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swift/test/unit/obj/test_reconstructor.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 itertools
import json
import unittest
import os
import mock
import six
import six.moves.cPickle as pickle
import tempfile
import time
import shutil
import re
import random
import struct
import collections
from eventlet import Timeout, sleep, spawn
from eventlet.green import threading
from contextlib import closing, contextmanager
from gzip import GzipFile
from shutil import rmtree
from six.moves.urllib.parse import unquote
from swift.common import utils
from swift.common.exceptions import DiskFileError, DiskFileQuarantined
from swift.common.header_key_dict import HeaderKeyDict
from swift.common.utils import dump_recon_cache, md5, Timestamp, mkdirs
from swift.obj import diskfile, reconstructor as object_reconstructor
from swift.common import ring
from swift.common.storage_policy import (StoragePolicy, ECStoragePolicy,
POLICIES, EC_POLICY)
from swift.obj.reconstructor import SYNC, REVERT
from test import annotate_failure
from test.debug_logger import debug_logger
from test.unit import (patch_policies, mocked_http_conn, FabricatedRing,
make_timestamp_iter, DEFAULT_TEST_EC_TYPE,
encode_frag_archive_bodies, quiet_eventlet_exceptions,
skip_if_no_xattrs)
from test.unit.obj.common import write_diskfile
class FakeSsyncSender(object):
def __init__(self, daemon, node, job, suffixes, ssync_calls=None,
response_callback=None, **kwargs):
if ssync_calls is not None:
call_args = {'node': node, 'job': job, 'suffixes': suffixes}
call_args.update(kwargs)
ssync_calls.append(call_args)
self.response_callback = response_callback
self.node = node
self.job = job
self.suffixes = suffixes
self.limited_by_max_objects = False
def __call__(self):
if self.response_callback:
response = self.response_callback(
self.node, self.job, self.suffixes)
else:
response = True, {}
return response
@contextmanager
def mock_ssync_sender(ssync_calls=None, response_callback=None, **kwargs):
def fake_ssync(daemon, node, job, suffixes, **kwargs):
return FakeSsyncSender(daemon, node, job, suffixes, ssync_calls,
response_callback, **kwargs)
with mock.patch('swift.obj.reconstructor.ssync_sender', fake_ssync):
yield fake_ssync
def make_ec_archive_bodies(policy, test_body):
segment_size = policy.ec_segment_size
# split up the body into buffers
chunks = [test_body[x:x + segment_size]
for x in range(0, len(test_body), segment_size)]
# encode the buffers into fragment payloads
fragment_payloads = []
for chunk in chunks:
fragments = \
policy.pyeclib_driver.encode(chunk) * policy.ec_duplication_factor
if not fragments:
break
fragment_payloads.append(fragments)
# join up the fragment payloads per node
ec_archive_bodies = [''.join(frags) for frags in zip(*fragment_payloads)]
return ec_archive_bodies
def _create_test_rings(path, next_part_power=None):
testgz = os.path.join(path, 'object.ring.gz')
intended_replica2part2dev_id = [
[0, 1, 2],
[1, 2, 3],
[2, 3, 0]
]
intended_devs = [
{'id': 0, 'device': 'sda1', 'zone': 0, 'ip': '127.0.0.0',
'port': 6200},
{'id': 1, 'device': 'sda1', 'zone': 1, 'ip': '127.0.0.1',
'port': 6200},
{'id': 2, 'device': 'sda1', 'zone': 2, 'ip': '127.0.0.2',
'port': 6200},
{'id': 3, 'device': 'sda1', 'zone': 4, 'ip': '127.0.0.3',
'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)
def count_stats(logger, key, metric):
count = 0
for record in logger.log_dict[key]:
log_args, log_kwargs = record
m = log_args[0]
if re.match(metric, m):
count += 1
return count
def get_header_frag_index(self, body):
metadata = self.policy.pyeclib_driver.get_metadata(body)
frag_index = struct.unpack('h', metadata[:2])[0]
return {
'X-Object-Sysmeta-Ec-Frag-Index': frag_index,
}
@patch_policies([StoragePolicy(0, name='zero', is_default=True),
ECStoragePolicy(1, name='one',
ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=3, ec_nparity=2)])
class TestGlobalSetupObjectReconstructor(unittest.TestCase):
# Tests for reconstructor using real objects in test partition directories.
legacy_durable = False
def setUp(self):
skip_if_no_xattrs()
self.testdir = tempfile.mkdtemp()
POLICIES[0].object_ring = FabricatedRing(3)
POLICIES[1].object_ring = FabricatedRing(5)
utils.HASH_PATH_SUFFIX = b'endcap'
utils.HASH_PATH_PREFIX = b''
self.devices = os.path.join(self.testdir, 'node')
os.makedirs(self.devices)
os.mkdir(os.path.join(self.devices, 'sda1'))
self.objects = os.path.join(self.devices, 'sda1',
diskfile.get_data_dir(POLICIES[0]))
self.objects_1 = os.path.join(self.devices, 'sda1',
diskfile.get_data_dir(POLICIES[1]))
os.mkdir(self.objects)
os.mkdir(self.objects_1)
self.parts = {}
self.parts_1 = {}
self.part_nums = ['0', '1', '2']
for part in self.part_nums:
self.parts[part] = os.path.join(self.objects, part)
os.mkdir(self.parts[part])
self.parts_1[part] = os.path.join(self.objects_1, part)
os.mkdir(self.parts_1[part])
self.conf = dict(
swift_dir=self.testdir, devices=self.devices, mount_check='false',
timeout='300', stats_interval='1',
bind_ip='10.0.0.1', bind_port=6200)
self.logger = debug_logger('test-reconstructor')
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.policy = POLICIES[1]
# most of the reconstructor test methods require that there be
# real objects in place, not just part dirs, so we'll create them
# all here....
# part 0: 3C1/hash/xxx#1#d.data <-- job: sync_only - partners (FI 1)
# 061/hash/xxx#1#d.data <-- included in earlier job (FI 1)
# /xxx#2#d.data <-- job: sync_revert to index 2
# part_nodes: ['sda0', 'sda1', 'sda2', 'sda3', 'sda4']
# part 1: 3C1/hash/xxx#0#d.data <-- job: sync_revert to index 0
# /xxx#1#d.data <-- job: sync_revert to index 1
# 061/hash/xxx#1#d.data <-- included in earlier job (FI 1)
# part_nodes: ['sda5', 'sda6', 'sda7', 'sda0', 'sda1']
# part 2: 3C1/hash/xxx#2#d.data <-- job: sync_revert to index 2
# 061/hash/xxx#0#d.data <-- job: sync_revert to index 0
# part_nodes: ['sda2', 'sda3', 'sda4', 'sda5', 'sda6']
def _create_frag_archives(policy, obj_path, local_id, obj_set):
# we'll create 2 sets of objects in different suffix dirs
# so we cover all the scenarios we want (3 of them)
# 1) part dir with all FI's matching the local node index
# 2) part dir with one local and mix of others
# 3) part dir with no local FI and one or more others
def part_0(set):
if set == 0:
# just the local
return local_id
else:
# one local and all of another
if obj_num == 0:
return local_id
else:
return (local_id + 1) % 3
def part_1(set):
if set == 0:
# one local and all of another
if obj_num == 0:
return local_id
else:
return (local_id + 2) % 3
else:
# just the local node
return local_id
def part_2(set):
# this part is a handoff in our config (always)
# so lets do a set with indices from different nodes
if set == 0:
return (local_id + 1) % 3
else:
return (local_id + 2) % 3
# function dictionary for defining test scenarios base on set #
scenarios = {'0': part_0,
'1': part_1,
'2': part_2}
for part_num in self.part_nums:
# create 3 unique objects per part, each part
# will then have a unique mix of FIs for the
# possible scenarios
for obj_num in range(0, 3):
self._create_diskfile(
part=part_num, object_name='o' + str(obj_set),
policy=policy, frag_index=scenarios[part_num](obj_set),
timestamp=utils.Timestamp(t))
ips = utils.whataremyips(self.reconstructor.bind_ip)
for policy in [p for p in POLICIES if p.policy_type == EC_POLICY]:
self.ec_policy = policy
self.ec_obj_ring = self.reconstructor.load_object_ring(
self.ec_policy)
data_dir = diskfile.get_data_dir(self.ec_policy)
for local_dev in [dev for dev in self.ec_obj_ring.devs
if dev and dev['replication_ip'] in ips and
dev['replication_port'] ==
self.reconstructor.port]:
self.ec_local_dev = local_dev
dev_path = os.path.join(self.reconstructor.devices_dir,
self.ec_local_dev['device'])
self.ec_obj_path = os.path.join(dev_path, data_dir)
# create a bunch of FA's to test
t = 1421181937.70054 # time.time()
with mock.patch('swift.obj.diskfile.time') as mock_time:
# since (a) we are using a fixed time here to create
# frags which corresponds to all the hardcoded hashes and
# (b) the EC diskfile will delete its .data file right
# after creating if it has expired, use this horrible hack
# to prevent the reclaim happening
mock_time.time.return_value = 0.0
_create_frag_archives(self.ec_policy, self.ec_obj_path,
self.ec_local_dev['id'], 0)
_create_frag_archives(self.ec_policy, self.ec_obj_path,
self.ec_local_dev['id'], 1)
break
break
def tearDown(self):
rmtree(self.testdir, ignore_errors=1)
def _create_diskfile(self, policy=None, part=0, object_name='o',
frag_index=0, timestamp=None, test_data=None,
commit=True):
policy = policy or self.policy
df_mgr = self.reconstructor._df_router[policy]
df = df_mgr.get_diskfile('sda1', part, 'a', 'c', object_name,
policy=policy)
timestamp = timestamp or utils.Timestamp.now()
test_data = test_data or b'test data'
write_diskfile(df, timestamp, data=test_data, frag_index=frag_index,
commit=commit, legacy_durable=self.legacy_durable)
return df
def assert_expected_jobs(self, part_num, jobs):
# the dict diffs can be pretty big
self.maxDiff = 2048
for job in jobs:
del job['path']
del job['policy']
if 'local_index' in job:
del job['local_index']
job['suffixes'].sort()
expected = []
# part num 0
expected.append(
[{
'sync_to': [{
'index': 2,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.2',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.2',
'device': 'sda2',
'id': 2,
'weight': 1.0,
}],
'job_type': object_reconstructor.REVERT,
'suffixes': ['061'],
'partition': 0,
'frag_index': 2,
'primary_frag_index': 1,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes': {
'061': {
None: '85b02a5283704292a511078a5c483da5',
2: '0e6e8d48d801dc89fd31904ae3b31229',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
'3c1': {
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
},
}, {
'sync_to': [{
'index': 0,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.0',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.0',
'device': 'sda0',
'id': 0,
'weight': 1.0,
}, {
'index': 2,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.2',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.2',
'device': 'sda2',
'id': 2,
'weight': 1.0,
}, {
'index': 3,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.3',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.3',
'device': 'sda3',
'id': 3,
'weight': 1.0,
}],
'job_type': object_reconstructor.SYNC,
'sync_diskfile_builder': self.reconstructor.reconstruct_fa,
'suffixes': ['061', '3c1'],
'partition': 0,
'frag_index': 1,
'primary_frag_index': 1,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes':
{
'061': {
None: '85b02a5283704292a511078a5c483da5',
2: '0e6e8d48d801dc89fd31904ae3b31229',
1: '0e6e8d48d801dc89fd31904ae3b31229'
},
'3c1': {
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
},
}]
)
# part num 1
expected.append(
[{
'sync_to': [{
'index': 1,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.2',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.2',
'device': 'sda6',
'id': 6,
'weight': 1.0,
}],
'job_type': object_reconstructor.REVERT,
'suffixes': ['061', '3c1'],
'partition': 1,
'frag_index': 1,
'primary_frag_index': 4,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes':
{
'061': {
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
'3c1': {
0: '0e6e8d48d801dc89fd31904ae3b31229',
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
},
}, {
'sync_to': [{
'index': 0,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.1',
'device': 'sda5',
'id': 5,
'weight': 1.0,
}],
'job_type': object_reconstructor.REVERT,
'suffixes': ['3c1'],
'partition': 1,
'frag_index': 0,
'primary_frag_index': 4,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes': {
'061': {
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
'3c1': {
0: '0e6e8d48d801dc89fd31904ae3b31229',
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
},
}, {
'sync_to': [{
'index': 3,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.0',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.0',
'device': 'sda0',
'id': 0,
'weight': 1.0,
}, {
'index': 0,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.1',
'device': 'sda5',
'id': 5,
'weight': 1.0,
}, {
'index': 1,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.2',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.2',
'device': 'sda6',
'id': 6,
'weight': 1.0,
}],
'job_type': object_reconstructor.SYNC,
'sync_diskfile_builder': self.reconstructor.reconstruct_fa,
'suffixes': [],
'partition': 1,
'frag_index': 4,
'primary_frag_index': 4,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes': {
'061': {
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
'3c1': {
0: '0e6e8d48d801dc89fd31904ae3b31229',
None: '85b02a5283704292a511078a5c483da5',
1: '0e6e8d48d801dc89fd31904ae3b31229',
},
},
}]
)
# part num 2
expected.append(
[{
'sync_to': [{
'index': 0,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.2',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.2',
'device': 'sda2',
'id': 2,
'weight': 1.0,
}],
'job_type': object_reconstructor.REVERT,
'suffixes': ['061'],
'partition': 2,
'frag_index': 0,
'primary_frag_index': None,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes': {
'061': {
0: '0e6e8d48d801dc89fd31904ae3b31229',
None: '85b02a5283704292a511078a5c483da5'
},
'3c1': {
None: '85b02a5283704292a511078a5c483da5',
2: '0e6e8d48d801dc89fd31904ae3b31229'
},
},
}, {
'sync_to': [{
'index': 2,
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.0',
'region': 1,
'port': 6200,
'replication_ip': '10.0.0.0',
'device': 'sda4',
'id': 4,
'weight': 1.0,
}],
'job_type': object_reconstructor.REVERT,
'suffixes': ['3c1'],
'partition': 2,
'frag_index': 2,
'primary_frag_index': None,
'device': 'sda1',
