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swift
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swift/test/unit/obj/test_replicator.py

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# Copyright (c) 2010-2012 OpenStack Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import collections
import json
import unittest
import os
import mock
from gzip import GzipFile
from shutil import rmtree
import six
import six.moves.cPickle as pickle
import time
import tempfile
from contextlib import contextmanager, closing
from collections import defaultdict
from errno import ENOENT, ENOTEMPTY, ENOTDIR
from eventlet.green import subprocess
from eventlet import Timeout, sleep
from test.unit import (debug_logger, patch_policies, make_timestamp_iter,
mocked_http_conn, mock_check_drive, skip_if_no_xattrs)
from swift.common import utils
from swift.common.utils import (hash_path, mkdirs, normalize_timestamp,
storage_directory)
from swift.common import ring
from swift.obj import diskfile, replicator as object_replicator
from swift.common.storage_policy import StoragePolicy, POLICIES
def _ips(*args, **kwargs):
return ['127.0.0.0']
def mock_http_connect(status):
class FakeConn(object):
def __init__(self, status, *args, **kwargs):
self.status = status
self.reason = 'Fake'
self.host = args[0]
self.port = args[1]
self.method = args[4]
self.path = args[5]
self.with_exc = False
self.headers = kwargs.get('headers', {})
def getresponse(self):
if self.with_exc:
raise Exception('test')
return self
def getheader(self, header):
return self.headers[header]
def read(self, amt=None):
return pickle.dumps({})
def close(self):
return
return lambda *args, **kwargs: FakeConn(status, *args, **kwargs)
process_errors = []
class MockProcess(object):
ret_code = None
ret_log = None
check_args = None
captured_log = None
class Stream(object):
def read(self):
return next(MockProcess.ret_log)
def __init__(self, *args, **kwargs):
targs = next(MockProcess.check_args)
for targ in targs:
# Allow more than 2 candidate targs
# (e.g. a case that either node is fine when nodes shuffled)
if isinstance(targ, tuple):
allowed = False
for target in targ:
if target in args[0]:
allowed = True
if not allowed:
process_errors.append("Invalid: %s not in %s" % (targ,
args))
else:
if targ not in args[0]:
process_errors.append("Invalid: %s not in %s" % (targ,
args))
self.captured_info = {
'rsync_args': args[0],
}
self.stdout = self.Stream()
def wait(self):
# the _mock_process context manager assures this class attribute is a
# mutable list and takes care of resetting it
rv = next(self.ret_code)
if self.captured_log is not None:
self.captured_info['ret_code'] = rv
self.captured_log.append(self.captured_info)
return rv
@contextmanager
def _mock_process(ret):
captured_log = []
MockProcess.captured_log = captured_log
orig_process = subprocess.Popen
MockProcess.ret_code = (i[0] for i in ret)
MockProcess.ret_log = (i[1] if six.PY2 else i[1].encode('utf8')
for i in ret)
MockProcess.check_args = (i[2] for i in ret)
object_replicator.subprocess.Popen = MockProcess
yield captured_log
MockProcess.captured_log = None
object_replicator.subprocess.Popen = orig_process
class MockHungProcess(object):
def __init__(self, polls_needed=0, *args, **kwargs):
class MockStdout(object):
def read(self):
pass
self.stdout = MockStdout()
self._state = 'running'
self._calls = []
self._polls = 0
self._polls_needed = polls_needed
def wait(self, timeout=None):
self._calls.append(('wait', self._state))
if self._state == 'running':
# Sleep so we trip the rsync timeout
sleep(1)
raise BaseException('You need to mock out some timeouts')
if not self._polls_needed:
self._state = 'os-reaped'
return 137
if timeout is not None:
raise subprocess.TimeoutExpired('some cmd', timeout)
raise BaseException("You're waiting indefinitely on something "
"we've established is hung")
def poll(self):
self._calls.append(('poll', self._state))
self._polls += 1
if self._polls >= self._polls_needed:
self._state = 'os-reaped'
return 137
else:
return None
def terminate(self):
self._calls.append(('terminate', self._state))
if self._state == 'running':
self._state = 'terminating'
def kill(self):
self._calls.append(('kill', self._state))
self._state = 'killed'
def _create_test_rings(path, devs=None, next_part_power=None):
testgz = os.path.join(path, 'object.ring.gz')
intended_replica2part2dev_id = [
[0, 1, 2, 3, 4, 5, 6],
[1, 2, 3, 0, 5, 6, 4],
[2, 3, 0, 1, 6, 4, 5],
]
intended_devs = devs or [
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '127.0.0.0', 'port': 6200},
{'id': 1, 'device': 'sda', 'zone': 1,
'region': 2, 'ip': '127.0.0.1', 'port': 6200},
{'id': 2, 'device': 'sda', 'zone': 2,
'region': 3, 'ip': '127.0.0.2', 'port': 6200},
{'id': 3, 'device': 'sda', 'zone': 4,
'region': 2, 'ip': '127.0.0.3', 'port': 6200},
{'id': 4, 'device': 'sda', 'zone': 5,
'region': 1, 'ip': '127.0.0.4', 'port': 6200,
'replication_ip': '127.0.1.4'},
{'id': 5, 'device': 'sda', 'zone': 6,
'region': 3, 'ip': 'fe80::202:b3ff:fe1e:8329', 'port': 6200},
{'id': 6, 'device': 'sda', 'zone': 7, 'region': 1,
'ip': '2001:0db8:85a3:0000:0000:8a2e:0370:7334', 'port': 6200},
]
intended_part_shift = 30
with closing(GzipFile(testgz, 'wb')) as f:
pickle.dump(
ring.RingData(intended_replica2part2dev_id,
intended_devs, intended_part_shift, next_part_power),
f)
testgz = os.path.join(path, 'object-1.ring.gz')
with closing(GzipFile(testgz, 'wb')) as f:
pickle.dump(
ring.RingData(intended_replica2part2dev_id,
intended_devs, intended_part_shift, next_part_power),
f)
for policy in POLICIES:
policy.object_ring = None # force reload
return
@patch_policies([StoragePolicy(0, 'zero', False),
StoragePolicy(1, 'one', True)])
class TestObjectReplicator(unittest.TestCase):
def setUp(self):
skip_if_no_xattrs()
utils.HASH_PATH_SUFFIX = b'endcap'
utils.HASH_PATH_PREFIX = b''
# recon cache path
self.recon_cache = tempfile.mkdtemp()
rmtree(self.recon_cache, ignore_errors=1)
os.mkdir(self.recon_cache)
# Setup a test ring (stolen from common/test_ring.py)
self.testdir = tempfile.mkdtemp()
self.devices = os.path.join(self.testdir, 'node')
rmtree(self.testdir, ignore_errors=1)
os.mkdir(self.testdir)
os.mkdir(self.devices)
self.objects, self.objects_1, self.parts, self.parts_1 = \
self._write_disk_data('sda')
_create_test_rings(self.testdir)
self.logger = debug_logger('test-replicator')
self.conf = dict(
bind_ip=_ips()[0], bind_port=6200,
swift_dir=self.testdir, devices=self.devices, mount_check='false',
timeout='300', stats_interval='1', sync_method='rsync',
recon_cache_path=self.recon_cache)
self._create_replicator()
self.ts = make_timestamp_iter()
def tearDown(self):
self.assertFalse(process_errors)
rmtree(self.testdir, ignore_errors=1)
rmtree(self.recon_cache, ignore_errors=1)
def test_handoff_replication_setting_warnings(self):
conf_tests = [
# (config, expected_warning)
({}, False),
({'handoff_delete': 'auto'}, False),
({'handoffs_first': 'no'}, False),
({'handoff_delete': '2'}, True),
({'handoffs_first': 'yes'}, True),
({'handoff_delete': '1', 'handoffs_first': 'yes'}, True),
]
log_message = 'Handoff only mode is not intended for normal ' \
'operation, please disable handoffs_first and ' \
'handoff_delete before the next normal rebalance'
for config, expected_warning in conf_tests:
self.logger.clear()
object_replicator.ObjectReplicator(config, logger=self.logger)
warning_log_lines = self.logger.get_lines_for_level('warning')
if expected_warning:
expected_log_lines = [log_message]
else:
expected_log_lines = []
self.assertEqual(expected_log_lines, warning_log_lines,
'expected %s != %s for config %r' % (
expected_log_lines,
warning_log_lines,
config,
))
def _write_disk_data(self, disk_name, with_json=False):
os.mkdir(os.path.join(self.devices, disk_name))
objects = os.path.join(self.devices, disk_name,
diskfile.get_data_dir(POLICIES[0]))
objects_1 = os.path.join(self.devices, disk_name,
diskfile.get_data_dir(POLICIES[1]))
os.mkdir(objects)
os.mkdir(objects_1)
parts = {}
parts_1 = {}
for part in ['0', '1', '2', '3']:
parts[part] = os.path.join(objects, part)
os.mkdir(parts[part])
parts_1[part] = os.path.join(objects_1, part)
os.mkdir(parts_1[part])
if with_json:
for json_file in ['auditor_status_ZBF.json',
'auditor_status_ALL.json']:
for obj_dir in [objects, objects_1]:
with open(os.path.join(obj_dir, json_file), 'w'):
pass
return objects, objects_1, parts, parts_1
def _create_replicator(self):
self.replicator = object_replicator.ObjectReplicator(self.conf)
self.replicator.logger = self.logger
self.replicator._zero_stats()
self.replicator.all_devs_info = set()
self.df_mgr = diskfile.DiskFileManager(self.conf, self.logger)
def test_run_once_no_local_device_in_ring(self):
conf = dict(swift_dir=self.testdir, devices=self.devices,
bind_ip='1.1.1.1', recon_cache_path=self.recon_cache,
mount_check='false', timeout='300', stats_interval='1')
replicator = object_replicator.ObjectReplicator(conf,
logger=self.logger)
replicator.run_once()
expected = [
"Can't find itself in policy with index 0 with ips 1.1.1.1 and"
" with port 6200 in ring file, not replicating",
"Can't find itself in policy with index 1 with ips 1.1.1.1 and"
" with port 6200 in ring file, not replicating",
]
self.assertEqual(expected, self.logger.get_lines_for_level('error'))
def test_run_once(self):
conf = dict(swift_dir=self.testdir, devices=self.devices,
bind_ip=_ips()[0], recon_cache_path=self.recon_cache,
mount_check='false', timeout='300', stats_interval='1')
replicator = object_replicator.ObjectReplicator(conf,
logger=self.logger)
was_connector = object_replicator.http_connect
object_replicator.http_connect = mock_http_connect(200)
cur_part = '0'
df = self.df_mgr.get_diskfile('sda', cur_part, 'a', 'c', 'o',
policy=POLICIES[0])
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, cur_part, data_dir)
process_arg_checker = []
ring = replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(int(cur_part))
if node['ip'] not in _ips()]
rsync_mods = tuple(['%s::object/sda/objects/%s' %
(node['ip'], cur_part) for node in nodes])
for node in nodes:
process_arg_checker.append(
(0, '', ['rsync', whole_path_from, rsync_mods]))
