seen".format(val))
else:
if elapsed >= timeout:
raise RuntimeError("Timed out after {0} seconds waiting for {1} (currently {2})".format(
elapsed, expect_val, val
))
else:
log.debug("wait_until_equal: {0} != {1}, waiting...".format(val, expect_val))
time.sleep(period)
elapsed += period
log.debug("wait_until_equal: success")
def wait_until_true(self, condition, timeout):
period = 5
elapsed = 0
while True:
if condition():
return
else:
if elapsed >= timeout:
raise RuntimeError("Timed out after {0} seconds".format(elapsed))
else:
log.debug("wait_until_true: waiting...")
time.sleep(period)
elapsed += period
log.debug("wait_until_true: success")
def assert_mds_crash(self, daemon_id):
"""
Assert that the a particular MDS daemon crashes (block until
it does)
"""
try:
self.fs.mds_daemons[daemon_id].proc.wait()
except CommandFailedError as e:
log.info("MDS '{0}' crashed with status {1} as expected".format(daemon_id, e.exitstatus))
self.fs.mds_daemons[daemon_id].proc = None
# Go remove the coredump from the crash, otherwise teuthology.internal.coredump will
# catch it later and treat it as a failure.
p = self.fs.mds_daemons[daemon_id].remote.run(args=[
"sudo", "sysctl", "-n", "kernel.core_pattern"], stdout=StringIO())
core_pattern = p.stdout.getvalue().strip()
if os.path.dirname(core_pattern): # Non-default core_pattern with a directory in it
# We have seen a core_pattern that looks like it's from teuthology's coredump
# task, so proceed to clear out the core file
log.info("Clearing core from pattern: {0}".format(core_pattern))
# Determine the PID of the crashed MDS by inspecting the MDSMap, it had
# to talk to the mons to get assigned a rank to reach the point of crashing
addr = self.fs.mon_manager.get_mds_status(daemon_id)['addr']
pid_str = addr.split("/")[1]
log.info("Determined crasher PID was {0}".format(pid_str))
# Substitute PID into core_pattern to get a glob
core_glob = core_pattern.replace("%p", pid_str)
core_glob = re.sub("%[a-z]", "*", core_glob) # Match all for all other % tokens
# Verify that we see the expected single coredump matching the expected pattern
ls_proc = self.fs.mds_daemons[daemon_id].remote.run(args=[
"sudo", "ls", run.Raw(core_glob)
], stdout=StringIO())
cores = [f for f in ls_proc.stdout.getvalue().strip().split("\n") if f]
log.info("Enumerated cores: {0}".format(cores))
self.assertEqual(len(cores), 1)
log.info("Found core file {0}, deleting it".format(cores[0]))
self.fs.mds_daemons[daemon_id].remote.run(args=[
"sudo", "rm", "-f", cores[0]
])
else:
log.info("No core_pattern directory set, nothing to clear (internal.coredump not enabled?)")
else:
raise AssertionError("MDS daemon '{0}' did not crash as expected".format(daemon_id))
def assert_cluster_log(self, expected_pattern):
"""
Context manager. Assert that during execution, or up to 5 seconds later,
the Ceph cluster log emits a message matching the expected pattern.
:param expected_pattern: a string that you expect to see in the log output
"""
ceph_manager = self.fs.mon_manager
class ContextManager(object):
def match(self):
return expected_pattern in self.watcher_process.stdout.getvalue()
def __enter__(self):
self.watcher_process = ceph_manager.run_ceph_w()
def __exit__(self, exc_type, exc_val, exc_tb):
if not self.watcher_process.finished:
# Check if we got an early match, wait a bit if we didn't
if self.match():
return
else:
log.debug("No log hits yet, waiting...")
# Default monc tick interval is 10s, so wait that long and
# then some grace
time.sleep(15)
self.watcher_process.stdin.close()
try:
self.watcher_process.wait()
except CommandFailedError:
pass
if not self.match():
log.error("Log output: \n{0}\n".format(self.watcher_process.stdout.getvalue()))
raise AssertionError("Expected log message not found: '{0}'".format(expected_pattern))
return ContextManager()