'local_dev': {
'replication_port': 6200,
'zone': 1,
'ip': '10.0.0.1',
'region': 1,
'id': 1,
'replication_ip': '10.0.0.1',
'device': 'sda1',
'port': 6200,
'weight': 1.0,
},
'hashes': {
'061': {
0: '0e6e8d48d801dc89fd31904ae3b31229',
None: '85b02a5283704292a511078a5c483da5'
},
'3c1': {
None: '85b02a5283704292a511078a5c483da5',
2: '0e6e8d48d801dc89fd31904ae3b31229'
},
},
}]
)
def check_jobs(part_num):
try:
expected_jobs = expected[int(part_num)]
except (IndexError, ValueError):
self.fail('Unknown part number %r' % part_num)
expected_by_part_frag_index = dict(
((j['partition'], j['frag_index']), j) for j in expected_jobs)
unexpected_jobs = []
for job in jobs:
job_key = (job['partition'], job['frag_index'])
if job_key in expected_by_part_frag_index:
self.assertEqual(job, expected_by_part_frag_index[job_key])
else:
unexpected_jobs.append(job)
if unexpected_jobs:
self.fail(
'Unexpected jobs for frags %r in part num %s - '
'expected jobs for frags %r' % (
[j['frag_index'] for j in unexpected_jobs], part_num,
[k[1] for k in expected_by_part_frag_index]))
for expected_job in expected_jobs:
if expected_job in jobs:
jobs.remove(expected_job)
self.assertFalse(jobs) # that should be all of them
check_jobs(part_num)
def _run_once(self, http_count, extra_devices, override_devices=None):
id_counter = itertools.count(
max(d['id'] for d in self.policy.object_ring.devs) + 1)
for device, parts in extra_devices.items():
device_path = os.path.join(self.devices, device)
os.mkdir(device_path)
for part in range(parts):
hash_path = os.path.join(
device_path, 'objects-1', str(part), 'abc', 'hash')
os.makedirs(hash_path)
tombstone_file = utils.Timestamp(time.time()).internal + '.ts'
with open(os.path.join(hash_path, tombstone_file), 'w'):
pass
# use sda1 as a base to make is_local happy
new_device = dict(self.policy.object_ring.devs[1])
new_device['device'] = device
new_device['id'] = next(id_counter)
self.policy.object_ring.devs.append(new_device)
self.reconstructor.stats_interval = object()
can_process = threading.Event()
can_do_stats = threading.Event()
can_do_stats.set()
def fake_sleep(secs=0):
if secs is not self.reconstructor.stats_interval:
return sleep(secs)
can_do_stats.wait()
can_do_stats.clear()
can_process.set()
def fake_process(job):
can_process.wait()
can_process.clear()
can_do_stats.set()
self.reconstructor.process_job = fake_process
with mock_ssync_sender(), mock.patch(
'swift.obj.reconstructor.sleep', fake_sleep):
self.reconstructor.run_once(devices=override_devices)
def test_run_once(self):
# sda1: 3 is done in setup
extra_devices = {
'sdb1': 4,
'sdc1': 1,
'sdd1': 0,
}
with Timeout(60):
self._run_once(32, extra_devices)
stats_lines = set()
for line in self.logger.get_lines_for_level('info'):
if 'reconstructed in' not in line:
continue
stat_line = line.split('reconstructed', 1)[0].strip()
stats_lines.add(stat_line)
acceptable = set([
'2/8 (25.00%) partitions',
'3/8 (37.50%) partitions',
'4/8 (50.00%) partitions',
'5/8 (62.50%) partitions',
'6/8 (75.00%) partitions',
'7/8 (87.50%) partitions',
'8/8 (100.00%) partitions',
])
matched = stats_lines & acceptable
self.assertEqual(matched, acceptable,
'missing some expected acceptable:\n%s' % (
'\n'.join(sorted(acceptable - matched))))
self.assertEqual(self.reconstructor.reconstruction_part_count, 8)
self.assertEqual(self.reconstructor.part_count, 8)
def test_run_once_override_devices(self):
# sda1: 3 is done in setup
extra_devices = {
'sdb1': 4,
'sdc1': 1,
'sdd1': 0,
}
with Timeout(60):
self._run_once(3, extra_devices, 'sdc1')
stats_lines = set()
for line in self.logger.get_lines_for_level('info'):
if 'reconstructed in' not in line:
continue
stat_line = line.split('reconstructed', 1)[0].strip()
stats_lines.add(stat_line)
acceptable = set([
'1/1 (100.00%) partitions',
])
matched = stats_lines & acceptable
self.assertEqual(matched, acceptable,
'missing some expected acceptable:\n%s' % (
'\n'.join(sorted(acceptable - matched))))
self.assertEqual(self.reconstructor.reconstruction_part_count, 1)
self.assertEqual(self.reconstructor.part_count, 1)
def test_get_response(self):
part = self.part_nums[0]
node = self.policy.object_ring.get_part_nodes(int(part))[0]
# separate replication network
node['replication_port'] = node['port'] + 1000
def do_test(stat_code):
with mocked_http_conn(stat_code) as mock_conn:
resp = self.reconstructor._get_response(
node, self.policy, part, path='/nada', headers={})
self.assertEqual(mock_conn.requests, [{
'ssl': False,
'ip': node['replication_ip'],
'port': node['replication_port'],
'method': 'GET',
'path': '/sda0/%s/nada' % part,
'qs': None,
'headers': {},
}])
return resp
for status in (200, 400, 404, 503):
resp = do_test(status)
self.assertEqual(status, resp.status)
resp = do_test(Exception())
self.assertIsNone(resp)
# exception should result in error logs
for line in self.logger.get_lines_for_level('error'):
self.assertIn('Trying to GET', line)
self.logger._clear()
# Timeout also should result in error logs
resp = do_test(Timeout())
self.assertIsNone(resp)
for line in self.logger.get_lines_for_level('error'):
self.assertIn('Trying to GET', line)
# sanity Timeout has extra message in the error log
self.assertIn('Timeout', line)
self.logger.clear()
def test_reconstructor_skips_bogus_partition_dirs(self):
# A directory in the wrong place shouldn't crash the reconstructor
self.reconstructor._reset_stats()
rmtree(self.objects_1)
os.mkdir(self.objects_1)
os.mkdir(os.path.join(self.objects_1, "burrito"))
jobs = []
for part_info in self.reconstructor.collect_parts():
jobs += self.reconstructor.build_reconstruction_jobs(part_info)
self.assertFalse(jobs)
def test_check_ring(self):
testring = tempfile.mkdtemp()
_create_test_rings(testring)
obj_ring = ring.Ring(testring, ring_name='object') # noqa
self.assertTrue(self.reconstructor.check_ring(obj_ring))
orig_check = self.reconstructor.next_check
self.reconstructor.next_check = orig_check - 30
self.assertTrue(self.reconstructor.check_ring(obj_ring))
self.reconstructor.next_check = orig_check
orig_ring_time = obj_ring._mtime
obj_ring._mtime = orig_ring_time - 30
self.assertTrue(self.reconstructor.check_ring(obj_ring))
self.reconstructor.next_check = orig_check - 30
self.assertFalse(self.reconstructor.check_ring(obj_ring))
rmtree(testring, ignore_errors=1)
def test_reconstruct_check_ring(self):
# test reconstruct logs info when check_ring is false and that
# there are no jobs built
with mock.patch('swift.obj.reconstructor.ObjectReconstructor.'
'check_ring', return_value=False):
self.reconstructor.reconstruct()
msgs = self.logger.get_lines_for_level('info')
self.assertIn('Ring change detected. Aborting'
' current reconstruction pass.', msgs[0])
self.assertEqual(self.reconstructor.reconstruction_count, 0)
def test_build_reconstruction_jobs(self):
self.reconstructor._reset_stats()
for part_info in self.reconstructor.collect_parts():
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertTrue(jobs[0]['job_type'] in
(object_reconstructor.SYNC,
object_reconstructor.REVERT))
self.assert_expected_jobs(part_info['partition'], jobs)
def test_handoffs_only(self):
self.reconstructor.handoffs_only = True
found_job_types = set()
def fake_process_job(job):
# increment failure counter
self.reconstructor.handoffs_remaining += 1
found_job_types.add(job['job_type'])
self.reconstructor.process_job = fake_process_job
_orig_build_jobs = self.reconstructor.build_reconstruction_jobs
built_jobs = []
def capture_jobs(part_info):
jobs = _orig_build_jobs(part_info)
built_jobs.append((part_info, jobs))
return jobs
with mock.patch.object(self.reconstructor, 'build_reconstruction_jobs',
capture_jobs):
self.reconstructor.reconstruct()
# only revert jobs
found = [(part_info['partition'], set(
j['job_type'] for j in jobs))
for part_info, jobs in built_jobs]
self.assertEqual([
# partition, job_types
(2, {'sync_revert'}),
], found)
self.assertEqual(found_job_types, {object_reconstructor.REVERT})
# but failures keep handoffs remaining
msgs = self.logger.get_lines_for_level('info')
self.assertIn('Next pass will continue to revert handoffs', msgs[-1])
self.logger._clear()
found_job_types = set()
def fake_process_job(job):
# success does not increment failure counter
found_job_types.add(job['job_type'])
self.reconstructor.process_job = fake_process_job
# only revert jobs ... but all handoffs cleared out successfully
self.reconstructor.reconstruct()
self.assertEqual(found_job_types, {object_reconstructor.REVERT})
# it's time to turn off handoffs_only
msgs = self.logger.get_lines_for_level('warning')
self.assertIn('You should disable handoffs_only', msgs[-1])
def test_get_partners(self):
expected = (
# node_index, part_nodes => partners
(0, [0, 1, 2, 3], [3, 1, 2]),
(0, [2, 3, 1, 0], [0, 3, 1]),
(0, [0, 1, 2, 3, 4], [4, 1, 2]),
(0, [0, 1, 2, 3, 4, 5], [5, 1, 3]),
(1, [0, 1, 2, 3, 4, 5], [0, 2, 4]),
(2, [0, 1, 2, 3, 4, 5], [1, 3, 5]),
(3, [0, 1, 2, 3, 4, 5], [2, 4, 0]),
(4, [0, 1, 2, 3, 4, 5], [3, 5, 1]),
(5, [0, 1, 2, 3, 4, 5], [4, 0, 2]),
(5, [1, 4, 0, 2, 3, 5], [3, 1, 0]),
)
failures = []
for frag_index, part_nodes, partners in expected:
sync_to = object_reconstructor._get_partners(
frag_index, part_nodes)
if partners != sync_to:
failures.append('Given nodes %r for index %s we expected '
'%r but got %r' % (
part_nodes, frag_index, partners, sync_to))
if failures:
failures.insert(0, 'Some test scenarios failed:')
self.fail('\n'.join(failures))
def test_iter_nodes_for_frag(self):
# no limit
self.reconstructor.rebuild_handoff_node_count = -1
policy = ECStoragePolicy(1, name='test', ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=4, ec_nparity=3)
policy.object_ring = FabricatedRing(replicas=7, devices=28)
primaries = policy.object_ring.get_part_nodes(0)
node = primaries[0]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [0, 0, 7, 14]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(0, node['backend_index'])
node = primaries[3]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [3, 3, 10, 17]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(3, node['backend_index'])
node = primaries[-1]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [6, 6, 13, 20]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(6, node['backend_index'])
# default limit is 2
self.reconstructor.rebuild_handoff_node_count = 2
node = primaries[0]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [0, 0, 7]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(0, node['backend_index'])
# zero means only primaries
self.reconstructor.rebuild_handoff_node_count = 0
node = primaries[0]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [0]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(0, node['backend_index'])
def test_collect_parts(self):
self.reconstructor._reset_stats()
parts = []
for part_info in self.reconstructor.collect_parts():
parts.append(part_info['partition'])
self.assertEqual(sorted(parts), [0, 1, 2])
def test_collect_parts_mkdirs_error(self):
def blowup_mkdirs(path):
raise OSError('Ow!')
self.reconstructor._reset_stats()
with mock.patch.object(object_reconstructor, 'mkdirs', blowup_mkdirs):
rmtree(self.objects_1, ignore_errors=1)
parts = []
for part_info in self.reconstructor.collect_parts():
parts.append(part_info['partition'])
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(len(error_lines), 1,
'Expected only one error, got %r' % error_lines)
log_args, log_kwargs = self.logger.log_dict['error'][0]
self.assertEqual(str(log_kwargs['exc_info'][1]), 'Ow!')
def test_removes_zbf(self):
# suppress unmount warning
os.mkdir(os.path.join(self.devices, 'sda5'))
# After running xfs_repair, a partition directory could become a
# zero-byte file. If this happens, the reconstructor should clean it
# up, log something, and move on to the next partition.
# Surprise! Partition dir 1 is actually 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
self.reconstructor.process_job = lambda j: None
self.reconstructor.reconstruct()
self.assertFalse(os.path.exists(pol_1_part_1_path))
warnings = self.logger.get_lines_for_level('warning')
self.assertEqual(2, len(warnings))
# first warning is due to get_hashes failing to take lock on non-dir
self.assertIn(pol_1_part_1_path + '/hashes.pkl', warnings[0])
self.assertIn('unable to read', warnings[0].lower())
self.assertIn(pol_1_part_1_path, warnings[1])
self.assertIn('not a directory', warnings[1].lower())
def test_ignores_status_file(self):
# Following fd86d5a, the auditor will leave status files on each device
# until an audit can complete. The reconstructor should ignore these
@contextmanager
def status_files(*auditor_types):
status_paths = [os.path.join(self.objects_1,
'auditor_status_%s.json' % typ)
for typ in auditor_types]
for status_path in status_paths:
self.assertFalse(os.path.exists(status_path)) # sanity check
with open(status_path, 'w'):
pass
self.assertTrue(os.path.isfile(status_path)) # sanity check
try:
yield status_paths
finally:
for status_path in status_paths:
try:
os.unlink(status_path)
except OSError as e:
if e.errno != 2:
raise
# suppress unmount warning
os.mkdir(os.path.join(self.devices, 'sda5'))
# since our collect_parts job is a generator, that yields directly
# into build_jobs and then spawns it's safe to do the remove_files
# without making reconstructor startup slow
with status_files('ALL', 'ZBF') as status_paths:
self.reconstructor._reset_stats()
for part_info in self.reconstructor.collect_parts():
self.assertNotIn(part_info['part_path'], status_paths)
warnings = self.logger.get_lines_for_level('warning')
self.assertEqual(0, len(warnings))
for status_path in status_paths:
self.assertTrue(os.path.exists(status_path))
def _make_fake_ssync(self, ssync_calls, fail_jobs=None):
"""
Replace SsyncSender with a thin Fake.