start = replicator.replication_cycle
self.assertGreaterEqual(start, 0)
self.assertLessEqual(start, 9)
with _mock_process(process_arg_checker):
replicator.run_once()
self.assertEqual((start + 1) % 10, replicator.replication_cycle)
self.assertFalse(process_errors)
self.assertFalse(self.logger.get_lines_for_level('error'))
# Returns 0 at first, and 60 on all following .next() calls
def _infinite_gen():
yield 0
while True:
yield 60
for cycle in range(1, 10):
with _mock_process(process_arg_checker):
with mock.patch('time.time', side_effect=_infinite_gen()):
replicator.run_once()
self.assertEqual((start + 1 + cycle) % 10,
replicator.replication_cycle)
recon_fname = os.path.join(self.recon_cache, "object.recon")
with open(recon_fname) as cachefile:
recon = json.loads(cachefile.read())
self.assertEqual(1, recon.get('replication_time'))
self.assertIn('replication_stats', recon)
self.assertIn('replication_last', recon)
expected = 'Object replication complete (once). (1.00 minutes)'
self.assertIn(expected, self.logger.get_lines_for_level('info'))
self.assertFalse(self.logger.get_lines_for_level('error'))
object_replicator.http_connect = was_connector
# policy 1
def test_run_once_1(self):
conf = dict(swift_dir=self.testdir, devices=self.devices,
recon_cache_path=self.recon_cache,
mount_check='false', timeout='300', stats_interval='1')
replicator = object_replicator.ObjectReplicator(conf,
logger=self.logger)
was_connector = object_replicator.http_connect
object_replicator.http_connect = mock_http_connect(200)
cur_part = '0'
df = self.df_mgr.get_diskfile('sda', cur_part, 'a', 'c', 'o',
policy=POLICIES[1])
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects_1, cur_part, data_dir)
process_arg_checker = []
ring = replicator.load_object_ring(POLICIES[1])
nodes = [node for node in
ring.get_part_nodes(int(cur_part))
if node['ip'] not in _ips()]
rsync_mods = tuple(['%s::object/sda/objects-1/%s' %
(node['ip'], cur_part) for node in nodes])
for node in nodes:
process_arg_checker.append(
(0, '', ['rsync', whole_path_from, rsync_mods]))
with _mock_process(process_arg_checker):
with mock.patch('swift.obj.replicator.whataremyips',
side_effect=_ips):
replicator.run_once()
self.assertFalse(process_errors)
self.assertFalse(self.logger.get_lines_for_level('error'))
object_replicator.http_connect = was_connector
def test_check_ring(self):
for pol in POLICIES:
obj_ring = self.replicator.load_object_ring(pol)
self.assertTrue(self.replicator.check_ring(obj_ring))
orig_check = self.replicator.next_check
self.replicator.next_check = orig_check - 30
self.assertTrue(self.replicator.check_ring(obj_ring))
self.replicator.next_check = orig_check
orig_ring_time = obj_ring._mtime
obj_ring._mtime = orig_ring_time - 30
self.assertTrue(self.replicator.check_ring(obj_ring))
self.replicator.next_check = orig_check - 30
self.assertFalse(self.replicator.check_ring(obj_ring))
def test_collect_jobs_mkdirs_error(self):
non_local = {}
def blowup_mkdirs(path):
non_local['path'] = path
raise OSError('Ow!')
with mock.patch.object(object_replicator, 'mkdirs', blowup_mkdirs):
rmtree(self.objects, ignore_errors=1)
object_replicator.mkdirs = blowup_mkdirs
self.replicator.collect_jobs()
self.assertEqual(self.logger.get_lines_for_level('error'), [
'ERROR creating %s: ' % non_local['path']])
log_args, log_kwargs = self.logger.log_dict['error'][0]
self.assertEqual(str(log_kwargs['exc_info'][1]), 'Ow!')
def test_collect_jobs(self):
jobs = self.replicator.collect_jobs()
jobs_to_delete = [j for j in jobs if j['delete']]
jobs_by_pol_part = {}
for job in jobs:
jobs_by_pol_part[str(int(job['policy'])) + job['partition']] = job
self.assertEqual(len(jobs_to_delete), 2)
self.assertEqual('1', jobs_to_delete[0]['partition'])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['00']['nodes']], [1, 2])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['01']['nodes']],
[1, 2, 3])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['02']['nodes']], [2, 3])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['03']['nodes']], [3, 1])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['10']['nodes']], [1, 2])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['11']['nodes']],
[1, 2, 3])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['12']['nodes']], [2, 3])
self.assertEqual(
[node['id'] for node in jobs_by_pol_part['13']['nodes']], [3, 1])
for part in ['00', '01', '02', '03']:
for node in jobs_by_pol_part[part]['nodes']:
self.assertEqual(node['device'], 'sda')
self.assertEqual(jobs_by_pol_part[part]['path'],
os.path.join(self.objects, part[1:]))
for part in ['10', '11', '12', '13']:
for node in jobs_by_pol_part[part]['nodes']:
self.assertEqual(node['device'], 'sda')
self.assertEqual(jobs_by_pol_part[part]['path'],
os.path.join(self.objects_1, part[1:]))
def test_collect_jobs_unmounted(self):
with mock_check_drive() as mocks:
jobs = self.replicator.collect_jobs()
self.assertEqual(jobs, [])
self.assertEqual(mocks['ismount'].mock_calls, [])
self.assertEqual(len(mocks['isdir'].mock_calls), 2)
self.replicator.mount_check = True
with mock_check_drive() as mocks:
jobs = self.replicator.collect_jobs()
self.assertEqual(jobs, [])
self.assertEqual(mocks['isdir'].mock_calls, [])
self.assertEqual(len(mocks['ismount'].mock_calls), 2)
def test_collect_jobs_failure_report_with_auditor_stats_json(self):
devs = [
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
{'id': 1, 'device': 'sdb', 'zone': 1,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
{'id': 2, 'device': 'sdc', 'zone': 2,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.1', 'replication_port': 6200},
{'id': 3, 'device': 'sdd', 'zone': 3,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.1', 'replication_port': 6200},
]
objects_sdb, objects_1_sdb, _, _ = \
self._write_disk_data('sdb', with_json=True)
objects_sdc, objects_1_sdc, _, _ = \
self._write_disk_data('sdc', with_json=True)
objects_sdd, objects_1_sdd, _, _ = \
self._write_disk_data('sdd', with_json=True)
_create_test_rings(self.testdir, devs)
self.replicator.collect_jobs(override_partitions=[1])
self.assertEqual(self.replicator.total_stats.failure, 0)
def test_collect_jobs_with_override_parts_and_unexpected_part_dir(self):
self.replicator.collect_jobs(override_partitions=[0, 2])
self.assertEqual(self.replicator.total_stats.failure, 0)
os.mkdir(os.path.join(self.objects_1, 'foo'))
jobs = self.replicator.collect_jobs(override_partitions=[0, 2])
found_jobs = set()
for j in jobs:
found_jobs.add((int(j['policy']), int(j['partition'])))
self.assertEqual(found_jobs, {
(0, 0),
(0, 2),
(1, 0),
(1, 2),
})
num_disks = len(POLICIES[1].object_ring.devs)
# N.B. it's not clear why the UUT increments failure per device
self.assertEqual(self.replicator.total_stats.failure, num_disks)
@mock.patch('swift.obj.replicator.random.shuffle', side_effect=lambda l: l)
def test_collect_jobs_multi_disk(self, mock_shuffle):
devs = [
# Two disks on same IP/port
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
{'id': 1, 'device': 'sdb', 'zone': 1,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
# Two disks on same server, different ports
{'id': 2, 'device': 'sdc', 'zone': 2,
'region': 2, 'ip': '1.1.1.2', 'port': 1112,
'replication_ip': '127.0.0.1', 'replication_port': 6200},
{'id': 3, 'device': 'sdd', 'zone': 4,
'region': 2, 'ip': '1.1.1.2', 'port': 1112,
'replication_ip': '127.0.0.1', 'replication_port': 6201},
]
objects_sdb, objects_1_sdb, _, _ = self._write_disk_data('sdb')
objects_sdc, objects_1_sdc, _, _ = self._write_disk_data('sdc')
objects_sdd, objects_1_sdd, _, _ = self._write_disk_data('sdd')
_create_test_rings(self.testdir, devs)
jobs = self.replicator.collect_jobs()
self.assertEqual([mock.call(jobs)], mock_shuffle.mock_calls)
jobs_to_delete = [j for j in jobs if j['delete']]
self.assertEqual(len(jobs_to_delete), 4)
self.assertEqual([
'1', '2', # policy 0; 1 not on sda, 2 not on sdb
'1', '2', # policy 1; 1 not on sda, 2 not on sdb
], [j['partition'] for j in jobs_to_delete])
jobs_by_pol_part_dev = {}
for job in jobs:
# There should be no jobs with a device not in just sda & sdb
self.assertTrue(job['device'] in ('sda', 'sdb'))
jobs_by_pol_part_dev[
str(int(job['policy'])) + job['partition'] + job['device']
] = job
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['00sda']['nodes']],
[1, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['00sdb']['nodes']],
[0, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['01sda']['nodes']],
[1, 2, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['01sdb']['nodes']],
[2, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['02sda']['nodes']],
[2, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['02sdb']['nodes']],
[2, 3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['03sda']['nodes']],
[3, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['03sdb']['nodes']],
[3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['10sda']['nodes']],
[1, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['10sdb']['nodes']],
[0, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['11sda']['nodes']],
[1, 2, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['11sdb']['nodes']],
[2, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['12sda']['nodes']],
[2, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['12sdb']['nodes']],
[2, 3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['13sda']['nodes']],
[3, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['13sdb']['nodes']],
[3, 0])
for part in ['00', '01', '02', '03']:
self.assertEqual(jobs_by_pol_part_dev[part + 'sda']['path'],
os.path.join(self.objects, part[1:]))
self.assertEqual(jobs_by_pol_part_dev[part + 'sdb']['path'],
os.path.join(objects_sdb, part[1:]))
for part in ['10', '11', '12', '13']:
self.assertEqual(jobs_by_pol_part_dev[part + 'sda']['path'],
os.path.join(self.objects_1, part[1:]))
self.assertEqual(jobs_by_pol_part_dev[part + 'sdb']['path'],
os.path.join(objects_1_sdb, part[1:]))
@mock.patch('swift.obj.replicator.random.shuffle', side_effect=lambda l: l)
def test_collect_jobs_multi_disk_diff_ports_normal(self, mock_shuffle):