:param ssync_calls: an empty list, a non_local, all calls to ssync will
be captured for assertion in the caller.
:param fail_jobs: optional iter of dicts, any job passed into Fake that
matches a failure dict will return success == False.
"""
class _fake_ssync(object):
def __init__(self, daemon, node, job, suffixes,
include_non_durable=False, max_objects=0,
**kwargs):
# capture context and generate an available_map of objs
context = {}
context['node'] = node
context['job'] = job
context['suffixes'] = suffixes
context['max_objects'] = max_objects
self.suffixes = suffixes
self.daemon = daemon
self.job = job
frag_prefs = [] if include_non_durable else None
hash_gen = self.daemon._df_router[job['policy']].yield_hashes(
self.job['device'], self.job['partition'],
self.job['policy'], self.suffixes,
frag_index=self.job.get('frag_index'),
frag_prefs=frag_prefs)
self.available_map = {}
self.limited_by_max_objects = False
nlines = 0
for hash_, timestamps in hash_gen:
self.available_map[hash_] = timestamps
nlines += 1
if 0 < max_objects <= nlines:
break
for _ in hash_gen:
self.limited_by_max_objects = True
break
context['available_map'] = self.available_map
ssync_calls.append(context)
self.success = True
for failure in (fail_jobs or []):
if all(job.get(k) == v for (k, v) in failure.items()):
self.success = False
break
context['success'] = self.success
context['include_non_durable'] = include_non_durable
def __call__(self, *args, **kwargs):
return self.success, self.available_map if self.success else {}
return _fake_ssync
def test_delete_reverted(self):
# verify reconstructor deletes reverted frag indexes after ssync'ing
def visit_obj_dirs(context):
for suff in context['suffixes']:
suff_dir = os.path.join(
context['job']['path'], suff)
for root, dirs, files in os.walk(suff_dir):
for d in dirs:
dirpath = os.path.join(root, d)
files = os.listdir(dirpath)
yield dirpath, files
n_files = n_files_after = 0
# run reconstructor with delete function mocked out to check calls
ssync_calls = []
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)), \
mocked_http_conn(*[200] * 6, body=pickle.dumps({})), \
mock.patch.object(
self.reconstructor, 'delete_reverted_objs') as mock_delete:
self.reconstructor.reconstruct()
expected_calls = []
for context in ssync_calls:
if context['job']['job_type'] == REVERT:
self.assertTrue(context.get('include_non_durable'))
for dirpath, files in visit_obj_dirs(context):
# sanity check - expect some files to be in dir,
# may not be for the reverted frag index
self.assertTrue(files)
n_files += len(files)
self.assertEqual(context['job']['frag_index'],
context['node']['index'])
expected_calls.append(mock.call(context['job'],
context['available_map']))
else:
self.assertFalse(context.get('include_non_durable'))
self.assertEqual(0, context.get('max_objects'))
mock_delete.assert_has_calls(expected_calls, any_order=True)
# N.B. in this next test sequence we acctually delete files after
# revert, so the on-disk hashes can change. In partition 1, if the
# revert jobs (for frag_index 0 or 1) run before the sync job
# (frag_index 4) all suffixes will get removed and the sync job won't
# have anything to ship the remote (meaning there's no post-sync
# REPLICATE call). To keep the number of mocked_http_conn responses
# predictable we force a stable job order by mocking random's shuffle.
ssync_calls = []
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)), \
mocked_http_conn(*[200] * 6, body=pickle.dumps({})), \
mock.patch('swift.obj.reconstructor.random.shuffle'):
self.reconstructor.reconstruct()
for context in ssync_calls:
if context['job']['job_type'] == REVERT:
self.assertTrue(True, context.get('include_non_durable'))
data_file_tail = ('#%s.data'
% context['node']['index'])
for dirpath, files in visit_obj_dirs(context):
n_files_after += len(files)
for filename in files:
self.assertFalse(
filename.endswith(data_file_tail), filename)
else:
self.assertFalse(context.get('include_non_durable'))
self.assertEqual(0, context.get('max_objects'))
# sanity check that some files should were deleted
self.assertGreater(n_files, n_files_after)
def test_max_objects_per_revert_only_for_revert_jobs(self):
# verify max_objects_per_revert option is only passed to revert jobs
ssync_calls = []
conf = dict(self.conf, max_objects_per_revert=2)
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)), \
mocked_http_conn(*[200] * 6, body=pickle.dumps({})):
reconstructor = object_reconstructor.ObjectReconstructor(
conf, logger=self.logger)
reconstructor.reconstruct()
reverts = syncs = 0
for context in ssync_calls:
if context['job']['job_type'] == REVERT:
self.assertEqual(2, context.get('max_objects'))
reverts += 1
else:
self.assertEqual(0, context.get('max_objects'))
syncs += 1
self.assertGreater(reverts, 0)
self.assertGreater(syncs, 0)
def test_delete_reverted_nondurable(self):
# verify reconstructor only deletes reverted nondurable fragments older
# commit_window
shutil.rmtree(self.ec_obj_path)
ips = utils.whataremyips(self.reconstructor.bind_ip)
local_devs = [dev for dev in self.ec_obj_ring.devs
if dev and dev['replication_ip'] in ips and
dev['replication_port'] ==
self.reconstructor.port]
partition = (local_devs[0]['id'] + 1) % 3
# recent non-durable
df_recent = self._create_diskfile(
object_name='recent', part=partition, commit=False)
datafile_recent = df_recent.manager.cleanup_ondisk_files(
df_recent._datadir, frag_prefs=[])['data_file']
# older non-durable but with recent mtime
df_older = self._create_diskfile(
object_name='older', part=partition, commit=False,
timestamp=Timestamp(time.time() - 61))
datafile_older = df_older.manager.cleanup_ondisk_files(
df_older._datadir, frag_prefs=[])['data_file']
# durable
df_durable = self._create_diskfile(
object_name='durable', part=partition, commit=True)
datafile_durable = df_durable.manager.cleanup_ondisk_files(
df_durable._datadir, frag_prefs=[])['data_file']
self.assertTrue(os.path.exists(datafile_recent))
self.assertTrue(os.path.exists(datafile_older))
self.assertTrue(os.path.exists(datafile_durable))
ssync_calls = []
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)):
self.reconstructor.handoffs_only = True
self.reconstructor.reconstruct()
for context in ssync_calls:
self.assertEqual(REVERT, context['job']['job_type'])
self.assertTrue(True, context.get('include_non_durable'))
# neither nondurable should be removed yet with default commit_window
# because their mtimes are too recent
self.assertTrue(os.path.exists(datafile_recent))
self.assertTrue(os.path.exists(datafile_older))
# but durable is purged
self.assertFalse(os.path.exists(datafile_durable), datafile_durable)
ssync_calls = []
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)):
self.reconstructor.handoffs_only = True
# let the file get a little bit older and turn down the
# commit_window...
sleep(0.01)
df_older.manager.commit_window = 0.005
self.reconstructor.reconstruct()
for context in ssync_calls:
self.assertEqual(REVERT, context['job']['job_type'])
self.assertTrue(True, context.get('include_non_durable'))
# ...now the nondurables get purged
self.assertFalse(os.path.exists(datafile_recent))
self.assertFalse(os.path.exists(datafile_older))
def test_sync_old_nondurable_before_committed_non_zero_commit_window(self):
# verify that a *recently written* nondurable fragment survives being
# visited by the reconstructor, despite having timestamp older than
# reclaim_age
shutil.rmtree(self.ec_obj_path)
ips = utils.whataremyips(self.reconstructor.bind_ip)
local_devs = [dev for dev in self.ec_obj_ring.devs
if dev and dev['replication_ip'] in ips and
dev['replication_port'] ==
self.reconstructor.port]
partition = local_devs[0]['id']
# recently written, recent timestamp non-durable
ts_recent = Timestamp(time.time())
df_mgr = self.reconstructor._df_router[self.policy]
reclaim_age = df_mgr.reclaim_age
df_recent = self._create_diskfile(
object_name='recent', part=partition, commit=False,
timestamp=ts_recent, frag_index=4)
datafile_recent = df_recent.manager.cleanup_ondisk_files(
df_recent._datadir, frag_prefs=[])['data_file']
# recently written but old timestamp non-durable
ts_old = Timestamp(time.time() - reclaim_age - 1)
df_older = self._create_diskfile(
object_name='older', part=partition, commit=False,
timestamp=ts_old, frag_index=4)
datafile_older = df_older.manager.cleanup_ondisk_files(
df_older._datadir, frag_prefs=[])['data_file']
self.assertTrue(os.path.exists(datafile_recent))
self.assertTrue(os.path.exists(datafile_older))
# for this test we don't actually need to ssync anything, so pretend
# all suffixes are in sync
self.reconstructor._get_suffixes_to_sync = (
lambda job, node: ([], node))
df_mgr.commit_window = 1000 # avoid non-durables being reclaimed
self.reconstructor.reconstruct()
# neither nondurable should be removed yet with default commit_window
# because their mtimes are too recent
self.assertTrue(os.path.exists(datafile_recent))
self.assertTrue(os.path.exists(datafile_older))
# and we can still make the nondurables durable
df_recent.writer().commit(ts_recent)
self.assertTrue(os.path.exists(datafile_recent.replace('#4', '#4#d')))
df_older.writer().commit(ts_old)
self.assertTrue(os.path.exists(datafile_older.replace('#4', '#4#d')))
def test_sync_old_nondurable_before_committed_zero_commit_window(self):
# verify that a *recently written* nondurable fragment won't survive
# being visited by the reconstructor if its timestamp is older than
# reclaim_age and commit_window is zero; this test illustrates the
# potential data loss bug that commit_window addresses
shutil.rmtree(self.ec_obj_path)
ips = utils.whataremyips(self.reconstructor.bind_ip)
local_devs = [dev for dev in self.ec_obj_ring.devs
if dev and dev['replication_ip'] in ips and
dev['replication_port'] ==
self.reconstructor.port]
partition = local_devs[0]['id']
# recently written, recent timestamp non-durable
ts_recent = Timestamp(time.time())
df_mgr = self.reconstructor._df_router[self.policy]
reclaim_age = df_mgr.reclaim_age
df_recent = self._create_diskfile(
object_name='recent', part=partition, commit=False,
timestamp=ts_recent, frag_index=4)
datafile_recent = df_recent.manager.cleanup_ondisk_files(
df_recent._datadir, frag_prefs=[])['data_file']
# recently written but old timestamp non-durable
ts_old = Timestamp(time.time() - reclaim_age - 1)
df_older = self._create_diskfile(
object_name='older', part=partition, commit=False,
timestamp=ts_old, frag_index=4)
datafile_older = df_older.manager.cleanup_ondisk_files(
df_older._datadir, frag_prefs=[])['data_file']
self.assertTrue(os.path.exists(datafile_recent))
self.assertTrue(os.path.exists(datafile_older))
# for this test we don't actually need to ssync anything, so pretend
# all suffixes are in sync
self.reconstructor._get_suffixes_to_sync = (
lambda job, node: ([], node))
df_mgr.commit_window = 0
with mock.patch(
'swift.obj.diskfile.is_file_older') as mock_is_file_older:
self.reconstructor.reconstruct()
# older nondurable will be removed with commit_window = 0
self.assertTrue(os.path.exists(datafile_recent))
self.assertFalse(os.path.exists(datafile_older))
df_recent.writer().commit(ts_recent)
self.assertTrue(os.path.exists(datafile_recent.replace('#4', '#4#d')))
# ...and attempt to commit will fail :(
with self.assertRaises(DiskFileError):
df_older.writer().commit(ts_old)
# with zero commit_window the call to stat the file is not made
mock_is_file_older.assert_not_called()
def test_sync_old_nondurable_before_committed_past_commit_window(self):
# verify that a *not so recently written* nondurable fragment won't
# survive being visited by the reconstructor if its timestamp is older
# than reclaim_age
shutil.rmtree(self.ec_obj_path)
ips = utils.whataremyips(self.reconstructor.bind_ip)
local_devs = [dev for dev in self.ec_obj_ring.devs
if dev and dev['replication_ip'] in ips and
dev['replication_port'] ==
self.reconstructor.port]
partition = local_devs[0]['id']
# recently written, recent timestamp non-durable
ts_recent = Timestamp(time.time())
df_mgr = self.reconstructor._df_router[self.policy]
reclaim_age = df_mgr.reclaim_age
df_recent = self._create_diskfile(
object_name='recent', part=partition, commit=False,
timestamp=ts_recent, frag_index=4)
datafile_recent = df_recent.manager.cleanup_ondisk_files(
df_recent._datadir, frag_prefs=[])['data_file']
# recently written but old timestamp non-durable
ts_old = Timestamp(time.time() - reclaim_age - 1)
df_older = self._create_diskfile(
object_name='older', part=partition, commit=False,
timestamp=ts_old, frag_index=4)
datafile_older = df_older.manager.cleanup_ondisk_files(
df_older._datadir, frag_prefs=[])['data_file']
# pretend file was written more than commit_window seconds ago
now = time.time()
os.utime(datafile_older, (now - 60.1, now - 60.1))
self.assertTrue(os.path.exists(datafile_recent))
self.assertTrue(os.path.exists(datafile_older))
# for this test we don't actually need to ssync anything, so pretend
# all suffixes are in sync
self.reconstructor._get_suffixes_to_sync = (
lambda job, node: ([], node))
# leave commit_window at default of 60 seconds
self.reconstructor.reconstruct()
# older nondurable will be removed
self.assertTrue(os.path.exists(datafile_recent))
self.assertFalse(os.path.exists(datafile_older))
df_recent.writer().commit(ts_recent)
self.assertTrue(os.path.exists(datafile_recent.replace('#4', '#4#d')))
# ...and attempt to commit will fail :(
with self.assertRaises(DiskFileError):
df_older.writer().commit(ts_old)
def test_delete_reverted_max_objects_per_revert(self):
# verify reconstructor only deletes objects that were actually reverted
# when ssync is limited by max_objects_per_revert
shutil.rmtree(self.ec_obj_path)
ips = utils.whataremyips(self.reconstructor.bind_ip)
local_devs = [dev for dev in self.ec_obj_ring.devs
if dev and dev['replication_ip'] in ips and
dev['replication_port'] ==
self.reconstructor.port]
partition = (local_devs[0]['id'] + 1) % 3
# three durable objects
df_0 = self._create_diskfile(
object_name='zero', part=partition)
datafile_0 = df_0.manager.cleanup_ondisk_files(
df_0._datadir, frag_prefs=[])['data_file']
self.assertTrue(os.path.exists(datafile_0))
df_1 = self._create_diskfile(
object_name='one', part=partition)
datafile_1 = df_1.manager.cleanup_ondisk_files(
df_1._datadir, frag_prefs=[])['data_file']
self.assertTrue(os.path.exists(datafile_1))
df_2 = self._create_diskfile(
object_name='two', part=partition)
datafile_2 = df_2.manager.cleanup_ondisk_files(
df_2._datadir, frag_prefs=[])['data_file']
self.assertTrue(os.path.exists(datafile_2))
datafiles = [datafile_0, datafile_1, datafile_2]
actual_datafiles = [df for df in datafiles if os.path.exists(df)]
self.assertEqual(datafiles, actual_datafiles)