# Normally (servers_per_port=0), replication_ip AND replication_port
# are used to determine local ring device entries. Here we show that
# with bind_ip='127.0.0.1', bind_port=6200, only "sdc" is local.
devs = [
# Two disks on same IP/port
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
{'id': 1, 'device': 'sdb', 'zone': 1,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
# Two disks on same server, different ports
{'id': 2, 'device': 'sdc', 'zone': 2,
'region': 2, 'ip': '1.1.1.2', 'port': 1112,
'replication_ip': '127.0.0.1', 'replication_port': 6200},
{'id': 3, 'device': 'sdd', 'zone': 4,
'region': 2, 'ip': '1.1.1.2', 'port': 1112,
'replication_ip': '127.0.0.1', 'replication_port': 6201},
]
objects_sdb, objects_1_sdb, _, _ = self._write_disk_data('sdb')
objects_sdc, objects_1_sdc, _, _ = self._write_disk_data('sdc')
objects_sdd, objects_1_sdd, _, _ = self._write_disk_data('sdd')
_create_test_rings(self.testdir, devs)
self.conf['bind_ip'] = '127.0.0.1'
self._create_replicator()
jobs = self.replicator.collect_jobs()
self.assertEqual([mock.call(jobs)], mock_shuffle.mock_calls)
jobs_to_delete = [j for j in jobs if j['delete']]
self.assertEqual(len(jobs_to_delete), 2)
self.assertEqual([
'3', # policy 0; 3 not on sdc
'3', # policy 1; 3 not on sdc
], [j['partition'] for j in jobs_to_delete])
jobs_by_pol_part_dev = {}
for job in jobs:
# There should be no jobs with a device not sdc
self.assertEqual(job['device'], 'sdc')
jobs_by_pol_part_dev[
str(int(job['policy'])) + job['partition'] + job['device']
] = job
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['00sdc']['nodes']],
[0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['01sdc']['nodes']],
[1, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['02sdc']['nodes']],
[3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['03sdc']['nodes']],
[3, 0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['10sdc']['nodes']],
[0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['11sdc']['nodes']],
[1, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['12sdc']['nodes']],
[3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['13sdc']['nodes']],
[3, 0, 1])
for part in ['00', '01', '02', '03']:
self.assertEqual(jobs_by_pol_part_dev[part + 'sdc']['path'],
os.path.join(objects_sdc, part[1:]))
for part in ['10', '11', '12', '13']:
self.assertEqual(jobs_by_pol_part_dev[part + 'sdc']['path'],
os.path.join(objects_1_sdc, part[1:]))
@mock.patch('swift.obj.replicator.random.shuffle', side_effect=lambda l: l)
def test_collect_jobs_multi_disk_servers_per_port(self, mock_shuffle):
# Normally (servers_per_port=0), replication_ip AND replication_port
# are used to determine local ring device entries. Here we show that
# with servers_per_port > 0 and bind_ip='127.0.0.1', bind_port=6200,
# then both "sdc" and "sdd" are local.
devs = [
# Two disks on same IP/port
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
{'id': 1, 'device': 'sdb', 'zone': 1,
'region': 1, 'ip': '1.1.1.1', 'port': 1111,
'replication_ip': '127.0.0.0', 'replication_port': 6200},
# Two disks on same server, different ports
{'id': 2, 'device': 'sdc', 'zone': 2,
'region': 2, 'ip': '1.1.1.2', 'port': 1112,
'replication_ip': '127.0.0.1', 'replication_port': 6200},
{'id': 3, 'device': 'sdd', 'zone': 4,
'region': 2, 'ip': '1.1.1.2', 'port': 1112,
'replication_ip': '127.0.0.1', 'replication_port': 6201},
]
objects_sdb, objects_1_sdb, _, _ = self._write_disk_data('sdb')
objects_sdc, objects_1_sdc, _, _ = self._write_disk_data('sdc')
objects_sdd, objects_1_sdd, _, _ = self._write_disk_data('sdd')
_create_test_rings(self.testdir, devs)
self.conf['bind_ip'] = '127.0.0.1'
self.conf['servers_per_port'] = 1 # diff port ok
self._create_replicator()
jobs = self.replicator.collect_jobs()
self.assertEqual([mock.call(jobs)], mock_shuffle.mock_calls)
jobs_to_delete = [j for j in jobs if j['delete']]
self.assertEqual(len(jobs_to_delete), 4)
self.assertEqual([
'3', '0', # policy 0; 3 not on sdc, 0 not on sdd
'3', '0', # policy 1; 3 not on sdc, 0 not on sdd
], [j['partition'] for j in jobs_to_delete])
jobs_by_pol_part_dev = {}
for job in jobs:
# There should be no jobs with a device not in just sdc & sdd
self.assertTrue(job['device'] in ('sdc', 'sdd'))
jobs_by_pol_part_dev[
str(int(job['policy'])) + job['partition'] + job['device']
] = job
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['00sdc']['nodes']],
[0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['00sdd']['nodes']],
[0, 1, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['01sdc']['nodes']],
[1, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['01sdd']['nodes']],
[1, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['02sdc']['nodes']],
[3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['02sdd']['nodes']],
[2, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['03sdc']['nodes']],
[3, 0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['03sdd']['nodes']],
[0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['10sdc']['nodes']],
[0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['10sdd']['nodes']],
[0, 1, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['11sdc']['nodes']],
[1, 3])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['11sdd']['nodes']],
[1, 2])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['12sdc']['nodes']],
[3, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['12sdd']['nodes']],
[2, 0])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['13sdc']['nodes']],
[3, 0, 1])
self.assertEqual([node['id']
for node in jobs_by_pol_part_dev['13sdd']['nodes']],
[0, 1])
for part in ['00', '01', '02', '03']:
self.assertEqual(jobs_by_pol_part_dev[part + 'sdc']['path'],
os.path.join(objects_sdc, part[1:]))
self.assertEqual(jobs_by_pol_part_dev[part + 'sdd']['path'],
os.path.join(objects_sdd, part[1:]))
for part in ['10', '11', '12', '13']:
self.assertEqual(jobs_by_pol_part_dev[part + 'sdc']['path'],
os.path.join(objects_1_sdc, part[1:]))
self.assertEqual(jobs_by_pol_part_dev[part + 'sdd']['path'],
os.path.join(objects_1_sdd, part[1:]))
def test_collect_jobs_handoffs_first(self):
self.replicator.handoffs_first = True
jobs = self.replicator.collect_jobs()
self.assertTrue(jobs[0]['delete'])
self.assertEqual('1', jobs[0]['partition'])
def test_handoffs_first_mode_will_process_all_jobs_after_handoffs(self):
# make an object in the handoff & primary partition
expected_suffix_paths = []
for policy in POLICIES:
# primary
ts = next(self.ts)
df = self.df_mgr.get_diskfile('sda', '0', 'a', 'c', 'o', policy)
with df.create() as w:
w.write(b'asdf')
w.put({'X-Timestamp': ts.internal})
w.commit(ts)
expected_suffix_paths.append(os.path.dirname(df._datadir))
# handoff
ts = next(self.ts)
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o', policy)
with df.create() as w:
w.write(b'asdf')
w.put({'X-Timestamp': ts.internal})
w.commit(ts)
expected_suffix_paths.append(os.path.dirname(df._datadir))
# rsync will be called for all parts we created objects in
process_arg_checker = [
# (return_code, stdout, <each in capture rsync args>)
(0, '', []),
(0, '', []),
(0, '', []), # handoff job "first" policy
(0, '', []),
(0, '', []),
(0, '', []), # handoff job "second" policy
(0, '', []),
(0, '', []), # update job "first" policy
(0, '', []),
(0, '', []), # update job "second" policy
]
# each handoff partition node gets one replicate request for after
# rsync (2 * 3), each primary partition with objects gets two
# replicate requests (pre-flight and post sync) to each of each
# partners (2 * 2 * 2), the 2 remaining empty parts (2 & 3) get a
# pre-flight replicate request per node for each storage policy
# (2 * 2 * 2) - so 6 + 8 + 8 == 22
replicate_responses = [200] * 22
stub_body = pickle.dumps({})
with _mock_process(process_arg_checker) as rsync_log, \
mock.patch('swift.obj.replicator.whataremyips',
side_effect=_ips), \
mocked_http_conn(*replicate_responses,
body=stub_body) as conn_log:
self.replicator.handoffs_first = True
self.replicator.replicate()
# all jobs processed!
self.assertEqual(self.replicator.job_count,
self.replicator.total_stats.attempted)
self.assertFalse(self.replicator.handoffs_remaining)
# sanity, all the handoffs suffixes we filled in were rsync'd
found_rsync_suffix_paths = set()
for subprocess_info in rsync_log:
local_path, remote_path = subprocess_info['rsync_args'][-2:]
found_rsync_suffix_paths.add(local_path)
self.assertEqual(set(expected_suffix_paths), found_rsync_suffix_paths)
# sanity, all nodes got replicated
found_replicate_calls = defaultdict(int)
for req in conn_log.requests:
self.assertEqual(req['method'], 'REPLICATE')
found_replicate_key = (
int(req['headers']['X-Backend-Storage-Policy-Index']),
req['path'])
found_replicate_calls[found_replicate_key] += 1
expected_replicate_calls = {
(0, '/sda/1/a83'): 3,
(1, '/sda/1/a83'): 3,
(0, '/sda/0'): 2,
(0, '/sda/0/a83'): 2,
(1, '/sda/0'): 2,
(1, '/sda/0/a83'): 2,
(0, '/sda/2'): 2,
(1, '/sda/2'): 2,
(0, '/sda/3'): 2,
(1, '/sda/3'): 2,
}
self.assertEqual(dict(found_replicate_calls),
expected_replicate_calls)
def test_handoffs_first_mode_will_abort_if_handoffs_remaining(self):
# make an object in the handoff partition
handoff_suffix_paths = []
for policy in POLICIES:
ts = next(self.ts)
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o', policy)
with df.create() as w:
w.write(b'asdf')
w.put({'X-Timestamp': ts.internal})
w.commit(ts)
handoff_suffix_paths.append(os.path.dirname(df._datadir))
process_arg_checker = [
# (return_code, stdout, <each in capture rsync args>)
(0, '', []),
(1, '', []),
(0, '', []),
(0, '', []),
(0, '', []),
(0, '', []),
]
stub_body = pickle.dumps({})
with _mock_process(process_arg_checker) as rsync_log, \
mock.patch('swift.obj.replicator.whataremyips',
side_effect=_ips), \
mocked_http_conn(*[200] * 5, body=stub_body) as conn_log:
self.replicator.handoffs_first = True
self.replicator.replicate()