# only two objects will be sync'd and purged...
ssync_calls = []
conf = dict(self.conf, max_objects_per_revert=2, handoffs_only=True)
self.reconstructor = object_reconstructor.ObjectReconstructor(
conf, logger=self.logger)
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)):
self.reconstructor.reconstruct()
for context in ssync_calls:
self.assertEqual(REVERT, context['job']['job_type'])
self.assertEqual(2, context.get('max_objects'))
actual_datafiles = [df for df in datafiles if os.path.exists(df)]
self.assertEqual(1, len(actual_datafiles), actual_datafiles)
# handoff still reported as remaining
self.assertEqual(1, self.reconstructor.handoffs_remaining)
# ...until next reconstructor run which will sync and purge the last
# object; max_objects_per_revert == actual number of objects
ssync_calls = []
conf = dict(self.conf, max_objects_per_revert=1, handoffs_only=True)
self.reconstructor = object_reconstructor.ObjectReconstructor(
conf, logger=self.logger)
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)):
self.reconstructor.reconstruct()
for context in ssync_calls:
self.assertEqual(REVERT, context['job']['job_type'])
self.assertEqual(1, context.get('max_objects'))
actual_datafiles = [df for df in datafiles if os.path.exists(df)]
self.assertEqual([], actual_datafiles)
# handoff is no longer remaining
self.assertEqual(0, self.reconstructor.handoffs_remaining)
def test_no_delete_failed_revert(self):
# test will only process revert jobs
self.reconstructor.handoffs_only = True
# suppress unmount warning
os.mkdir(os.path.join(self.devices, 'sda5'))
captured_ssync = []
# fail all jobs on part 2 on sda1
fail_jobs = [
{'device': 'sda1', 'partition': 2},
]
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(
captured_ssync, fail_jobs=fail_jobs)), \
mocked_http_conn() as request_log:
self.reconstructor.reconstruct()
self.assertFalse(request_log.unexpected_requests)
# global setup has four revert jobs
self.assertEqual(len(captured_ssync), 2)
expected_ssync_calls = {
# device, part, frag_index: expected_occurrences
('sda1', 2, 2, True): 1,
('sda1', 2, 0, True): 1,
}
self.assertEqual(expected_ssync_calls, dict(collections.Counter(
(context['job']['device'],
context['job']['partition'],
context['job']['frag_index'],
context['include_non_durable'])
for context in captured_ssync
)))
# failed jobs don't sync suffixes
self.assertFalse(
self.logger.get_lines_for_level('warning'))
self.assertFalse(
self.logger.get_lines_for_level('error'))
# handoffs remaining and part exists
self.assertEqual(2, self.reconstructor.handoffs_remaining)
self.assertTrue(os.path.exists(self.parts_1['2']))
# again with no failures
captured_ssync = []
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(captured_ssync)):
self.reconstructor.reconstruct()
# same jobs
self.assertEqual(len(captured_ssync), 2)
self.assertFalse(
self.logger.get_lines_for_level('error'))
# handoffs are cleaned up
self.assertEqual(0, self.reconstructor.handoffs_remaining)
warning_msgs = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_msgs))
self.assertIn('no handoffs remaining', warning_msgs[0])
# need one more pass to cleanup the part dir
self.assertTrue(os.path.exists(self.parts_1['2']))
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync([])), \
mocked_http_conn() as request_log:
self.reconstructor.reconstruct()
self.assertFalse(os.path.exists(self.parts_1['2']))
def test_get_part_jobs(self):
# yeah, this test code expects a specific setup
self.assertEqual(len(self.part_nums), 3)
# OK, at this point we should have 4 loaded parts with one
jobs = []
for partition in os.listdir(self.ec_obj_path):
part_path = os.path.join(self.ec_obj_path, partition)
jobs = self.reconstructor._get_part_jobs(
self.ec_local_dev, part_path, int(partition), self.ec_policy)
self.assert_expected_jobs(partition, jobs)
def assertStatCount(self, stat_method, stat_prefix, expected_count):
count = count_stats(self.logger, stat_method, stat_prefix)
msg = 'expected %s != %s for %s %s' % (
expected_count, count, stat_method, stat_prefix)
self.assertEqual(expected_count, count, msg)
def test_delete_partition(self):
# part 2 is predefined to have all revert jobs
part_path = os.path.join(self.objects_1, '2')
self.assertTrue(os.access(part_path, os.F_OK))
ssync_calls = []
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)):
self.reconstructor.reconstruct(override_partitions=[2])
expected_ssync_calls = sorted([
(u'10.0.0.0', REVERT, 2, [u'3c1'], True),
(u'10.0.0.2', REVERT, 2, [u'061'], True),
])
self.assertEqual(expected_ssync_calls, sorted((
c['node']['ip'],
c['job']['job_type'],
c['job']['partition'],
c['suffixes'],
c.get('include_non_durable')
) for c in ssync_calls))
expected_stats = {
('increment', 'partition.delete.count.'): 2,
('timing_since', 'partition.delete.timing'): 2,
}
for stat_key, expected in expected_stats.items():
stat_method, stat_prefix = stat_key
self.assertStatCount(stat_method, stat_prefix, expected)
stub_data = self.reconstructor._get_hashes(
'sda1', 2, self.policy, do_listdir=True)
stub_data.update({'7ca': {None: '8f19c38e1cf8e2390d4ca29051407ae3'}})
pickle_path = os.path.join(part_path, 'hashes.pkl')
with open(pickle_path, 'wb') as f:
pickle.dump(stub_data, f)
# part 2 should be totally empty
hash_gen = self.reconstructor._df_router[self.policy].yield_hashes(
'sda1', '2', self.policy, suffixes=stub_data.keys())
for hash_, ts in hash_gen:
self.fail('found %s : %s' % (hash_, ts))
new_hashes = self.reconstructor._get_hashes(
'sda1', 2, self.policy, do_listdir=True)
self.assertFalse(new_hashes)
# N.B. the partition directory is removed next pass
ssync_calls = []
with mocked_http_conn() as request_log:
with mock.patch('swift.obj.reconstructor.ssync_sender',
self._make_fake_ssync(ssync_calls)):
self.reconstructor.reconstruct(override_partitions=[2])
self.assertEqual([], ssync_calls)
self.assertEqual([], request_log.requests)
self.assertFalse(os.access(part_path, os.F_OK))
def test_process_job_all_success(self):
rehash_per_job_type = {SYNC: 1, REVERT: 0}
self.reconstructor._reset_stats()
with mock_ssync_sender():
found_jobs = []
for part_info in self.reconstructor.collect_parts():
jobs = self.reconstructor.build_reconstruction_jobs(
part_info)
found_jobs.extend(jobs)
for job in jobs:
self.logger._clear()
node_count = len(job['sync_to'])
rehash_count = node_count * rehash_per_job_type[
job['job_type']]
with mocked_http_conn(*[200] * rehash_count,
body=pickle.dumps({})):
self.reconstructor.process_job(job)
if job['job_type'] == object_reconstructor.REVERT:
self.assertStatCount('update_stats',
'suffix.hashes', 0)
else:
self.assertStatCount('update_stats',
'suffix.hashes', node_count)
self.assertStatCount('update_stats',
'suffix.syncs', node_count)
self.assertNotIn('error', self.logger.all_log_lines())
self.assertEqual(
dict(collections.Counter((job['device'], job['partition'],
job['frag_index'], job['job_type'])
for job in found_jobs)),
{('sda1', 0, 1, SYNC): 1,
('sda1', 0, 2, REVERT): 1,
('sda1', 1, 0, REVERT): 1,
('sda1', 1, 1, REVERT): 1,
('sda1', 1, 4, SYNC): 1,
('sda1', 2, 0, REVERT): 1,
('sda1', 2, 2, REVERT): 1})
self.assertEqual(self.reconstructor.suffix_sync, 12)
self.assertEqual(self.reconstructor.suffix_count, 12)
self.assertEqual(self.reconstructor.reconstruction_count, 7)
def test_process_job_all_insufficient_storage(self):
self.reconstructor._reset_stats()
with mock_ssync_sender():
with mocked_http_conn(*[507] * 10):
found_jobs = []
for part_info in self.reconstructor.collect_parts():
jobs = self.reconstructor.build_reconstruction_jobs(
part_info)
found_jobs.extend(jobs)
for job in jobs:
self.logger._clear()
self.reconstructor.process_job(job)
for line in self.logger.get_lines_for_level('error'):
self.assertIn('responded as unmounted', line)
self.assertEqual(0, count_stats(
self.logger, 'update_stats', 'suffix.hashes'))
self.assertEqual(0, count_stats(
self.logger, 'update_stats', 'suffix.syncs'))
self.assertEqual(
dict(collections.Counter((job['device'], job['partition'],
job['frag_index'], job['job_type'])
for job in found_jobs)),
{('sda1', 0, 1, SYNC): 1,
('sda1', 0, 2, REVERT): 1,
('sda1', 1, 0, REVERT): 1,
('sda1', 1, 1, REVERT): 1,
('sda1', 1, 4, SYNC): 1,
('sda1', 2, 0, REVERT): 1,
('sda1', 2, 2, REVERT): 1})
self.assertEqual(self.reconstructor.suffix_sync, 0)
self.assertEqual(self.reconstructor.suffix_count, 0)
self.assertEqual(self.reconstructor.reconstruction_count, 7)
def test_process_job_all_client_error(self):
self.reconstructor._reset_stats()
with mock_ssync_sender():
with mocked_http_conn(*[400] * 6):
found_jobs = []
for part_info in self.reconstructor.collect_parts():
jobs = self.reconstructor.build_reconstruction_jobs(
part_info)
found_jobs.extend(jobs)
for job in jobs:
self.logger._clear()
self.reconstructor.process_job(job)
for line in self.logger.get_lines_for_level('error'):
self.assertIn('Invalid response 400', line)
self.assertEqual(0, count_stats(
self.logger, 'update_stats', 'suffix.hashes'))
self.assertEqual(0, count_stats(
self.logger, 'update_stats', 'suffix.syncs'))
self.assertEqual(
dict(collections.Counter(
(job['device'], job['partition'], job['frag_index'])
for job in found_jobs)),
{('sda1', 0, 1): 1,
('sda1', 0, 2): 1,
('sda1', 1, 0): 1,
('sda1', 1, 1): 1,
('sda1', 1, 4): 1,
('sda1', 2, 0): 1,
('sda1', 2, 2): 1})
self.assertEqual(self.reconstructor.suffix_sync, 0)
self.assertEqual(self.reconstructor.suffix_count, 0)
self.assertEqual(self.reconstructor.reconstruction_count, 7)
def test_process_job_all_timeout(self):
self.reconstructor._reset_stats()
with mock_ssync_sender(), mocked_http_conn(*[Timeout()] * 6):
found_jobs = []
for part_info in self.reconstructor.collect_parts():
jobs = self.reconstructor.build_reconstruction_jobs(
part_info)
found_jobs.extend(jobs)
for job in jobs:
self.logger._clear()
self.reconstructor.process_job(job)
for line in self.logger.get_lines_for_level('error'):
self.assertIn('Timeout (Nones)', line)
self.assertStatCount(
'update_stats', 'suffix.hashes', 0)
self.assertStatCount(
'update_stats', 'suffix.syncs', 0)
self.assertEqual(
dict(collections.Counter(
(job['device'], job['partition'], job['frag_index'])
for job in found_jobs)),
{('sda1', 0, 1): 1,
('sda1', 0, 2): 1,
('sda1', 1, 0): 1,
('sda1', 1, 1): 1,
('sda1', 1, 4): 1,
('sda1', 2, 0): 1,
('sda1', 2, 2): 1})
self.assertEqual(self.reconstructor.suffix_sync, 0)
self.assertEqual(self.reconstructor.suffix_count, 0)
self.assertEqual(self.reconstructor.reconstruction_count, 7)
def test_reconstructor_skipped_partpower_increase(self):
self.reconstructor._reset_stats()
_create_test_rings(self.testdir, 10)
# Enforce re-reading the EC ring
POLICIES[1].object_ring = ring.Ring(self.testdir, ring_name='object-1')
self.reconstructor.reconstruct()
self.assertEqual(0, self.reconstructor.reconstruction_count)
warnings = self.logger.get_lines_for_level('warning')
self.assertIn(
"next_part_power set in policy 'one'. Skipping", warnings)
class TestGlobalSetupObjectReconstructorLegacyDurable(
TestGlobalSetupObjectReconstructor):
# Tests for reconstructor using real objects in test partition directories.
legacy_durable = True
@patch_policies(with_ec_default=True)
class TestWorkerReconstructor(unittest.TestCase):
maxDiff = None
def setUp(self):
super(TestWorkerReconstructor, self).setUp()
self.logger = debug_logger()
self.testdir = tempfile.mkdtemp()
self.recon_cache_path = os.path.join(self.testdir, 'recon')
self.rcache = os.path.join(self.recon_cache_path, 'object.recon')
# dump_recon_cache expects recon_cache_path to exist
os.mkdir(self.recon_cache_path)
def tearDown(self):
super(TestWorkerReconstructor, self).tearDown()
shutil.rmtree(self.testdir)
def test_no_workers_by_default(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{}, logger=self.logger)
self.assertEqual(0, reconstructor.reconstructor_workers)
self.assertEqual(0, len(list(reconstructor.get_worker_args())))
def test_bad_value_workers(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '-1'}, logger=self.logger)
self.assertEqual(-1, reconstructor.reconstructor_workers)
self.assertEqual(0, len(list(reconstructor.get_worker_args())))
def test_workers_with_no_devices(self):
def do_test(num_workers):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': num_workers}, logger=self.logger)
self.assertEqual(num_workers, reconstructor.reconstructor_workers)
self.assertEqual(1, len(list(reconstructor.get_worker_args())))
self.assertEqual([
{'override_partitions': [], 'override_devices': [],
'multiprocess_worker_index': 0},
], list(reconstructor.get_worker_args()))
do_test(1)
do_test(10)
def test_workers_with_devices_and_no_valid_overrides(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '2'}, logger=self.logger)
reconstructor.get_local_devices = lambda: ['sdb', 'sdc']
self.assertEqual(2, reconstructor.reconstructor_workers)
# N.B. sdz is not in local_devices so there are no devices to process
# but still expect a single worker process
worker_args = list(reconstructor.get_worker_args(
once=True, devices='sdz'))
self.assertEqual(1, len(worker_args))
self.assertEqual([{'override_partitions': [],
'override_devices': ['sdz'],
'multiprocess_worker_index': 0}],
worker_args)
# overrides are ignored in forever mode
worker_args = list(reconstructor.get_worker_args(
once=False, devices='sdz'))
self.assertEqual(2, len(worker_args))
self.assertEqual([
{'override_partitions': [], 'override_devices': ['sdb'],
'multiprocess_worker_index': 0},
{'override_partitions': [], 'override_devices': ['sdc'],
'multiprocess_worker_index': 1},
], worker_args)
def test_workers_with_devices(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '2'}, logger=self.logger)
reconstructor.get_local_devices = lambda: ['sdb', 'sdc']
self.assertEqual(2, reconstructor.reconstructor_workers)
self.assertEqual(2, len(list(reconstructor.get_worker_args())))
expected = [
{'override_partitions': [], 'override_devices': ['sdb'],
'multiprocess_worker_index': 0},
{'override_partitions': [], 'override_devices': ['sdc'],
'multiprocess_worker_index': 1},
]
worker_args = list(reconstructor.get_worker_args(once=False))
self.assertEqual(2, len(worker_args))
self.assertEqual(expected, worker_args)
worker_args = list(reconstructor.get_worker_args(once=True))
self.assertEqual(2, len(worker_args))
self.assertEqual(expected, worker_args)
def test_workers_with_devices_and_overrides(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '2'}, logger=self.logger)
reconstructor.get_local_devices = lambda: ['sdb', 'sdc']
self.assertEqual(2, reconstructor.reconstructor_workers)
# check we don't get more workers than override devices...
# N.B. sdz is not in local_devices so should be ignored for the
# purposes of generating workers
worker_args = list(reconstructor.get_worker_args(
once=True, devices='sdb,sdz', partitions='99,333'))
self.assertEqual(1, len(worker_args))
self.assertEqual(
[{'override_partitions': [99, 333], 'override_devices': ['sdb'],
'multiprocess_worker_index': 0}],
worker_args)
# overrides are ignored in forever mode
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '2'}, logger=self.logger)
reconstructor.get_local_devices = lambda: ['sdb', 'sdc']
worker_args = list(reconstructor.get_worker_args(
once=False, devices='sdb,sdz', partitions='99,333'))
self.assertEqual([
{'override_partitions': [], 'override_devices': ['sdb'],
'multiprocess_worker_index': 0},
{'override_partitions': [], 'override_devices': ['sdc'],
'multiprocess_worker_index': 1}
], worker_args)
def test_workers_with_lots_of_devices(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '2'}, logger=self.logger)
reconstructor.get_local_devices = lambda: [
'sdb', 'sdc', 'sdd', 'sde', 'sdf']
self.assertEqual(2, reconstructor.reconstructor_workers)
self.assertEqual(2, len(list(reconstructor.get_worker_args())))
self.assertEqual([
{'override_partitions': [],
'override_devices': ['sdb', 'sdd', 'sdf'],
'multiprocess_worker_index': 0},
{'override_partitions': [],
'override_devices': ['sdc', 'sde'],
'multiprocess_worker_index': 1},
], list(reconstructor.get_worker_args()))
def test_workers_with_lots_of_devices_and_overrides(self):
# check that override devices get distributed across workers
# in similar fashion to all devices
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '2'}, logger=self.logger)
reconstructor.get_local_devices = lambda: [
'sdb', 'sdc', 'sdd', 'sde', 'sdf']
self.assertEqual(2, reconstructor.reconstructor_workers)
worker_args = list(reconstructor.get_worker_args(
once=True, devices='sdb,sdd,sdf', partitions='99,333'))
# 3 devices to operate on, 2 workers -> one worker gets two devices
# and the other worker just gets one
self.assertEqual([{
'override_partitions': [99, 333],
'override_devices': ['sdb', 'sdf'],
'multiprocess_worker_index': 0,
}, {
'override_partitions': [99, 333],
'override_devices': ['sdd'],
'multiprocess_worker_index': 1,
}], worker_args)
# with 4 override devices, expect 2 per worker
worker_args = list(reconstructor.get_worker_args(
once=True, devices='sdb,sdc,sdd,sdf', partitions='99,333'))
self.assertEqual(2, len(worker_args))
self.assertEqual([
{'override_partitions': [99, 333],
'override_devices': ['sdb', 'sdd'],
'multiprocess_worker_index': 0},
{'override_partitions': [99, 333],
'override_devices': ['sdc', 'sdf'],
'multiprocess_worker_index': 1},
], worker_args)
def test_workers_with_lots_of_workers(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '10'}, logger=self.logger)
reconstructor.get_local_devices = lambda: ['sdb', 'sdc']
self.assertEqual(10, reconstructor.reconstructor_workers)
self.assertEqual(2, len(list(reconstructor.get_worker_args())))
self.assertEqual([
{'override_partitions': [], 'override_devices': ['sdb'],
'multiprocess_worker_index': 0},
{'override_partitions': [], 'override_devices': ['sdc'],
'multiprocess_worker_index': 1},
], list(reconstructor.get_worker_args()))
def test_workers_with_lots_of_workers_and_devices(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'reconstructor_workers': '10'}, logger=self.logger)
reconstructor.get_local_devices = lambda: [
'sdb', 'sdc', 'sdd', 'sde', 'sdf']
self.assertEqual(10, reconstructor.reconstructor_workers)
self.assertEqual(5, len(list(reconstructor.get_worker_args())))
self.assertEqual([
{'override_partitions': [], 'override_devices': ['sdb'],
'multiprocess_worker_index': 0},
{'override_partitions': [], 'override_devices': ['sdc'],
'multiprocess_worker_index': 1},
{'override_partitions': [], 'override_devices': ['sdd'],
'multiprocess_worker_index': 2},
{'override_partitions': [], 'override_devices': ['sde'],
'multiprocess_worker_index': 3},
{'override_partitions': [], 'override_devices': ['sdf'],
'multiprocess_worker_index': 4},
], list(reconstructor.get_worker_args()))
def test_workers_with_some_workers_and_devices(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{}, logger=self.logger)
reconstructor.get_local_devices = lambda: [
'd%s' % (i + 1) for i in range(21)]
# With more devices than workers, the work is spread out as evenly
# as we can manage. When number-of-devices is a multiple of
# number-of-workers, every worker has the same number of devices to
# operate on.
reconstructor.reconstructor_workers = 7
worker_args = list(reconstructor.get_worker_args())
self.assertEqual([len(a['override_devices']) for a in worker_args],
[3] * 7)
# When number-of-devices is not a multiple of number-of-workers,
# device counts differ by at most 1.
reconstructor.reconstructor_workers = 5
worker_args = list(reconstructor.get_worker_args())
self.assertEqual(
sorted([len(a['override_devices']) for a in worker_args]),
[4, 4, 4, 4, 5])
# With more workers than devices, we don't create useless workers.
# We'll only make one per device.
reconstructor.reconstructor_workers = 22
worker_args = list(reconstructor.get_worker_args())
self.assertEqual(
[len(a['override_devices']) for a in worker_args],
[1] * 21)
# This is true even if we have far more workers than devices.
reconstructor.reconstructor_workers = 2 ** 16
worker_args = list(reconstructor.get_worker_args())
self.assertEqual(
[len(a['override_devices']) for a in worker_args],
[1] * 21)
# Spot check one full result for sanity's sake
reconstructor.reconstructor_workers = 11
self.assertEqual([
{'override_partitions': [], 'override_devices': ['d1', 'd12'],
'multiprocess_worker_index': 0},
{'override_partitions': [], 'override_devices': ['d2', 'd13'],
'multiprocess_worker_index': 1},
{'override_partitions': [], 'override_devices': ['d3', 'd14'],
'multiprocess_worker_index': 2},
{'override_partitions': [], 'override_devices': ['d4', 'd15'],
'multiprocess_worker_index': 3},
{'override_partitions': [], 'override_devices': ['d5', 'd16'],
'multiprocess_worker_index': 4},
{'override_partitions': [], 'override_devices': ['d6', 'd17'],
'multiprocess_worker_index': 5},
{'override_partitions': [], 'override_devices': ['d7', 'd18'],
'multiprocess_worker_index': 6},
{'override_partitions': [], 'override_devices': ['d8', 'd19'],
'multiprocess_worker_index': 7},
{'override_partitions': [], 'override_devices': ['d9', 'd20'],
'multiprocess_worker_index': 8},
{'override_partitions': [], 'override_devices': ['d10', 'd21'],
'multiprocess_worker_index': 9},
{'override_partitions': [], 'override_devices': ['d11'],
'multiprocess_worker_index': 10},
], list(reconstructor.get_worker_args()))
def test_next_rcache_update_configured_with_stats_interval(self):
now = time.time()
with mock.patch('swift.obj.reconstructor.time.time', return_value=now):
reconstructor = object_reconstructor.ObjectReconstructor(
{}, logger=self.logger)
self.assertEqual(now + 300, reconstructor._next_rcache_update)
reconstructor = object_reconstructor.ObjectReconstructor(
{'stats_interval': '30'}, logger=self.logger)
self.assertEqual(now + 30, reconstructor._next_rcache_update)
def test_is_healthy_rcache_update_waits_for_next_update(self):
now = time.time()
with mock.patch('swift.obj.reconstructor.time.time', return_value=now):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path},
logger=self.logger)
# file does not exist to start
self.assertFalse(os.path.exists(self.rcache))
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=10):
self.assertTrue(reconstructor.is_healthy())
# ... and isn't created until _next_rcache_update
self.assertFalse(os.path.exists(self.rcache))
# ... but if we wait 5 mins (by default)
orig_next_update = reconstructor._next_rcache_update
with mock.patch('swift.obj.reconstructor.time.time',
return_value=now + 301):
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=11):
self.assertTrue(reconstructor.is_healthy())
self.assertGreater(reconstructor._next_rcache_update, orig_next_update)
# ... it will be created
self.assertTrue(os.path.exists(self.rcache))
with open(self.rcache) as f:
data = json.load(f)
# and empty
self.assertEqual({}, data)
def test_is_healthy(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path},
logger=self.logger)
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=10):
self.assertTrue(reconstructor.is_healthy())
reconstructor.get_local_devices = lambda: {
'sdb%d' % p for p in reconstructor.policies}
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=11):
self.assertFalse(reconstructor.is_healthy())
reconstructor.all_local_devices = {
'sdb%d' % p for p in reconstructor.policies}
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=12):
self.assertTrue(reconstructor.is_healthy())
def test_is_healthy_detects_ring_change(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path,
'reconstructor_workers': 1,
# bind ip and port will not match any dev in first version of ring
'bind_ip': '10.0.0.20', 'bind_port': '1020'},
logger=self.logger)
p = random.choice(reconstructor.policies)
self.assertEqual(14, len(p.object_ring.devs)) # sanity check
worker_args = list(reconstructor.get_worker_args())
self.assertFalse(worker_args[0]['override_devices']) # no local devs
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=10):
self.assertTrue(reconstructor.is_healthy())
# expand ring - now there are local devices
p.object_ring.set_replicas(28)
self.assertEqual(28, len(p.object_ring.devs)) # sanity check
# If ring.gz mtime did not change, there is no change to detect
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=10):
self.assertTrue(reconstructor.is_healthy())
# Now, ring.gz mtime changed, so the change will be detected
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=11):
self.assertFalse(reconstructor.is_healthy())
self.assertNotEqual(worker_args, list(reconstructor.get_worker_args()))
with mock.patch('swift.obj.reconstructor.os.path.getmtime',
return_value=12):
self.assertTrue(reconstructor.is_healthy())
def test_final_recon_dump(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path},
logger=self.logger)
reconstructor.all_local_devices = ['sda', 'sdc']
total = 12.0
now = time.time()
with mock.patch('swift.obj.reconstructor.time.time', return_value=now):
reconstructor.final_recon_dump(total)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': now,
'object_reconstruction_time': total,
}, data)
total = 14.0
now += total * 60
with mock.patch('swift.obj.reconstructor.time.time', return_value=now):
reconstructor.final_recon_dump(total)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': now,
'object_reconstruction_time': total,
}, data)
def check_per_disk_stats(before, now, old_total, total,
override_devices):
with mock.patch('swift.obj.reconstructor.time.time',
return_value=now), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-1'):
reconstructor.final_recon_dump(
total, override_devices=override_devices)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': before,
'object_reconstruction_time': old_total,
'object_reconstruction_per_disk': {
'sda': {
'object_reconstruction_last': now,
'object_reconstruction_time': total,
'pid': 'pid-1',
},
'sdc': {
'object_reconstruction_last': now,
'object_reconstruction_time': total,
'pid': 'pid-1',
},
},
}, data)
# per_disk_stats with workers and local_devices
reconstructor.reconstructor_workers = 1
old_total = total
total = 16.0
before = now
now += total * 60
check_per_disk_stats(before, now, old_total, total, ['sda', 'sdc'])
# per_disk_stats with workers and local_devices but no overrides
reconstructor.reconstructor_workers = 1
total = 17.0
now += total * 60
check_per_disk_stats(before, now, old_total, total, [])
# and without workers we clear it out
reconstructor.reconstructor_workers = 0
total = 18.0
now += total * 60
with mock.patch('swift.obj.reconstructor.time.time', return_value=now):
reconstructor.final_recon_dump(total)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': now,
'object_reconstruction_time': total,
}, data)