# stopped after handoffs!
self.assertEqual(1, self.replicator.handoffs_remaining)
self.assertEqual(8, self.replicator.job_count)
# in addition to the two update_deleted jobs as many as "concurrency"
# jobs may have been spawned into the pool before the failed
# update_deleted job incremented handoffs_remaining and caused the
# handoffs_first check to abort the current pass
self.assertLessEqual(self.replicator.total_stats.attempted,
2 + self.replicator.concurrency)
# sanity, all the handoffs suffixes we filled in were rsync'd
found_rsync_suffix_paths = set()
expected_replicate_requests = set()
for subprocess_info in rsync_log:
local_path, remote_path = subprocess_info['rsync_args'][-2:]
found_rsync_suffix_paths.add(local_path)
if subprocess_info['ret_code'] == 0:
node_ip = remote_path.split(':', 1)[0]
expected_replicate_requests.add(node_ip)
self.assertEqual(set(handoff_suffix_paths), found_rsync_suffix_paths)
# sanity, all successful rsync nodes got REPLICATE requests
found_replicate_requests = set()
self.assertEqual(5, len(conn_log.requests))
for req in conn_log.requests:
self.assertEqual(req['method'], 'REPLICATE')
found_replicate_requests.add(req['ip'])
self.assertEqual(expected_replicate_requests,
found_replicate_requests)
# and at least one partition got removed!
remaining_policies = []
for path in handoff_suffix_paths:
if os.path.exists(path):
policy = diskfile.extract_policy(path)
remaining_policies.append(policy)
self.assertEqual(len(remaining_policies), 1)
remaining_policy = remaining_policies[0]
# try again but with handoff_delete allowing for a single failure
with _mock_process(process_arg_checker) as rsync_log, \
mock.patch('swift.obj.replicator.whataremyips',
side_effect=_ips), \
mocked_http_conn(*[200] * 14, body=stub_body) as conn_log:
self.replicator.handoff_delete = 2
self.replicator._zero_stats()
self.replicator.replicate()
# all jobs processed!
self.assertEqual(self.replicator.job_count,
self.replicator.total_stats.attempted)
self.assertFalse(self.replicator.handoffs_remaining)
# sanity, all parts got replicated
found_replicate_calls = defaultdict(int)
for req in conn_log.requests:
self.assertEqual(req['method'], 'REPLICATE')
found_replicate_key = (
int(req['headers']['X-Backend-Storage-Policy-Index']),
req['path'])
found_replicate_calls[found_replicate_key] += 1
expected_replicate_calls = {
(int(remaining_policy), '/sda/1/a83'): 2,
(0, '/sda/0'): 2,
(1, '/sda/0'): 2,
(0, '/sda/2'): 2,
(1, '/sda/2'): 2,
(0, '/sda/3'): 2,
(1, '/sda/3'): 2,
}
self.assertEqual(dict(found_replicate_calls),
expected_replicate_calls)
# and now all handoff partitions have been rebalanced away!
removed_paths = set()
for path in handoff_suffix_paths:
if not os.path.exists(path):
removed_paths.add(path)
self.assertEqual(removed_paths, set(handoff_suffix_paths))
def test_replicator_skips_bogus_partition_dirs(self):
# A directory in the wrong place shouldn't crash the replicator
rmtree(self.objects)
rmtree(self.objects_1)
os.mkdir(self.objects)
os.mkdir(self.objects_1)
os.mkdir(os.path.join(self.objects, "burrito"))
jobs = self.replicator.collect_jobs()
self.assertEqual(len(jobs), 0)
def test_replicator_skips_rsync_temp_files(self):
# the empty pre-setup dirs aren't that useful to us
device_path = os.path.join(self.devices, 'sda')
rmtree(device_path, ignore_errors=1)
os.mkdir(device_path)
# create a real data file to trigger rsync
df = self.df_mgr.get_diskfile('sda', '0', 'a', 'c', 'o',
policy=POLICIES.legacy)
ts = next(self.ts)
with df.create() as w:
w.write(b'asdf')
w.put({'X-Timestamp': ts.internal})
w.commit(ts)
# pre-flight and post sync request for both other primaries
expected_replicate_requests = 4
process_arg_checker = [
# (return_code, stdout, <each in capture rsync args>)
(0, '', []),
(0, '', []),
]
stub_body = pickle.dumps({})
with _mock_process(process_arg_checker) as rsync_log, \
mock.patch('swift.obj.replicator.whataremyips',
side_effect=_ips), \
mocked_http_conn(*[200] * expected_replicate_requests,
body=stub_body) as conn_log:
self.replicator.replicate()
self.assertEqual(['REPLICATE'] * expected_replicate_requests,
[r['method'] for r in conn_log.requests])
# expect one rsync to each other primary node
self.assertEqual(2, len(rsync_log))
expected = '--exclude=.*.[0-9a-zA-Z][0-9a-zA-Z][0-9a-zA-Z]' \
'[0-9a-zA-Z][0-9a-zA-Z][0-9a-zA-Z]'
for subprocess_info in rsync_log:
rsync_args = subprocess_info['rsync_args']
for arg in rsync_args:
if arg.startswith('--exclude'):
self.assertEqual(arg, expected)
break
else:
self.fail('Did not find --exclude argument in %r' %
rsync_args)
def test_replicator_removes_zbf(self):
# After running xfs_repair, a partition directory could become a
# zero-byte file. If this happens, the replicator should clean it
# up, log something, and move on to the next partition.
# Surprise! Partition dir 1 is actually a zero-byte file.
pol_0_part_1_path = os.path.join(self.objects, '1')
rmtree(pol_0_part_1_path)
with open(pol_0_part_1_path, 'w'):
pass
self.assertTrue(os.path.isfile(pol_0_part_1_path)) # sanity check
# Policy 1's partition dir 1 is also a zero-byte file.
pol_1_part_1_path = os.path.join(self.objects_1, '1')
rmtree(pol_1_part_1_path)
with open(pol_1_part_1_path, 'w'):
pass
self.assertTrue(os.path.isfile(pol_1_part_1_path)) # sanity check
# Don't delete things in collect_jobs(); all the stat() calls would
# make replicator startup really slow.
self.replicator.collect_jobs()
self.assertTrue(os.path.exists(pol_0_part_1_path))
self.assertTrue(os.path.exists(pol_1_part_1_path))
# After a replication pass, the files should be gone
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
self.replicator.run_once()
self.assertFalse(os.path.exists(pol_0_part_1_path))
self.assertFalse(os.path.exists(pol_1_part_1_path))
self.assertEqual(
sorted(self.logger.get_lines_for_level('warning')), [
('Removing partition directory which was a file: %s'
% pol_1_part_1_path),
('Removing partition directory which was a file: %s'
% pol_0_part_1_path),
])
def test_delete_partition(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, '1', data_dir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for node in nodes:
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'], 1)
process_arg_checker.append(
(0, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
self.assertFalse(os.access(part_path, os.F_OK))
def test_delete_partition_default_sync_method(self):
self.replicator.conf.pop('sync_method')
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, '1', data_dir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for node in nodes:
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'], 1)
process_arg_checker.append(
(0, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
self.assertFalse(os.access(part_path, os.F_OK))
def test_delete_partition_ssync_single_region(self):
devs = [
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '127.0.0.0', 'port': 6200},
{'id': 1, 'device': 'sda', 'zone': 1,
'region': 1, 'ip': '127.0.0.1', 'port': 6200},
{'id': 2, 'device': 'sda', 'zone': 2,
'region': 1, 'ip': '127.0.0.2', 'port': 6200},
{'id': 3, 'device': 'sda', 'zone': 4,
'region': 1, 'ip': '127.0.0.3', 'port': 6200},
{'id': 4, 'device': 'sda', 'zone': 5,
'region': 1, 'ip': '127.0.0.4', 'port': 6200},
{'id': 5, 'device': 'sda', 'zone': 6,
'region': 1, 'ip': 'fe80::202:b3ff:fe1e:8329', 'port': 6200},
{'id': 6, 'device': 'sda', 'zone': 7, 'region': 1,
'ip': '2001:0db8:85a3:0000:0000:8a2e:0370:7334', 'port': 6200},
]
_create_test_rings(self.testdir, devs=devs)
self.conf['sync_method'] = 'ssync'
self.replicator = object_replicator.ObjectReplicator(self.conf)
self.replicator.logger = debug_logger()
self.replicator._zero_stats()
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
ts = normalize_timestamp(time.time())
f = open(os.path.join(df._datadir, ts + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
whole_path_from = storage_directory(self.objects, 1, ohash)
suffix_dir_path = os.path.dirname(whole_path_from)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
def _fake_ssync(node, job, suffixes, **kwargs):
return True, {ohash: ts}
self.replicator.sync_method = _fake_ssync
self.replicator.replicate()
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertFalse(os.access(suffix_dir_path, os.F_OK))
self.assertFalse(os.access(part_path, os.F_OK))
def test_delete_partition_1(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES[1])
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects_1, '1', data_dir)
part_path = os.path.join(self.objects_1, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[1])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for node in nodes:
rsync_mod = '%s::object/sda/objects-1/%s' % (node['ip'], 1)
process_arg_checker.append(
(0, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
self.assertFalse(os.access(part_path, os.F_OK))
def test_delete_partition_with_failures(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, '1', data_dir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for i, node in enumerate(nodes):
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'], 1)
if i == 0:
# force one of the rsync calls to fail
ret_code = 1
else:
ret_code = 0
process_arg_checker.append(
(ret_code, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
# The path should still exist
self.assertTrue(os.access(part_path, os.F_OK))
def test_delete_partition_with_handoff_delete(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
self.replicator.handoff_delete = 2
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, '1', data_dir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for i, node in enumerate(nodes):
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'], 1)
if i == 0:
# force one of the rsync calls to fail
ret_code = 1
else:
ret_code = 0
process_arg_checker.append(
(ret_code, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
self.assertFalse(os.access(part_path, os.F_OK))
def test_delete_partition_with_handoff_delete_failures(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
self.replicator.handoff_delete = 2
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, '1', data_dir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for i, node in enumerate(nodes):
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'], 1)
if i in (0, 1):
# force two of the rsync calls to fail
ret_code = 1
else:
ret_code = 0
process_arg_checker.append(
(ret_code, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(part_path, os.F_OK))
def test_delete_partition_with_handoff_delete_fail_in_other_region(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, '1', data_dir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
ring = self.replicator.load_object_ring(POLICIES[0])
nodes = [node for node in
ring.get_part_nodes(1)
if node['ip'] not in _ips()]
process_arg_checker = []
for node in nodes:
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'], 1)
if node['region'] != 1:
# the rsync calls for other region to fail
ret_code = 1
else:
ret_code = 0
process_arg_checker.append(
(ret_code, '', ['rsync', whole_path_from, rsync_mod]))
with _mock_process(process_arg_checker):
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(part_path, os.F_OK))
def test_delete_partition_override_params(self):
df = self.df_mgr.get_diskfile('sda', '0', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate(override_devices=['sdb'])
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate(override_partitions=[9])
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate(override_devices=['sda'],
override_partitions=[1])
self.assertFalse(os.access(part_path, os.F_OK))
def test_delete_policy_override_params(self):
df0 = self.df_mgr.get_diskfile('sda', '99', 'a', 'c', 'o',
policy=POLICIES.legacy)
df1 = self.df_mgr.get_diskfile('sda', '99', 'a', 'c', 'o',
policy=POLICIES[1])
mkdirs(df0._datadir)
mkdirs(df1._datadir)
pol0_part_path = os.path.join(self.objects, '99')
pol1_part_path = os.path.join(self.objects_1, '99')
# sanity checks
self.assertTrue(os.access(pol0_part_path, os.F_OK))
self.assertTrue(os.access(pol1_part_path, os.F_OK))
# a bogus policy index doesn't bother the replicator any more than a
# bogus device or partition does
self.replicator.run_once(policies='1,2,5')
self.assertFalse(os.access(pol1_part_path, os.F_OK))
self.assertTrue(os.access(pol0_part_path, os.F_OK))