# set per disk stats again...
reconstructor.reconstructor_workers = 1
old_total = total
total = 18.0
before = now
now += total * 60
check_per_disk_stats(before, now, old_total, total, ['sda', 'sdc'])
# ...then remove all devices and check we clear out per-disk stats
reconstructor.all_local_devices = []
total = 20.0
now += total * 60
with mock.patch('swift.obj.reconstructor.time.time', return_value=now):
reconstructor.final_recon_dump(total)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': now,
'object_reconstruction_time': total,
}, data)
def test_dump_recon_run_once_inline(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path},
logger=self.logger)
reconstructor.reconstruct = mock.MagicMock()
now = time.time()
later = now + 300 # 5 mins
with mock.patch('swift.obj.reconstructor.time.time', side_effect=[
now, later, later]):
reconstructor.run_once()
# no override args passed to reconstruct
self.assertEqual([mock.call(
override_devices=[],
override_partitions=[]
)], reconstructor.reconstruct.call_args_list)
# script mode with no override args, we expect recon dumps
self.assertTrue(os.path.exists(self.rcache))
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
}, data)
total = 10.0
later += total * 60
with mock.patch('swift.obj.reconstructor.time.time',
return_value=later):
reconstructor.final_recon_dump(total)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': later,
'object_reconstruction_time': 10.0,
}, data)
def test_dump_recon_run_once_in_worker(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path,
'reconstructor_workers': 1},
logger=self.logger)
reconstructor.get_local_devices = lambda: {'sda'}
now = time.time()
later = now + 300 # 5 mins
def do_test(run_kwargs, expected_device):
# get the actual kwargs that would be passed to run_once in a
# worker
run_once_kwargs = list(
reconstructor.get_worker_args(once=True, **run_kwargs))[0]
reconstructor.reconstruct = mock.MagicMock()
with mock.patch('swift.obj.reconstructor.time.time',
side_effect=[now, later, later]):
reconstructor.run_once(**run_once_kwargs)
self.assertEqual([mock.call(
override_devices=[expected_device],
override_partitions=[]
)], reconstructor.reconstruct.call_args_list)
self.assertTrue(os.path.exists(self.rcache))
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
# no aggregate is written but perhaps it should be, in which
# case this assertion will need to change
'object_reconstruction_per_disk': {
expected_device: {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': mock.ANY
}
}
}, data)
# script mode with no CLI override args, we expect recon dumps
do_test({}, 'sda')
# script mode *with* CLI override devices, we expect recon dumps
os.unlink(self.rcache)
do_test(dict(devices='sda'), 'sda')
# if the override device is not in local devices we still get
# a recon dump, but it'll get cleaned up in the next aggregation
os.unlink(self.rcache)
do_test(dict(devices='sdz'), 'sdz')
# repeat with no local devices
reconstructor.get_local_devices = lambda: set()
os.unlink(self.rcache)
do_test(dict(devices='sdz'), 'sdz')
# now disable workers and check that inline run_once updates rcache
# and clears out per disk stats
reconstructor.get_local_devices = lambda: {'sda'}
now = time.time()
later = now + 600 # 10 mins
reconstructor.reconstructor_workers = 0
with mock.patch('swift.obj.reconstructor.time.time',
side_effect=[now, later, later]):
reconstructor.run_once()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': later,
'object_reconstruction_time': 10.0,
}, data)
def test_no_dump_recon_run_once(self):
reconstructor = object_reconstructor.ObjectReconstructor(
{'recon_cache_path': self.recon_cache_path},
logger=self.logger)
reconstructor.get_local_devices = lambda: {'sda', 'sdb', 'sdc'}
def do_test(run_once_kwargs, expected_devices, expected_partitions):
reconstructor.reconstruct = mock.MagicMock()
now = time.time()
later = now + 300 # 5 mins
with mock.patch('swift.obj.reconstructor.time.time', side_effect=[
now, later, later]):
reconstructor.run_once(**run_once_kwargs)
# override args passed to reconstruct
actual_calls = reconstructor.reconstruct.call_args_list
self.assertEqual({'override_devices', 'override_partitions'},
set(actual_calls[0][1]))
self.assertEqual(sorted(expected_devices),
sorted(actual_calls[0][1]['override_devices']))
self.assertEqual(sorted(expected_partitions),
sorted(actual_calls[0][1]['override_partitions']))
self.assertFalse(actual_calls[1:])
self.assertEqual(False, os.path.exists(self.rcache))
# inline mode with overrides never does recon dump
reconstructor.reconstructor_workers = 0
kwargs = {'devices': 'sda,sdb'}
do_test(kwargs, ['sda', 'sdb'], [])
# Have partition override, so no recon dump
kwargs = {'partitions': '1,2,3'}
do_test(kwargs, [], [1, 2, 3])
reconstructor.reconstructor_workers = 1
worker_kwargs = list(
reconstructor.get_worker_args(once=True, **kwargs))[0]
do_test(worker_kwargs, ['sda', 'sdb', 'sdc'], [1, 2, 3])
reconstructor.reconstructor_workers = 0
kwargs = {'devices': 'sda,sdb', 'partitions': '1,2,3'}
do_test(kwargs, ['sda', 'sdb'], [1, 2, 3])
reconstructor.reconstructor_workers = 1
worker_kwargs = list(
reconstructor.get_worker_args(once=True, **kwargs))[0]
do_test(worker_kwargs, ['sda', 'sdb'], [1, 2, 3])
# 'sdz' is not in local devices
reconstructor.reconstructor_workers = 0
kwargs = {'devices': 'sdz'}
do_test(kwargs, ['sdz'], [])
def test_run_forever_recon_aggregation(self):
class StopForever(Exception):
pass
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 2,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
reconstructor.get_local_devices = lambda: ['sda', 'sdb', 'sdc', 'sdd']
reconstructor.reconstruct = mock.MagicMock()
now = time.time()
later = now + 300 # 5 mins
worker_args = list(
# include 'devices' kwarg as a sanity check - it should be ignored
# in run_forever mode
reconstructor.get_worker_args(once=False, devices='sda'))
with mock.patch('swift.obj.reconstructor.time.time',
side_effect=[now, later, later]), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-1'), \
mock.patch('swift.obj.reconstructor.sleep',
side_effect=[StopForever]), \
Timeout(.3), quiet_eventlet_exceptions(), \
self.assertRaises(StopForever):
gt = spawn(reconstructor.run_forever, **worker_args[0])
gt.wait()
# override args are passed to reconstruct
self.assertEqual([mock.call(
override_devices=['sda', 'sdc'],
override_partitions=[]
)], reconstructor.reconstruct.call_args_list)
# forever mode with override args, we expect per-disk recon dumps
self.assertTrue(os.path.exists(self.rcache))
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'sda': {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': 'pid-1',
},
'sdc': {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': 'pid-1',
},
}
}, data)
reconstructor.reconstruct.reset_mock()
# another worker would get *different* disks
before = now = later
later = now + 300 # 5 more minutes
with mock.patch('swift.obj.reconstructor.time.time',
side_effect=[now, later, later]), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-2'), \
mock.patch('swift.obj.reconstructor.sleep',
side_effect=[StopForever]), \
Timeout(.3), quiet_eventlet_exceptions(), \
self.assertRaises(StopForever):
gt = spawn(reconstructor.run_forever, **worker_args[1])
gt.wait()
# override args are parsed
self.assertEqual([mock.call(
override_devices=['sdb', 'sdd'],
override_partitions=[]
)], reconstructor.reconstruct.call_args_list)
# forever mode with override args, we expect per-disk recon dumps
self.assertTrue(os.path.exists(self.rcache))
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'sda': {
'object_reconstruction_last': before,
'object_reconstruction_time': 5.0,
'pid': 'pid-1',
},
'sdb': {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': 'pid-2',
},
'sdc': {
'object_reconstruction_last': before,
'object_reconstruction_time': 5.0,
'pid': 'pid-1',
},
'sdd': {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': 'pid-2',
},
}
}, data)
# aggregation is done in the parent thread even later
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': later,
'object_reconstruction_time': 10.0,
'object_reconstruction_per_disk': {
'sda': {
'object_reconstruction_last': before,
'object_reconstruction_time': 5.0,
'pid': 'pid-1',
},
'sdb': {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': 'pid-2',
},
'sdc': {
'object_reconstruction_last': before,
'object_reconstruction_time': 5.0,
'pid': 'pid-1',
},
'sdd': {
'object_reconstruction_last': later,
'object_reconstruction_time': 5.0,
'pid': 'pid-2',
},
}
}, data)
def test_run_forever_recon_no_devices(self):
class StopForever(Exception):
pass
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 2,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
def run_forever_but_stop(pid, mock_times, worker_kwargs):
with mock.patch('swift.obj.reconstructor.time.time',
side_effect=mock_times), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value=pid), \
mock.patch('swift.obj.reconstructor.sleep',
side_effect=[StopForever]), \
Timeout(.3), quiet_eventlet_exceptions(), \
self.assertRaises(StopForever):
gt = spawn(reconstructor.run_forever, **worker_kwargs)
gt.wait()
reconstructor.reconstruct = mock.MagicMock()
now = time.time()
# first run_forever with no devices
reconstructor.get_local_devices = lambda: []
later = now + 6 # 6 sec
worker_args = list(
# include 'devices' kwarg as a sanity check - it should be ignored
# in run_forever mode
reconstructor.get_worker_args(once=False, devices='sda'))
run_forever_but_stop('pid-1', [now, later, later], worker_args[0])
# override args are passed to reconstruct
self.assertEqual([mock.call(
override_devices=[],
override_partitions=[]
)], reconstructor.reconstruct.call_args_list)
# forever mode with no args, we expect total recon dumps
self.assertTrue(os.path.exists(self.rcache))
with open(self.rcache) as f:
data = json.load(f)
expected = {
'object_reconstruction_last': later,
'object_reconstruction_time': 0.1,
}
self.assertEqual(expected, data)
reconstructor.reconstruct.reset_mock()
# aggregation is done in the parent thread even later
now = later + 300
with mock.patch('swift.obj.reconstructor.time.time',
side_effect=[now]):
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual(expected, data)
def test_recon_aggregation_waits_for_all_devices(self):
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 2,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
reconstructor.all_local_devices = set([
'd0', 'd1', 'd2', 'd3',
# unreported device definitely matters
'd4'])
start = time.time() - 1000
for i in range(4):
with mock.patch('swift.obj.reconstructor.time.time',
return_value=start + (300 * i)), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-%s' % i):
reconstructor.final_recon_dump(
i, override_devices=['d%s' % i])
# sanity
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 0.0,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 300,
'object_reconstruction_time': 1,
'pid': 'pid-1',
},
'd2': {
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 2,
'pid': 'pid-2',
},
'd3': {
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 3,
'pid': 'pid-3',
},
}
}, data)
# unreported device d4 prevents aggregation
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertNotIn('object_reconstruction_last', data)
self.assertNotIn('object_reconstruction_time', data)
self.assertEqual(set(['d0', 'd1', 'd2', 'd3']),
set(data['object_reconstruction_per_disk'].keys()))
# it's idempotent
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertNotIn('object_reconstruction_last', data)
self.assertNotIn('object_reconstruction_time', data)
self.assertEqual(set(['d0', 'd1', 'd2', 'd3']),
set(data['object_reconstruction_per_disk'].keys()))
# remove d4, we no longer wait on it for aggregation
reconstructor.all_local_devices = set(['d0', 'd1', 'd2', 'd3'])
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual(start + 900, data['object_reconstruction_last'])
self.assertEqual(15, data['object_reconstruction_time'])
self.assertEqual(set(['d0', 'd1', 'd2', 'd3']),
set(data['object_reconstruction_per_disk'].keys()))
def test_recon_aggregation_removes_devices(self):
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 2,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
reconstructor.all_local_devices = set(['d0', 'd1', 'd2', 'd3'])
start = time.time() - 1000
for i in range(4):
with mock.patch('swift.obj.reconstructor.time.time',
return_value=start + (300 * i)), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-%s' % i):
reconstructor.final_recon_dump(
i, override_devices=['d%s' % i])
# sanity
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 0.0,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 300,
'object_reconstruction_time': 1,
'pid': 'pid-1',
},
'd2': {
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 2,
'pid': 'pid-2',
},
'd3': {
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 3,
'pid': 'pid-3',
},
}
}, data)
reconstructor.all_local_devices = set(['d0', 'd1', 'd2', 'd3'])
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual(start + 900, data['object_reconstruction_last'])
self.assertEqual(15, data['object_reconstruction_time'])
self.assertEqual(set(['d0', 'd1', 'd2', 'd3']),
set(data['object_reconstruction_per_disk'].keys()))
# it's idempotent
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 15,
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 0.0,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 300,
'object_reconstruction_time': 1,
'pid': 'pid-1',
},
'd2': {
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 2,
'pid': 'pid-2',
},
'd3': {
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 3,
'pid': 'pid-3',
},
}
}, data)
# if a device is removed from the ring
reconstructor.all_local_devices = set(['d1', 'd2', 'd3'])
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
# ... it's per-disk stats are removed (d0)
self.assertEqual({
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 11,
'object_reconstruction_per_disk': {
'd1': {
'object_reconstruction_last': start + 300,
'object_reconstruction_time': 1,
'pid': 'pid-1',
},
'd2': {
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 2,
'pid': 'pid-2',
},
'd3': {
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 3,
'pid': 'pid-3',
},
}
}, data)