# since we weren't operating on everything, but only a subset of
# storage policies, we didn't dump any recon stats.
self.assertFalse(os.path.exists(
os.path.join(self.recon_cache, 'object.recon')))
def test_delete_partition_ssync(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
ts = normalize_timestamp(time.time())
f = open(os.path.join(df._datadir, ts + '.data'),
'wb')
f.write(b'0')
f.close()
ohash = hash_path('a', 'c', 'o')
whole_path_from = storage_directory(self.objects, 1, ohash)
suffix_dir_path = os.path.dirname(whole_path_from)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
self.call_nums = 0
self.conf['sync_method'] = 'ssync'
def _fake_ssync(node, job, suffixes, **kwargs):
success = True
ret_val = {ohash: ts}
if self.call_nums == 2:
# ssync should return (True, []) only when the second
# candidate node has not get the replica yet.
success = False
ret_val = {}
self.call_nums += 1
return success, ret_val
self.replicator.sync_method = _fake_ssync
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate()
# The file should be deleted at the second replicate call
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertFalse(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate()
# The partition should be deleted at the third replicate call
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertFalse(os.access(suffix_dir_path, os.F_OK))
self.assertFalse(os.access(part_path, os.F_OK))
del self.call_nums
def test_delete_partition_ssync_with_sync_failure(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
ts = normalize_timestamp(time.time())
mkdirs(df._datadir)
f = open(os.path.join(df._datadir, ts + '.data'), 'wb')
f.write(b'0')
f.close()
ohash = hash_path('a', 'c', 'o')
whole_path_from = storage_directory(self.objects, 1, ohash)
suffix_dir_path = os.path.dirname(whole_path_from)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
self.call_nums = 0
self.conf['sync_method'] = 'ssync'
def _fake_ssync(node, job, suffixes, **kwags):
success = False
ret_val = {}
if self.call_nums == 2:
# ssync should return (True, []) only when the second
# candidate node has not get the replica yet.
success = True
ret_val = {ohash: ts}
self.call_nums += 1
return success, ret_val
self.replicator.sync_method = _fake_ssync
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
del self.call_nums
def test_delete_objs_ssync_only_when_in_sync(self):
self.replicator.logger = debug_logger('test-replicator')
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
ts = normalize_timestamp(time.time())
f = open(os.path.join(df._datadir, ts + '.data'), 'wb')
f.write(b'0')
f.close()
ohash = hash_path('a', 'c', 'o')
whole_path_from = storage_directory(self.objects, 1, ohash)
suffix_dir_path = os.path.dirname(whole_path_from)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
self.call_nums = 0
self.conf['sync_method'] = 'ssync'
in_sync_objs = {}
def _fake_ssync(node, job, suffixes, remote_check_objs=None):
self.call_nums += 1
if remote_check_objs is None:
# sync job
ret_val = {ohash: ts}
else:
ret_val = in_sync_objs
return True, ret_val
self.replicator.sync_method = _fake_ssync
self.replicator.replicate()
self.assertEqual(3, self.call_nums)
# The file should still exist
self.assertTrue(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
del self.call_nums
def test_delete_partition_ssync_with_cleanup_failure(self):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
self.replicator.logger = mock_logger = \
debug_logger('test-replicator')
df = self.df_mgr.get_diskfile('sda', '1', 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
ts = normalize_timestamp(time.time())
f = open(os.path.join(df._datadir, ts + '.data'), 'wb')
f.write(b'0')
f.close()
ohash = hash_path('a', 'c', 'o')
whole_path_from = storage_directory(self.objects, 1, ohash)
suffix_dir_path = os.path.dirname(whole_path_from)
part_path = os.path.join(self.objects, '1')
self.assertTrue(os.access(part_path, os.F_OK))
self.call_nums = 0
self.conf['sync_method'] = 'ssync'
def _fake_ssync(node, job, suffixes, **kwargs):
success = True
ret_val = {ohash: ts}
if self.call_nums == 2:
# ssync should return (True, []) only when the second
# candidate node has not get the replica yet.
success = False
ret_val = {}
self.call_nums += 1
return success, ret_val
rmdir_func = os.rmdir
def raise_exception_rmdir(exception_class, error_no):
instance = exception_class()
instance.errno = error_no
instance.strerror = os.strerror(error_no)
def func(directory):
if directory == suffix_dir_path:
raise instance
else:
rmdir_func(directory)
return func
self.replicator.sync_method = _fake_ssync
self.replicator.replicate()
# The file should still exist
self.assertTrue(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
# Fail with ENOENT
with mock.patch('os.rmdir',
raise_exception_rmdir(OSError, ENOENT)):
self.replicator.replicate()
self.assertFalse(mock_logger.get_lines_for_level('error'))
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
# Fail with ENOTEMPTY
with mock.patch('os.rmdir',
raise_exception_rmdir(OSError, ENOTEMPTY)):
self.replicator.replicate()
self.assertFalse(mock_logger.get_lines_for_level('error'))
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
# Fail with ENOTDIR
with mock.patch('os.rmdir',
raise_exception_rmdir(OSError, ENOTDIR)):
self.replicator.replicate()
self.assertEqual(mock_logger.get_lines_for_level('error'), [
'Unexpected error trying to cleanup suffix dir:%r: ' %
os.path.dirname(df._datadir),
])
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertTrue(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
# Finally we can cleanup everything
self.replicator.replicate()
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertFalse(os.access(suffix_dir_path, os.F_OK))
self.assertTrue(os.access(part_path, os.F_OK))
self.replicator.replicate()
self.assertFalse(os.access(whole_path_from, os.F_OK))
self.assertFalse(os.access(suffix_dir_path, os.F_OK))
self.assertFalse(os.access(part_path, os.F_OK))
def test_run_once_recover_from_failure(self):
conf = dict(swift_dir=self.testdir, devices=self.devices,
bind_ip=_ips()[0],
mount_check='false', timeout='300', stats_interval='1')
replicator = object_replicator.ObjectReplicator(conf)
was_connector = object_replicator.http_connect
try:
object_replicator.http_connect = mock_http_connect(200)
# Write some files into '1' and run replicate- they should be moved
# to the other partitions and then node should get deleted.
cur_part = '1'
df = self.df_mgr.get_diskfile('sda', cur_part, 'a', 'c', 'o',
policy=POLICIES.legacy)
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
ohash = hash_path('a', 'c', 'o')
data_dir = ohash[-3:]
whole_path_from = os.path.join(self.objects, cur_part, data_dir)
ring = replicator.load_object_ring(POLICIES[0])
process_arg_checker = []
nodes = [node for node in
ring.get_part_nodes(int(cur_part))
if node['ip'] not in _ips()]
for node in nodes:
rsync_mod = '%s::object/sda/objects/%s' % (node['ip'],
cur_part)
process_arg_checker.append(
(0, '', ['rsync', whole_path_from, rsync_mod]))
self.assertTrue(os.access(os.path.join(self.objects,
'1', data_dir, ohash),
os.F_OK))
with _mock_process(process_arg_checker):
replicator.run_once()
self.assertFalse(process_errors)
for i, result in [('0', True), ('1', False),
('2', True), ('3', True)]:
self.assertEqual(os.access(
os.path.join(self.objects,
i, diskfile.HASH_FILE),
os.F_OK), result)
finally:
object_replicator.http_connect = was_connector
def test_run_once_recover_from_timeout(self):
# verify that replicator will pass over all policies' partitions even
# if a timeout occurs while replicating one partition to one node.
timeouts = [Timeout()]
def fake_get_hashes(df_mgr, device, partition, policy, **kwargs):
self.get_hash_count += 1
dev_path = df_mgr.get_dev_path(device)
part_path = os.path.join(dev_path, diskfile.get_data_dir(policy),
str(partition))
# Simulate a REPLICATE timeout by raising Timeout for second call
# to get_hashes (with recalculate suffixes) for a specific
# partition
if (timeouts and '/objects/' in part_path and
part_path.endswith('0') and 'recalculate' in kwargs):
raise timeouts.pop(0)
return 1, {'abc': 'def'}
# map partition_path -> [nodes]
sync_paths = collections.defaultdict(list)
def fake_sync(node, job, suffixes, *args, **kwargs):
sync_paths[job['path']].append(node)
return True, {}
conf = dict(swift_dir=self.testdir, devices=self.devices,
bind_ip=_ips()[0], # local dev has id=0
mount_check='false', timeout='300', stats_interval='1')
with mock.patch('swift.obj.diskfile.DiskFileManager._get_hashes',
fake_get_hashes):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
with mock.patch('swift.obj.replicator.dump_recon_cache'):
replicator = object_replicator.ObjectReplicator(
conf, logger=self.logger)
self.get_hash_count = 0
with mock.patch.object(replicator, 'sync', fake_sync):
replicator.run_once()
log_lines = replicator.logger.logger.get_lines_for_level('error')
self.assertIn("Error syncing with node:", log_lines[0])
self.assertFalse(log_lines[1:])
# setup creates 4 partitions; partition 1 does not map to local dev id
# 0 so will be handled by update_delete(); partitions 0, 2, 3 are
# handled by update() for each of two policies, so expect 6 paths to be
# sync'd
self.assertEqual(6, len(sync_paths))
# partition 3 has 2 nodes in remote region, only first node is sync'd.
# partition 0 in policy 0 has fake_get_hashes timeout before first
# sync, so only second node is sync'd.
# other partitions are sync'd to 2 nodes in same region.
expected_node_count = { # map path_end -> expected sync node count
'/objects/0': 1,
'/objects/1': 2,
'/objects/2': 2,
'/objects/3': 1,
'/objects-1/0': 2,
'/objects-1/1': 2,
'/objects-1/2': 2,
'/objects-1/3': 1
}
for path, nodes in sync_paths.items():
path_end = path[path.index('/objects'):]
self.assertEqual(expected_node_count[path_end], len(nodes),
'Expected %s but got %s for path %s' %
(expected_node_count[path_end], len(nodes), path))
# partitions 0 and 2 attempt 3 calls each per policy to get_hashes = 12
# partitions 3 attempts 2 calls per policy to get_hashes = 4
# partitions 1 dosn't get_hashes because of update_deleted
self.assertEqual(16, self.get_hash_count)
# attempt to 16 times but succeeded only 15 times due to Timeout
suffix_hashes = sum(
count for (metric, count), _junk in
replicator.logger.logger.log_dict['update_stats']
if metric == 'suffix.hashes')
self.assertEqual(15, suffix_hashes)
def test_run(self):
with _mock_process([(0, '')] * 100):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
self.replicator.replicate()
def test_run_withlog(self):
with _mock_process([(0, "stuff in log")] * 100):
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)):
self.replicator.replicate()
def test_sync_just_calls_sync_method(self):
self.replicator.sync_method = mock.MagicMock()
self.replicator.sync('node', 'job', 'suffixes')
self.replicator.sync_method.assert_called_once_with(
'node', 'job', 'suffixes')
@mock.patch('swift.obj.replicator.tpool.execute')
@mock.patch('swift.obj.replicator.http_connect', autospec=True)
@mock.patch('swift.obj.replicator._do_listdir')
def test_update(self, mock_do_listdir, mock_http, mock_tpool_execute):
def set_default(self):
self.replicator.suffix_count = 0
self.replicator.suffix_sync = 0
self.replicator.suffix_hash = 0
self.replicator.last_replication_count = 0
self.replicator._zero_stats()
self.replicator.partition_times = []
self.headers = {'Content-Length': '0',
'user-agent': 'object-replicator %s' % os.getpid()}
mock_tpool_execute.return_value = (0, {})
all_jobs = self.replicator.collect_jobs()
jobs = [job for job in all_jobs if not job['delete']]
mock_http.return_value = answer = mock.MagicMock()
answer.getresponse.return_value = resp = mock.MagicMock()
# Check incorrect http_connect with status 507 and
# count of attempts and call args
resp.status = 507
error = '%(replication_ip)s/%(device)s responded as unmounted'
expected_listdir_calls = [
mock.call(int(job['partition']),
self.replicator.replication_cycle)
for job in jobs]
do_listdir_results = [False, False, True, False, True, False]
mock_do_listdir.side_effect = do_listdir_results
expected_tpool_calls = [
mock.call(self.replicator._df_router[job['policy']]._get_hashes,
job['device'], job['partition'], job['policy'],
do_listdir=do_listdir)
for job, do_listdir in zip(jobs, do_listdir_results)
]
for job in jobs:
set_default(self)
ring = job['policy'].object_ring
self.headers['X-Backend-Storage-Policy-Index'] = int(job['policy'])
self.replicator.update(job)
error_lines = self.logger.get_lines_for_level('error')
expected = []
# ... first the primaries
for node in job['nodes']:
expected.append(error % node)
# ... then it will get handoffs
for node in job['policy'].object_ring.get_more_nodes(
int(job['partition'])):
expected.append(error % node)
# ... and finally we get an error about running out of nodes
expected.append('Ran out of handoffs while replicating '
'partition %s of policy %d' %
(job['partition'], job['policy']))
self.assertEqual(expected, error_lines)
self.assertEqual(len(self.replicator.partition_times), 1)
self.assertEqual(mock_http.call_count, len(ring._devs) - 1)
reqs = []
for node in job['nodes']:
reqs.append(mock.call(node['ip'], node['port'], node['device'],
job['partition'], 'REPLICATE', '',
headers=self.headers))
if job['partition'] == '0':
self.assertEqual(self.replicator.suffix_hash, 0)
mock_http.assert_has_calls(reqs, any_order=True)
mock_http.reset_mock()
self.logger.clear()
mock_do_listdir.assert_has_calls(expected_listdir_calls)
mock_tpool_execute.assert_has_calls(expected_tpool_calls)
mock_do_listdir.side_effect = None
mock_do_listdir.return_value = False
# Check incorrect http_connect with status 400 != HTTP_OK
resp.status = 400
error = 'Invalid response %(resp)s from %(ip)s'
for job in jobs:
set_default(self)
self.replicator.update(job)
# ... only the primaries
expected = [error % {'resp': 400, 'ip': node['replication_ip']}
for node in job['nodes']]
self.assertEqual(expected,
self.logger.get_lines_for_level('error'))
self.assertEqual(len(self.replicator.partition_times), 1)
self.logger.clear()
# Check successful http_connection and exception with
# incorrect pickle.loads(resp.read())
resp.status = 200
resp.read.return_value = b'garbage'
expect = 'Error syncing with node: %r: '
for job in jobs:
set_default(self)
self.replicator.update(job)
# ... only the primaries
expected = [expect % node for node in job['nodes']]
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(expected, error_lines)
self.assertEqual(len(self.replicator.partition_times), 1)
self.logger.clear()
# Check successful http_connection and correct
# pickle.loads(resp.read()) for non local node
resp.status = 200
local_job = None
resp.read.return_value = pickle.dumps({})
for job in jobs:
set_default(self)
# limit local job to policy 0 for simplicity
if job['partition'] == '0' and int(job['policy']) == 0:
local_job = job.copy()
continue
self.replicator.update(job)
self.assertEqual([], self.logger.get_lines_for_level('error'))
self.assertEqual(len(self.replicator.partition_times), 1)
self.assertEqual(self.replicator.suffix_hash, 0)
self.assertEqual(self.replicator.suffix_sync, 0)
self.assertEqual(self.replicator.suffix_count, 0)
self.logger.clear()
# Check successful http_connect and sync for local node
mock_tpool_execute.return_value = (1, {'a83': 'ba47fd314242ec8c'
'7efb91f5d57336e4'})
resp.read.return_value = pickle.dumps({'a83': 'c130a2c17ed45102a'
'ada0f4eee69494ff'})
set_default(self)
self.replicator.sync = fake_func = \
mock.MagicMock(return_value=(True, []))
self.replicator.update(local_job)
reqs = []
for node in local_job['nodes']:
reqs.append(mock.call(node, local_job, ['a83']))
fake_func.assert_has_calls(reqs, any_order=True)
self.assertEqual(fake_func.call_count, 2)
stats = self.replicator.total_stats
self.assertEqual(stats.attempted, 1)
self.assertEqual(stats.suffix_sync, 2)
self.assertEqual(stats.suffix_hash, 1)
self.assertEqual(stats.suffix_count, 1)
self.assertEqual(stats.hashmatch, 0)
# Efficient Replication Case
set_default(self)
self.replicator.sync = fake_func = \
mock.MagicMock(return_value=(True, []))
all_jobs = self.replicator.collect_jobs()
job = None
for tmp in all_jobs:
if tmp['partition'] == '3':
job = tmp
break
# The candidate nodes to replicate (i.e. dev1 and dev3)
# belong to another region
self.replicator.update(job)
self.assertEqual(fake_func.call_count, 1)
stats = self.replicator.total_stats
self.assertEqual(stats.attempted, 1)
self.assertEqual(stats.suffix_sync, 1)
self.assertEqual(stats.suffix_hash, 1)
self.assertEqual(stats.suffix_count, 1)
self.assertEqual(stats.hashmatch, 0)
mock_http.reset_mock()
self.logger.clear()
# test for replication params on policy 0 only
repl_job = local_job.copy()
for node in repl_job['nodes']:
node['replication_ip'] = '127.0.0.11'
node['replication_port'] = '6011'
set_default(self)
# with only one set of headers make sure we specify index 0 here
# as otherwise it may be different from earlier tests
self.headers['X-Backend-Storage-Policy-Index'] = 0
self.replicator.update(repl_job)
reqs = []
for node in repl_job['nodes']:
reqs.append(mock.call(node['replication_ip'],
node['replication_port'], node['device'],
repl_job['partition'], 'REPLICATE',
'', headers=self.headers))
reqs.append(mock.call(node['replication_ip'],
node['replication_port'], node['device'],
repl_job['partition'], 'REPLICATE',
'/a83', headers=self.headers))
mock_http.assert_has_calls(reqs, any_order=True)
@mock.patch('swift.obj.replicator.tpool.execute')
@mock.patch('swift.obj.replicator.http_connect', autospec=True)
@mock.patch('swift.obj.replicator._do_listdir')
def test_update_local_hash_changes_during_replication(
self, mock_do_listdir, mock_http, mock_tpool_execute):
mock_http.return_value = answer = mock.MagicMock()
answer.getresponse.return_value = resp = mock.MagicMock()
resp.status = 200
resp.read.return_value = pickle.dumps({
'a83': 'c130a2c17ed45102aada0f4eee69494ff'})
self.replicator.sync = fake_sync = \
mock.MagicMock(return_value=(True, []))
local_job = [
job for job in self.replicator.collect_jobs()
if not job['delete']
and job['partition'] == '0' and int(job['policy']) == 0
][0]
mock_tpool_execute.side_effect = [
(1, {'a83': 'ba47fd314242ec8c7efb91f5d57336e4'}),
(1, {'a83': 'c130a2c17ed45102aada0f4eee69494ff'}),
]
self.replicator.update(local_job)
self.assertEqual(fake_sync.call_count, 0)
self.assertEqual(mock_http.call_count, 2)
stats = self.replicator.total_stats
self.assertEqual(stats.attempted, 1)
self.assertEqual(stats.suffix_sync, 0)
self.assertEqual(stats.suffix_hash, 1)
self.assertEqual(stats.suffix_count, 1)
self.assertEqual(stats.hashmatch, 2)
def test_rsync_compress_different_region(self):
self.assertEqual(self.replicator.sync_method, self.replicator.rsync)