# which can affect the aggregates!
reconstructor.all_local_devices = set(['d1', 'd2'])
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 6,
'object_reconstruction_per_disk': {
'd1': {
'object_reconstruction_last': start + 300,
'object_reconstruction_time': 1,
'pid': 'pid-1',
},
'd2': {
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 2,
'pid': 'pid-2',
},
}
}, data)
def test_recon_aggregation_at_end_of_run_once(self):
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 2,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
reconstructor.all_local_devices = set(['d0', 'd1', 'd2', 'd3'])
start = time.time() - 1000
for i in range(4):
with mock.patch('swift.obj.reconstructor.time.time',
return_value=start + (300 * i)), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-%s' % i):
reconstructor.final_recon_dump(
i, override_devices=['d%s' % i])
# sanity
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 0.0,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 300,
'object_reconstruction_time': 1,
'pid': 'pid-1',
},
'd2': {
'object_reconstruction_last': start + 600,
'object_reconstruction_time': 2,
'pid': 'pid-2',
},
'd3': {
'object_reconstruction_last': start + 900,
'object_reconstruction_time': 3,
'pid': 'pid-3',
},
}
}, data)
reconstructor.post_multiprocess_run()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual(start + 900, data['object_reconstruction_last'])
self.assertEqual(15, data['object_reconstruction_time'])
def test_recon_aggregation_races_with_final_recon_dump(self):
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 2,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
reconstructor.all_local_devices = set(['d0', 'd1'])
start = time.time() - 1000
# first worker dumps to recon cache
with mock.patch('swift.obj.reconstructor.time.time',
return_value=start), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-0'):
reconstructor.final_recon_dump(
1, override_devices=['d0'])
# sanity
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 1,
'pid': 'pid-0',
},
}
}, data)
# simulate a second worker concurrently dumping to recon cache while
# parent is aggregating existing results; mock dump_recon_cache as a
# convenient way to interrupt parent aggregate_recon_update and 'pass
# control' to second worker
updated_data = [] # state of recon cache just after second worker dump
def simulate_other_process_final_recon_dump():
with mock.patch('swift.obj.reconstructor.time.time',
return_value=start + 999), \
mock.patch('swift.obj.reconstructor.os.getpid',
return_value='pid-1'):
reconstructor.final_recon_dump(
1000, override_devices=['d1'])
with open(self.rcache) as f:
updated_data.append(json.load(f))
def fake_dump_recon_cache(*args, **kwargs):
# temporarily put back real dump_recon_cache
with mock.patch('swift.obj.reconstructor.dump_recon_cache',
dump_recon_cache):
simulate_other_process_final_recon_dump()
# and now proceed with parent dump_recon_cache
dump_recon_cache(*args, **kwargs)
reconstructor.dump_recon_cache = fake_dump_recon_cache
with mock.patch('swift.obj.reconstructor.dump_recon_cache',
fake_dump_recon_cache):
reconstructor.aggregate_recon_update()
self.assertEqual([{ # sanity check - second process did dump its data
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 1,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 999,
'object_reconstruction_time': 1000,
'pid': 'pid-1',
},
}
}], updated_data)
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 1,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 999,
'object_reconstruction_time': 1000,
'pid': 'pid-1',
},
}
}, data)
# next aggregation will find d1 stats
reconstructor.aggregate_recon_update()
with open(self.rcache) as f:
data = json.load(f)
self.assertEqual({
'object_reconstruction_last': start + 999,
'object_reconstruction_time': 1000,
'object_reconstruction_per_disk': {
'd0': {
'object_reconstruction_last': start,
'object_reconstruction_time': 1,
'pid': 'pid-0',
},
'd1': {
'object_reconstruction_last': start + 999,
'object_reconstruction_time': 1000,
'pid': 'pid-1',
},
}
}, data)
def test_worker_logging(self):
reconstructor = object_reconstructor.ObjectReconstructor({
'reconstructor_workers': 4,
'recon_cache_path': self.recon_cache_path
}, logger=self.logger)
def log_some_stuff(*a, **kw):
reconstructor.logger.debug("debug message")
reconstructor.logger.info("info message")
reconstructor.logger.warning("warning message")
reconstructor.logger.error("error message")
with mock.patch.object(reconstructor, 'reconstruct',
log_some_stuff), \
mock.patch("os.getpid", lambda: 20641):
reconstructor.get_worker_args()
reconstructor.run_once(multiprocess_worker_index=1,
override_devices=['sda', 'sdb'])
prefix = "[worker 2/4 pid=20641] "
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))
@patch_policies(with_ec_default=True)
class BaseTestObjectReconstructor(unittest.TestCase):
def setUp(self):
skip_if_no_xattrs()
self.policy = POLICIES.default
self.policy.object_ring._rtime = time.time() + 3600
self.testdir = tempfile.mkdtemp()
self.devices = os.path.join(self.testdir, 'devices')
self.local_dev = self.policy.object_ring.devs[0]
self.ip = self.local_dev['replication_ip']
self.port = self.local_dev['replication_port']
self.conf = {
'devices': self.devices,
'mount_check': False,
'bind_ip': self.ip,
'bind_port': self.port,
}
self.logger = debug_logger('object-reconstructor')
self._configure_reconstructor()
self.policy.object_ring.max_more_nodes = \
self.policy.object_ring.replicas
self.ts_iter = make_timestamp_iter()
self.fabricated_ring = FabricatedRing(replicas=14, devices=28)
def _configure_reconstructor(self, **kwargs):
self.conf.update(kwargs)
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.reconstructor._reset_stats()
# some tests bypass build_reconstruction_jobs and go to process_job
# directly, so you end up with a /0 when you try to show the
# percentage of complete jobs as ratio of the total job count
self.reconstructor.job_count = 1
# if we ever let a test through without properly patching the
# REPLICATE and SSYNC calls - let's fail sort fast-ish
self.reconstructor.lockup_timeout = 3
def tearDown(self):
self.reconstructor._reset_stats()
self.reconstructor.stats_line()
shutil.rmtree(self.testdir)
def ts(self):
return next(self.ts_iter)
class TestObjectReconstructor(BaseTestObjectReconstructor):
def test_handoffs_only_default(self):
# sanity neither option added to default conf
self.conf.pop('handoffs_first', None)
self.conf.pop('handoffs_only', None)
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertFalse(self.reconstructor.handoffs_only)
def test_handoffs_first_enables_handoffs_only(self):
self.conf['handoffs_first'] = "True"
self.conf.pop('handoffs_only', None) # sanity
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertTrue(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'The handoffs_first option is deprecated in favor '
'of handoffs_only. This option may be ignored in a '
'future release.',
'Handoff only mode is not intended for normal operation, '
'use handoffs_only with care.',
]
self.assertEqual(expected, warnings)
def test_handoffs_only_ignores_handoffs_first(self):
self.conf['handoffs_first'] = "True"
self.conf['handoffs_only'] = "False"
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertFalse(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'The handoffs_first option is deprecated in favor of '
'handoffs_only. This option may be ignored in a future release.',
'Ignored handoffs_first option in favor of handoffs_only.',
]
self.assertEqual(expected, warnings)
def test_handoffs_only_enabled(self):
self.conf.pop('handoffs_first', None) # sanity
self.conf['handoffs_only'] = "True"
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertTrue(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'Handoff only mode is not intended for normal operation, '
'use handoffs_only with care.',
]
self.assertEqual(expected, warnings)
def test_handoffs_only_true_and_first_true(self):
self.conf['handoffs_first'] = "True"
self.conf['handoffs_only'] = "True"
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertTrue(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'The handoffs_first option is deprecated in favor of '
'handoffs_only. This option may be ignored in a future release.',
'Handoff only mode is not intended for normal operation, '
'use handoffs_only with care.',
]
self.assertEqual(expected, warnings)
def test_handoffs_only_false_and_first_false(self):
self.conf['handoffs_only'] = "False"
self.conf['handoffs_first'] = "False"
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertFalse(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'The handoffs_first option is deprecated in favor of '
'handoffs_only. This option may be ignored in a future release.',
]
self.assertEqual(expected, warnings)
def test_handoffs_only_none_and_first_false(self):
self.conf['handoffs_first'] = "False"
self.conf.pop('handoffs_only', None) # sanity
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertFalse(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'The handoffs_first option is deprecated in favor of '
'handoffs_only. This option may be ignored in a future release.',
]
self.assertEqual(expected, warnings)
def test_handoffs_only_false_and_first_none(self):
self.conf.pop('handoffs_first', None) # sanity
self.conf['handoffs_only'] = "False"
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertFalse(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
self.assertFalse(warnings)
def test_handoffs_only_true_and_first_false(self):
self.conf['handoffs_first'] = "False"
self.conf['handoffs_only'] = "True"
self.reconstructor = object_reconstructor.ObjectReconstructor(
self.conf, logger=self.logger)
self.assertTrue(self.reconstructor.handoffs_only)
warnings = self.logger.get_lines_for_level('warning')
expected = [
'The handoffs_first option is deprecated in favor of '
'handoffs_only. This option may be ignored in a future release.',
'Handoff only mode is not intended for normal operation, '
'use handoffs_only with care.',
]
self.assertEqual(expected, warnings)
def test_two_ec_policies(self):
with patch_policies([
StoragePolicy(0, name='zero', is_deprecated=True),
ECStoragePolicy(1, name='one', is_default=True,
ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=4, ec_nparity=3),
ECStoragePolicy(2, name='two',
ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=8, ec_nparity=2)],
fake_ring_args=[
{}, {'replicas': 7}, {'replicas': 10}]):
self._configure_reconstructor()
jobs = []
def process_job(job):
jobs.append(job)
self.reconstructor.process_job = process_job
os.makedirs(os.path.join(self.devices, 'sda', 'objects-1', '0'))
self.reconstructor.run_once()
self.assertEqual(1, len(jobs))
def test_collect_parts_skips_non_ec_policy_and_device(self):
stub_parts = (371, 78, 419, 834)
for policy in POLICIES:
datadir = diskfile.get_data_dir(policy)
for part in stub_parts:
utils.mkdirs(os.path.join(
self.devices, self.local_dev['device'],
datadir, str(part)))
part_infos = list(self.reconstructor.collect_parts())
found_parts = sorted(int(p['partition']) for p in part_infos)
self.assertEqual(found_parts, sorted(stub_parts))
for part_info in part_infos:
self.assertEqual(part_info['local_dev'], self.local_dev)
self.assertEqual(part_info['policy'], self.policy)
self.assertEqual(part_info['part_path'],
os.path.join(self.devices,
self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(part_info['partition'])))
def test_collect_parts_skips_non_local_devs_servers_per_port(self):
self._configure_reconstructor(devices=self.devices, mount_check=False,
bind_ip=self.ip, bind_port=self.port,
servers_per_port=2)
device_parts = {
'sda': (374,),
'sdb': (179, 807), # w/one-serv-per-port, same IP alone is local
'sdc': (363, 468, 843),
'sdd': (912,), # "not local" via different IP
}
for policy in POLICIES:
datadir = diskfile.get_data_dir(policy)
for dev, parts in device_parts.items():
for part in parts:
utils.mkdirs(os.path.join(
self.devices, dev,
datadir, str(part)))
# we're only going to add sda and sdc into the ring
local_devs = ('sda', 'sdb', 'sdc')
stub_ring_devs = [{
'id': i,
'device': dev,
'replication_ip': self.ip,
'replication_port': self.port + 1 if dev == 'sdb' else self.port,
} for i, dev in enumerate(local_devs)]
stub_ring_devs.append({
'id': len(local_devs),
'device': 'sdd',
'replication_ip': '127.0.0.88', # not local via IP
'replication_port': self.port,
})
self.reconstructor.bind_ip = '0.0.0.0' # use whataremyips
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs):
part_infos = list(self.reconstructor.collect_parts())
found_parts = sorted(int(p['partition']) for p in part_infos)
expected_parts = sorted(itertools.chain(
*(device_parts[d] for d in local_devs)))
self.assertEqual(found_parts, expected_parts)
for part_info in part_infos:
self.assertEqual(part_info['policy'], self.policy)
self.assertIn(part_info['local_dev'], stub_ring_devs)
dev = part_info['local_dev']
self.assertEqual(part_info['part_path'],
os.path.join(self.devices,
dev['device'],
diskfile.get_data_dir(self.policy),
str(part_info['partition'])))
def test_collect_parts_multi_device_skips_non_non_local_devs(self):
device_parts = {
'sda': (374,),