jobs = self.replicator.collect_jobs()
_m_rsync = mock.Mock(return_value=0)
_m_os_path_exists = mock.Mock(return_value=True)
with mock.patch.object(self.replicator, '_rsync', _m_rsync), \
mock.patch('os.path.exists', _m_os_path_exists):
for job in jobs:
self.assertTrue('region' in job)
for node in job['nodes']:
for rsync_compress in (True, False):
self.replicator.rsync_compress = rsync_compress
ret = self.replicator.sync(node, job,
['fake_suffix'])
self.assertTrue(ret)
if node['region'] != job['region']:
if rsync_compress:
# --compress arg should be passed to rsync
# binary only when rsync_compress option is
# enabled AND destination node is in a
# different region
self.assertTrue('--compress' in
_m_rsync.call_args[0][0])
else:
self.assertFalse('--compress' in
_m_rsync.call_args[0][0])
else:
self.assertFalse('--compress' in
_m_rsync.call_args[0][0])
self.assertEqual(
_m_os_path_exists.call_args_list[-1][0][0],
os.path.join(job['path'], 'fake_suffix'))
self.assertEqual(
_m_os_path_exists.call_args_list[-2][0][0],
os.path.join(job['path']))
def test_do_listdir(self):
# Test if do_listdir is enabled for every 10th partition to rehash
# First number is the number of partitions in the job, list entries
# are the expected partition numbers per run
test_data = {
9: [1, 0, 1, 1, 1, 1, 1, 1, 1, 1],
29: [3, 2, 3, 3, 3, 3, 3, 3, 3, 3],
111: [12, 11, 11, 11, 11, 11, 11, 11, 11, 11]}
for partitions, expected in test_data.items():
seen = []
for phase in range(10):
invalidated = 0
for partition in range(partitions):
if object_replicator._do_listdir(partition, phase):
seen.append(partition)
invalidated += 1
# Every 10th partition is seen after each phase
self.assertEqual(expected[phase], invalidated)
# After 10 cycles every partition is seen exactly once
self.assertEqual(sorted(range(partitions)), sorted(seen))
def test_replicate_skipped_partpower_increase(self):
_create_test_rings(self.testdir, next_part_power=4)
self.replicator.replicate()
self.assertEqual(0, self.replicator.job_count)
self.assertEqual(0, self.replicator.total_stats.attempted)
warnings = self.logger.get_lines_for_level('warning')
self.assertIn(
"next_part_power set in policy 'one'. Skipping", warnings)
def test_replicate_rsync_timeout(self):
cur_part = '0'
df = self.df_mgr.get_diskfile('sda', cur_part, 'a', 'c', 'o',
policy=POLICIES[0])
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
mock_procs = []
def new_mock(*a, **kw):
proc = MockHungProcess()
mock_procs.append(proc)
return proc
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)), \
mock.patch.object(self.replicator, 'rsync_timeout', 0.01), \
mock.patch('eventlet.green.subprocess.Popen', new_mock):
self.replicator.rsync_error_log_line_length = 20
self.replicator.run_once()
for proc in mock_procs:
self.assertEqual(proc._calls, [
('wait', 'running'),
('kill', 'running'),
('wait', 'killed'),
])
self.assertEqual(len(mock_procs), 2)
error_lines = self.replicator.logger.get_lines_for_level('error')
# verify logs are truncated to rsync_error_log_line_length
self.assertEqual('Killing long-running', error_lines[0])
self.assertEqual('Killing long-running', error_lines[1])
def test_replicate_rsync_timeout_wedged(self):
cur_part = '0'
df = self.df_mgr.get_diskfile('sda', cur_part, 'a', 'c', 'o',
policy=POLICIES[0])
mkdirs(df._datadir)
f = open(os.path.join(df._datadir,
normalize_timestamp(time.time()) + '.data'),
'wb')
f.write(b'1234567890')
f.close()
mock_procs = []
def new_mock(*a, **kw):
proc = MockHungProcess(polls_needed=2)
mock_procs.append(proc)
return proc
with mock.patch('swift.obj.replicator.http_connect',
mock_http_connect(200)), \
mock.patch.object(self.replicator, 'rsync_timeout', 0.01), \
mock.patch('eventlet.green.subprocess.Popen', new_mock):
self.replicator.run_once()
for proc in mock_procs:
self.assertEqual(proc._calls, [
('wait', 'running'),
('kill', 'running'),
('wait', 'killed'),
('poll', 'killed'),
('poll', 'killed'),
])
self.assertEqual(len(mock_procs), 2)
def test_limit_rsync_log(self):
def do_test(length_limit, log_line, expected):
self.replicator.rsync_error_log_line_length = length_limit
result = self.replicator._limit_rsync_log(log_line)
self.assertEqual(result, expected)
tests = [{'length_limit': 20,
'log_line': 'a' * 20,
'expected': 'a' * 20},
{'length_limit': 20,
'log_line': 'a' * 19,
'expected': 'a' * 19},
{'length_limit': 20,
'log_line': 'a' * 21,
'expected': 'a' * 20},
{'length_limit': None,
'log_line': 'a' * 50,
'expected': 'a' * 50},
{'length_limit': 0,
'log_line': 'a' * 50,
'expected': 'a' * 50}]
for params in tests:
do_test(**params)
@patch_policies([StoragePolicy(0, 'zero', False),
StoragePolicy(1, 'one', True)])
class TestMultiProcessReplicator(unittest.TestCase):
def setUp(self):
# recon cache path
self.recon_cache = tempfile.mkdtemp()
rmtree(self.recon_cache, ignore_errors=1)
os.mkdir(self.recon_cache)
self.recon_file = os.path.join(self.recon_cache, 'object.recon')
bind_port = 6200
# Set up some rings
self.testdir = tempfile.mkdtemp()
_create_test_rings(self.testdir, devs=[
{'id': 0, 'device': 'sda', 'zone': 0,
'region': 1, 'ip': '127.0.0.1', 'port': bind_port},
{'id': 1, 'device': 'sdb', 'zone': 0,
'region': 1, 'ip': '127.0.0.1', 'port': bind_port},
{'id': 2, 'device': 'sdc', 'zone': 0,
'region': 1, 'ip': '127.0.0.1', 'port': bind_port},
{'id': 3, 'device': 'sdd', 'zone': 0,
'region': 1, 'ip': '127.0.0.1', 'port': bind_port},
{'id': 4, 'device': 'sde', 'zone': 0,
'region': 1, 'ip': '127.0.0.1', 'port': bind_port},
{'id': 100, 'device': 'notme0', 'zone': 0,
'region': 1, 'ip': '127.99.99.99', 'port': bind_port}])
self.logger = debug_logger('test-replicator')
self.conf = dict(
bind_ip='127.0.0.1', bind_port=bind_port,
swift_dir=self.testdir,
mount_check='false', recon_cache_path=self.recon_cache,
timeout='300', stats_interval='1', sync_method='rsync')
self.replicator = object_replicator.ObjectReplicator(
self.conf, logger=self.logger)
def tearDown(self):
self.assertFalse(process_errors)
rmtree(self.testdir, ignore_errors=1)
rmtree(self.recon_cache, ignore_errors=1)
def fake_replicate(self, override_devices, **kw):
# Faked-out replicate() method. Just updates the stats, but doesn't
# do any work.
for device in override_devices:
stats = self.replicator.stats_for_dev[device]
if device == 'sda':
stats.attempted = 1
stats.success = 10
stats.failure = 100
stats.hashmatch = 1000
stats.rsync = 10000
stats.remove = 100000
stats.suffix_count = 1000000
stats.suffix_hash = 10000000
stats.suffix_sync = 100000000
stats.failure_nodes = {
'10.1.1.1': {'d11': 1}}
elif device == 'sdb':
stats.attempted = 2
stats.success = 20
stats.failure = 200
stats.hashmatch = 2000
stats.rsync = 20000
stats.remove = 200000
stats.suffix_count = 2000000
stats.suffix_hash = 20000000
stats.suffix_sync = 200000000
stats.failure_nodes = {
'10.2.2.2': {'d22': 2}}
elif device == 'sdc':
stats.attempted = 3
stats.success = 30
stats.failure = 300
stats.hashmatch = 3000
stats.rsync = 30000
stats.remove = 300000
stats.suffix_count = 3000000
stats.suffix_hash = 30000000
stats.suffix_sync = 300000000
stats.failure_nodes = {
'10.3.3.3': {'d33': 3}}
elif device == 'sdd':
stats.attempted = 4
stats.success = 40
stats.failure = 400
stats.hashmatch = 4000
stats.rsync = 40000
stats.remove = 400000
stats.suffix_count = 4000000
stats.suffix_hash = 40000000
stats.suffix_sync = 400000000
stats.failure_nodes = {
'10.4.4.4': {'d44': 4}}
elif device == 'sde':
stats.attempted = 5
stats.success = 50
stats.failure = 500
stats.hashmatch = 5000
stats.rsync = 50000
stats.remove = 500000
stats.suffix_count = 5000000
stats.suffix_hash = 50000000
stats.suffix_sync = 500000000
stats.failure_nodes = {
'10.5.5.5': {'d55': 5}}
else:
raise Exception("mock can't handle %r" % device)
def test_no_multiprocessing(self):
self.replicator.replicator_workers = 0
self.assertEqual(self.replicator.get_worker_args(), [])
def test_device_distribution(self):
self.replicator.replicator_workers = 2
self.assertEqual(self.replicator.get_worker_args(), [{
'override_devices': ['sda', 'sdc', 'sde'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdb', 'sdd'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 1,
}])
def test_override_policies(self):
self.replicator.replicator_workers = 2
args = self.replicator.get_worker_args(policies="3,5,7", once=True)
self.assertEqual(args, [{
'override_devices': ['sda', 'sdc', 'sde'],
'override_partitions': [],
'override_policies': [3, 5, 7],
'have_overrides': True,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdb', 'sdd'],
'override_partitions': [],
'override_policies': [3, 5, 7],
'have_overrides': True,
'multiprocess_worker_index': 1,
}])
# override policies don't apply in run-forever mode
args = self.replicator.get_worker_args(policies="3,5,7", once=False)
self.assertEqual(args, [{
'override_devices': ['sda', 'sdc', 'sde'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdb', 'sdd'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 1,
}])
def test_more_workers_than_disks(self):
self.replicator.replicator_workers = 999
self.assertEqual(self.replicator.get_worker_args(), [{
'override_devices': ['sda'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdb'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 1,
}, {
'override_devices': ['sdc'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 2,
}, {
'override_devices': ['sdd'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 3,
}, {
'override_devices': ['sde'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 4,
}])
# Remember how many workers we actually have so that the log-line
# prefixes are reasonable. Otherwise, we'd have five workers, each
# logging lines starting with things like "[worker X/999 pid=P]"
# despite there being only five.
self.assertEqual(self.replicator.replicator_workers, 5)
def test_command_line_overrides(self):
self.replicator.replicator_workers = 2
args = self.replicator.get_worker_args(
devices="sda,sdc,sdd", partitions="12,34,56", once=True)
self.assertEqual(args, [{
'override_devices': ['sda', 'sdd'],
'override_partitions': [12, 34, 56],
'override_policies': [],
'have_overrides': True,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdc'],
'override_partitions': [12, 34, 56],
'override_policies': [],
'have_overrides': True,
'multiprocess_worker_index': 1,
}])
args = self.replicator.get_worker_args(
devices="sda,sdc,sdd", once=True)
self.assertEqual(args, [{
'override_devices': ['sda', 'sdd'],
'override_partitions': [],
'override_policies': [],
'have_overrides': True,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdc'],
'override_partitions': [],
'override_policies': [],
'have_overrides': True,
'multiprocess_worker_index': 1,
}])
# no overrides apply in run-forever mode
args = self.replicator.get_worker_args(
devices="sda,sdc,sdd", partitions="12,34,56", once=False)
self.assertEqual(args, [{
'override_devices': ['sda', 'sdc', 'sde'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 0,
}, {
'override_devices': ['sdb', 'sdd'],
'override_partitions': [],
'override_policies': [],
'have_overrides': False,
'multiprocess_worker_index': 1,
}])
def test_worker_logging(self):
self.replicator.replicator_workers = 3
def log_some_stuff(*a, **kw):
self.replicator.logger.debug("debug message")
self.replicator.logger.info("info message")
self.replicator.logger.warning("warning message")
self.replicator.logger.error("error message")
with mock.patch.object(self.replicator, 'replicate', log_some_stuff), \
mock.patch("os.getpid", lambda: 8804):
self.replicator.get_worker_args()
self.replicator.run_once(multiprocess_worker_index=0,
override_devices=['sda', 'sdb'])
prefix = "[worker 1/3 pid=8804] "
for level, lines in self.logger.logger.all_log_lines().items():
for line in lines:
self.assertTrue(
line.startswith(prefix),
"%r doesn't start with %r (level %s)" % (
line, prefix, level))
def test_recon_run_once(self):
self.replicator.replicator_workers = 3
the_time = [1521680000]
def mock_time():
rv = the_time[0]
the_time[0] += 120
return rv
# Simulate a couple child processes
with mock.patch.object(self.replicator, 'replicate',
self.fake_replicate), \
mock.patch('time.time', mock_time):
self.replicator.get_worker_args()
self.replicator.run_once(multiprocess_worker_index=0,
override_devices=['sda', 'sdb'])
self.replicator.run_once(multiprocess_worker_index=1,
override_devices=['sdc'])
self.replicator.run_once(multiprocess_worker_index=2,
override_devices=['sdd', 'sde'])
with open(self.recon_file) as fh:
recon_data = json.load(fh)
self.assertIn('object_replication_per_disk', recon_data)
self.assertIn('sda', recon_data['object_replication_per_disk'])
self.assertIn('sdb', recon_data['object_replication_per_disk'])
self.assertIn('sdc', recon_data['object_replication_per_disk'])
self.assertIn('sdd', recon_data['object_replication_per_disk'])
self.assertIn('sde', recon_data['object_replication_per_disk'])
sda = recon_data['object_replication_per_disk']['sda']
# Spot-check a couple of fields
self.assertEqual(sda['replication_stats']['attempted'], 1)
self.assertEqual(sda['replication_stats']['success'], 10)
self.assertEqual(sda['object_replication_time'], 2) # minutes
self.assertEqual(sda['object_replication_last'], 1521680120)
# Aggregate the workers' recon updates
self.replicator.post_multiprocess_run()
with open(self.recon_file) as fh:
recon_data = json.load(fh)
self.assertEqual(recon_data['replication_stats']['attempted'], 15)
self.assertEqual(recon_data['replication_stats']['failure'], 1500)
self.assertEqual(recon_data['replication_stats']['hashmatch'], 15000)
self.assertEqual(recon_data['replication_stats']['remove'], 1500000)
self.assertEqual(recon_data['replication_stats']['rsync'], 150000)
self.assertEqual(recon_data['replication_stats']['success'], 150)
self.assertEqual(recon_data['replication_stats']['suffix_count'],
15000000)
self.assertEqual(recon_data['replication_stats']['suffix_hash'],
150000000)
self.assertEqual(recon_data['replication_stats']['suffix_sync'],
1500000000)
self.assertEqual(recon_data['replication_stats']['failure_nodes'], {
'10.1.1.1': {'d11': 1},
'10.2.2.2': {'d22': 2},
'10.3.3.3': {'d33': 3},
'10.4.4.4': {'d44': 4},
'10.5.5.5': {'d55': 5},
})
self.assertEqual(recon_data['object_replication_time'], 2) # minutes
self.assertEqual(recon_data['object_replication_last'], 1521680120)
def test_recon_skipped_with_overrides(self):
self.replicator.replicator_workers = 3
the_time = [1521680000]
def mock_time():
rv = the_time[0]
the_time[0] += 120
return rv
with mock.patch.object(self.replicator, 'replicate',
self.fake_replicate), \
mock.patch('time.time', mock_time):
self.replicator.get_worker_args()
self.replicator.run_once(multiprocess_worker_index=0,
have_overrides=True,
override_devices=['sda', 'sdb'])
self.assertFalse(os.path.exists(self.recon_file))
# have_overrides=False makes us get recon stats
with mock.patch.object(self.replicator, 'replicate',
self.fake_replicate), \
mock.patch('time.time', mock_time):
self.replicator.get_worker_args()
self.replicator.run_once(multiprocess_worker_index=0,
have_overrides=False,
override_devices=['sda', 'sdb'])
with open(self.recon_file) as fh:
recon_data = json.load(fh)
self.assertIn('sda', recon_data['object_replication_per_disk'])
def test_recon_run_forever(self):
the_time = [1521521521.52152]
def mock_time():
rv = the_time[0]
the_time[0] += 120
return rv
self.replicator.replicator_workers = 2
self.replicator._next_rcache_update = the_time[0]
# One worker has finished a pass, the other hasn't.
with mock.patch.object(self.replicator, 'replicate',
self.fake_replicate), \
mock.patch('time.time', mock_time):
self.replicator.get_worker_args()
# Yes, this says run_once, but this is only to populate
# object.recon with some stats. The real test is for the
# aggregation.
self.replicator.run_once(multiprocess_worker_index=0,
override_devices=['sda', 'sdb', 'sdc'])
# This will not produce aggregate stats since not every device has
# finished a pass.
the_time[0] += self.replicator.stats_interval
with mock.patch('time.time', mock_time):
rv = self.replicator.is_healthy()
self.assertTrue(rv)
with open(self.recon_file) as fh:
recon_data = json.load(fh)
self.assertNotIn('replication_stats', recon_data)
# Now all the local devices have completed a replication pass, so we
# will produce aggregate stats.
with mock.patch.object(self.replicator, 'replicate',
self.fake_replicate), \
mock.patch('time.time', mock_time):
self.replicator.get_worker_args()
self.replicator.run_once(multiprocess_worker_index=1,
override_devices=['sdd', 'sde'])
the_time[0] += self.replicator.stats_interval
with mock.patch('time.time', mock_time):
rv = self.replicator.is_healthy()
self.assertTrue(rv)
with open(self.recon_file) as fh:
recon_data = json.load(fh)
self.assertIn('replication_stats', recon_data)
# no need to exhaustively check every sum
self.assertEqual(recon_data['replication_stats']['attempted'], 15)
self.assertEqual(recon_data['replication_stats']['success'], 150)
self.assertEqual(
recon_data['replication_last'],
min(pd['replication_last']
for pd in recon_data['object_replication_per_disk'].values()))
class TestReplicatorStats(unittest.TestCase):
def test_to_recon(self):
st = object_replicator.Stats(
attempted=1, failure=2, hashmatch=3, remove=4,
rsync=5, success=7,
suffix_count=8, suffix_hash=9, suffix_sync=10,
failure_nodes={'10.1.2.3': {'sda': 100, 'sdb': 200}})
# This is what appears in the recon dump
self.assertEqual(st.to_recon(), {
'attempted': 1,
'failure': 2,
'hashmatch': 3,
'remove': 4,
'rsync': 5,
'success': 7,
'suffix_count': 8,
'suffix_hash': 9,
'suffix_sync': 10,
'failure_nodes': {'10.1.2.3': {'sda': 100, 'sdb': 200}},
})
def test_recon_roundtrip(self):
before = object_replicator.Stats(
attempted=1, failure=2, hashmatch=3, remove=4,
rsync=5, success=7,
suffix_count=8, suffix_hash=9, suffix_sync=10,
failure_nodes={'10.1.2.3': {'sda': 100, 'sdb': 200}})
after = object_replicator.Stats.from_recon(before.to_recon())
self.assertEqual(after.attempted, before.attempted)
self.assertEqual(after.failure, before.failure)
self.assertEqual(after.hashmatch, before.hashmatch)
self.assertEqual(after.remove, before.remove)
self.assertEqual(after.rsync, before.rsync)
self.assertEqual(after.success, before.success)
self.assertEqual(after.suffix_count, before.suffix_count)
self.assertEqual(after.suffix_hash, before.suffix_hash)
self.assertEqual(after.suffix_sync, before.suffix_sync)
self.assertEqual(after.failure_nodes, before.failure_nodes)
def test_from_recon_skips_extra_fields(self):
# If another attribute ever sneaks its way in, we should ignore it.
# This will make aborted upgrades a little less painful for
# operators.
recon_dict = {'attempted': 1, 'failure': 2, 'hashmatch': 3,
'spices': 5, 'treasures': 8}
stats = object_replicator.Stats.from_recon(recon_dict)
self.assertEqual(stats.attempted, 1)
self.assertEqual(stats.failure, 2)
self.assertEqual(stats.hashmatch, 3)
# We don't gain attributes just because they're in object.recon.
self.assertFalse(hasattr(stats, 'spices'))
self.assertFalse(hasattr(stats, 'treasures'))
def test_add_failure_stats(self):
st = object_replicator.Stats()
st.add_failure_stats([('10.1.1.1', 'd10'), ('10.1.1.1', 'd11')])
st.add_failure_stats([('10.1.1.1', 'd10')])
st.add_failure_stats([('10.1.1.1', 'd12'), ('10.2.2.2', 'd20'),
('10.2.2.2', 'd21'), ('10.2.2.2', 'd21'),
('10.2.2.2', 'd21')])
self.assertEqual(st.failure, 8)
as_dict = st.to_recon()
self.assertEqual(as_dict['failure_nodes'], {
'10.1.1.1': {
'd10': 2,
'd11': 1,
'd12': 1,
},
'10.2.2.2': {
'd20': 1,
'd21': 3,
},
})
def test_add(self):
st1 = object_replicator.Stats(
attempted=1, failure=2, hashmatch=3, remove=4, rsync=5,
success=6, suffix_count=7, suffix_hash=8, suffix_sync=9,
failure_nodes={
'10.1.1.1': {'sda': 10, 'sdb': 20},
'10.1.1.2': {'sda': 10, 'sdb': 20}})
st2 = object_replicator.Stats(
attempted=2, failure=4, hashmatch=6, remove=8, rsync=10,
success=12, suffix_count=14, suffix_hash=16, suffix_sync=18,
failure_nodes={
'10.1.1.2': {'sda': 10, 'sdb': 20},
'10.1.1.3': {'sda': 10, 'sdb': 20}})
total = st1 + st2
self.assertEqual(total.attempted, 3)
self.assertEqual(total.failure, 6)
self.assertEqual(total.hashmatch, 9)
self.assertEqual(total.remove, 12)
self.assertEqual(total.rsync, 15)
self.assertEqual(total.success, 18)
self.assertEqual(total.suffix_count, 21)
self.assertEqual(total.suffix_hash, 24)
self.assertEqual(total.suffix_sync, 27)
self.assertEqual(total.failure_nodes, {
'10.1.1.1': {'sda': 10, 'sdb': 20},
'10.1.1.2': {'sda': 20, 'sdb': 40},
'10.1.1.3': {'sda': 10, 'sdb': 20},
})
if __name__ == '__main__':
unittest.main()
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