'sdb': (179, 807), # "not local" via different port
'sdc': (363, 468, 843),
'sdd': (912,), # "not local" via different IP
}
for policy in POLICIES:
datadir = diskfile.get_data_dir(policy)
for dev, parts in device_parts.items():
for part in parts:
utils.mkdirs(os.path.join(
self.devices, dev,
datadir, str(part)))
# we're only going to add sda and sdc into the ring
local_devs = ('sda', 'sdc')
stub_ring_devs = [{
'id': i,
'device': dev,
'replication_ip': self.ip,
'replication_port': self.port,
} for i, dev in enumerate(local_devs)]
stub_ring_devs.append({
'id': len(local_devs),
'device': 'sdb',
'replication_ip': self.ip,
'replication_port': self.port + 1, # not local via port
})
stub_ring_devs.append({
'id': len(local_devs) + 1,
'device': 'sdd',
'replication_ip': '127.0.0.88', # not local via IP
'replication_port': self.port,
})
self.reconstructor.bind_ip = '0.0.0.0' # use whataremyips
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs):
part_infos = list(self.reconstructor.collect_parts())
found_parts = sorted(int(p['partition']) for p in part_infos)
expected_parts = sorted(itertools.chain(
*(device_parts[d] for d in local_devs)))
self.assertEqual(found_parts, expected_parts)
for part_info in part_infos:
self.assertEqual(part_info['policy'], self.policy)
self.assertIn(part_info['local_dev'], stub_ring_devs)
dev = part_info['local_dev']
self.assertEqual(part_info['part_path'],
os.path.join(self.devices,
dev['device'],
diskfile.get_data_dir(self.policy),
str(part_info['partition'])))
def test_collect_parts_multi_device_skips_non_ring_devices(self):
device_parts = {
'sda': (374,),
'sdc': (363, 468, 843),
}
for policy in POLICIES:
datadir = diskfile.get_data_dir(policy)
for dev, parts in device_parts.items():
for part in parts:
utils.mkdirs(os.path.join(
self.devices, dev,
datadir, str(part)))
# we're only going to add sda and sdc into the ring
local_devs = ('sda', 'sdc')
stub_ring_devs = [{
'id': i,
'device': dev,
'replication_ip': self.ip,
'replication_port': self.port,
} for i, dev in enumerate(local_devs)]
self.reconstructor.bind_ip = '0.0.0.0' # use whataremyips
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs):
part_infos = list(self.reconstructor.collect_parts())
found_parts = sorted(int(p['partition']) for p in part_infos)
expected_parts = sorted(itertools.chain(
*(device_parts[d] for d in local_devs)))
self.assertEqual(found_parts, expected_parts)
for part_info in part_infos:
self.assertEqual(part_info['policy'], self.policy)
self.assertIn(part_info['local_dev'], stub_ring_devs)
dev = part_info['local_dev']
self.assertEqual(part_info['part_path'],
os.path.join(self.devices,
dev['device'],
diskfile.get_data_dir(self.policy),
str(part_info['partition'])))
def test_collect_parts_mount_check(self):
# each device has one part in it
local_devs = ('sda', 'sdb')
for i, dev in enumerate(local_devs):
datadir = diskfile.get_data_dir(self.policy)
utils.mkdirs(os.path.join(
self.devices, dev, datadir, str(i)))
stub_ring_devs = [{
'id': i,
'device': dev,
'replication_ip': self.ip,
'replication_port': self.port
} for i, dev in enumerate(local_devs)]
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs):
part_infos = list(self.reconstructor.collect_parts())
self.assertEqual(2, len(part_infos)) # sanity
self.assertEqual(set(int(p['partition']) for p in part_infos),
set([0, 1]))
paths = []
def fake_check_drive(devices, device, mount_check):
path = os.path.join(devices, device)
if (not mount_check) and os.path.isdir(path):
# while mount_check is false, the test still creates the dirs
paths.append(path)
return path
return None
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs), \
mock.patch('swift.obj.diskfile.check_drive',
fake_check_drive):
part_infos = list(self.reconstructor.collect_parts())
self.assertEqual(2, len(part_infos)) # sanity, same jobs
self.assertEqual(set(int(p['partition']) for p in part_infos),
set([0, 1]))
# ... because fake_check_drive returned paths for both dirs
self.assertEqual(set(paths), set([
os.path.join(self.devices, dev) for dev in local_devs]))
# ... now with mount check
self._configure_reconstructor(mount_check=True)
self.assertTrue(self.reconstructor.mount_check)
paths = []
for policy in POLICIES:
self.assertTrue(self.reconstructor._df_router[policy].mount_check)
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs), \
mock.patch('swift.obj.diskfile.check_drive',
fake_check_drive):
part_infos = list(self.reconstructor.collect_parts())
self.assertEqual([], part_infos) # sanity, no jobs
# ... because fake_check_drive returned False for both paths
self.assertFalse(paths)
def fake_check_drive(devices, device, mount_check):
self.assertTrue(mount_check)
if device == 'sda':
return os.path.join(devices, device)
else:
return False
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs), \
mock.patch('swift.obj.diskfile.check_drive',
fake_check_drive):
part_infos = list(self.reconstructor.collect_parts())
self.assertEqual(1, len(part_infos)) # only sda picked up (part 0)
self.assertEqual(part_infos[0]['partition'], 0)
def test_collect_parts_cleans_tmp(self):
local_devs = ('sda', 'sdc')
stub_ring_devs = [{
'id': i,
'device': dev,
'replication_ip': self.ip,
'replication_port': self.port
} for i, dev in enumerate(local_devs)]
for device in local_devs:
utils.mkdirs(os.path.join(self.devices, device))
fake_unlink = mock.MagicMock()
self._configure_reconstructor(reclaim_age=1000)
now = time.time()
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch('swift.obj.reconstructor.time.time',
return_value=now), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs), \
mock.patch('swift.obj.reconstructor.unlink_older_than',
fake_unlink):
self.assertEqual([], list(self.reconstructor.collect_parts()))
# each local device hash unlink_older_than called on it,
# with now - self.reclaim_age
tmpdir = diskfile.get_tmp_dir(self.policy)
expected = now - 1000
self.assertEqual(fake_unlink.mock_calls, [
mock.call(os.path.join(self.devices, dev, tmpdir), expected)
for dev in local_devs])
def test_collect_parts_creates_datadir(self):
# create just the device path
dev_path = os.path.join(self.devices, self.local_dev['device'])
utils.mkdirs(dev_path)
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]):
self.assertEqual([], list(self.reconstructor.collect_parts()))
datadir_path = os.path.join(dev_path,
diskfile.get_data_dir(self.policy))
self.assertTrue(os.path.exists(datadir_path))
def test_collect_parts_creates_datadir_error(self):
# create just the device path
datadir_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy))
utils.mkdirs(os.path.dirname(datadir_path))
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch('swift.obj.reconstructor.mkdirs',
side_effect=OSError('kaboom!')):
self.assertEqual([], list(self.reconstructor.collect_parts()))
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(len(error_lines), 1,
'Expected only one error, got %r' % error_lines)
line = error_lines[0]
self.assertIn('Unable to create', line)
self.assertIn(datadir_path, line)
def test_collect_parts_skips_invalid_paths(self):
datadir_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy))
utils.mkdirs(os.path.dirname(datadir_path))
with open(datadir_path, 'w') as f:
f.write('junk')
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]):
self.assertEqual([], list(self.reconstructor.collect_parts()))
self.assertTrue(os.path.exists(datadir_path))
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(len(error_lines), 1,
'Expected only one error, got %r' % error_lines)
line = error_lines[0]
self.assertIn('Unable to list partitions', line)
self.assertIn(datadir_path, line)
def test_reconstruct_removes_non_partition_files(self):
# create some junk next to partitions
datadir_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy))
num_parts = 3
for part in range(num_parts):
utils.mkdirs(os.path.join(datadir_path, str(part)))
# Add some clearly non-partition dentries
utils.mkdirs(os.path.join(datadir_path, 'not/a/partition'))
for junk_name in ('junk', '1234'):
junk_file = os.path.join(datadir_path, junk_name)
with open(junk_file, 'w') as f:
f.write('junk')
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch('swift.obj.reconstructor.'
'ObjectReconstructor.process_job'):
self.reconstructor.reconstruct()
# all the bad gets cleaned up
errors = []
for junk_name in ('junk', '1234', 'not'):
junk_file = os.path.join(datadir_path, junk_name)
if os.path.exists(junk_file):
errors.append('%s still exists!' % junk_file)
self.assertFalse(errors)
error_lines = self.logger.get_lines_for_level('warning')
self.assertIn('Unexpected entity in data dir: %r'
% os.path.join(datadir_path, 'not'), error_lines)
self.assertIn('Unexpected entity in data dir: %r'
% os.path.join(datadir_path, 'junk'), error_lines)
self.assertIn('Unexpected entity %r is not a directory'
% os.path.join(datadir_path, '1234'), error_lines)
self.assertEqual(self.reconstructor.reconstruction_part_count, 6)
def test_collect_parts_overrides(self):
# setup multiple devices, with multiple parts
device_parts = {
'sda': (374, 843),
'sdb': (179, 807),
'sdc': (363, 468, 843),
}
datadir = diskfile.get_data_dir(self.policy)
for dev, parts in device_parts.items():
for part in parts:
utils.mkdirs(os.path.join(
self.devices, dev,
datadir, str(part)))
# we're only going to add sda and sdc into the ring
local_devs = ('sda', 'sdc')
stub_ring_devs = [{
'id': i,
'device': dev,
'replication_ip': self.ip,
'replication_port': self.port
} for i, dev in enumerate(local_devs)]
expected = (
({}, [
('sda', 374),
('sda', 843),
('sdc', 363),
('sdc', 468),
('sdc', 843),
]),
({'override_devices': ['sda', 'sdc']}, [
('sda', 374),
('sda', 843),
('sdc', 363),
('sdc', 468),
('sdc', 843),
]),
({'override_devices': ['sdc']}, [
('sdc', 363),
('sdc', 468),
('sdc', 843),
]),
({'override_devices': ['sda']}, [
('sda', 374),
('sda', 843),
]),
({'override_devices': ['sdx']}, []),
({'override_partitions': [374]}, [
('sda', 374),
]),
({'override_partitions': [843]}, [
('sda', 843),
('sdc', 843),
]),
({'override_partitions': [843], 'override_devices': ['sda']}, [
('sda', 843),
]),
)
with mock.patch('swift.obj.reconstructor.whataremyips',
return_value=[self.ip]), \
mock.patch.object(self.policy.object_ring, '_devs',
new=stub_ring_devs):
for kwargs, expected_parts in expected:
part_infos = list(self.reconstructor.collect_parts(**kwargs))
expected_paths = set(
os.path.join(self.devices, dev, datadir, str(part))
for dev, part in expected_parts)
found_paths = set(p['part_path'] for p in part_infos)
msg = 'expected %r != %r for %r' % (
expected_paths, found_paths, kwargs)
self.assertEqual(expected_paths, found_paths, msg)
def test_build_jobs_creates_empty_hashes(self):
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy), '0')
utils.mkdirs(part_path)
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': 0,
'part_path': part_path,
}
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(1, len(jobs))
job = jobs[0]
self.assertEqual(job['job_type'], object_reconstructor.SYNC)
self.assertEqual(job['frag_index'], 0)
self.assertEqual(job['suffixes'], [])
self.assertEqual(len(job['sync_to']), 3)
self.assertEqual(job['partition'], 0)
self.assertEqual(job['path'], part_path)
self.assertEqual(job['hashes'], {})
self.assertEqual(job['policy'], self.policy)
self.assertEqual(job['local_dev'], self.local_dev)
self.assertEqual(job['device'], self.local_dev['device'])
hashes_file = os.path.join(part_path,
diskfile.HASH_FILE)
self.assertTrue(os.path.exists(hashes_file))
suffixes = self.reconstructor._get_hashes(
self.local_dev['device'], 0, self.policy, do_listdir=True)
self.assertEqual(suffixes, {})
def test_build_jobs_no_hashes(self):
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy), '0')
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': 0,
'part_path': part_path,
}
stub_hashes = {}
with mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)):
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(1, len(jobs))
job = jobs[0]
self.assertEqual(job['job_type'], object_reconstructor.SYNC)
self.assertEqual(job['frag_index'], 0)
self.assertEqual(job['suffixes'], [])
self.assertEqual(len(job['sync_to']), 3)
self.assertEqual(job['partition'], 0)
self.assertEqual(job['path'], part_path)
self.assertEqual(job['hashes'], {})
self.assertEqual(job['policy'], self.policy)
self.assertEqual(job['local_dev'], self.local_dev)
self.assertEqual(job['device'], self.local_dev['device'])
def test_build_jobs_primary(self):
ring = self.policy.object_ring = self.fabricated_ring
# find a partition for which we're a primary
for partition in range(2 ** ring.part_power):
part_nodes = ring.get_part_nodes(partition)
try:
frag_index = [n['id'] for n in part_nodes].index(
self.local_dev['id'])
except ValueError:
pass
else:
break
else:
self.fail("the ring doesn't work: %r" % ring._replica2part2dev_id)
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': partition,
'part_path': part_path,
}
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
with mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)):
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(1, len(jobs))
job = jobs[0]
self.assertEqual(job['job_type'], object_reconstructor.SYNC)
self.assertEqual(job['frag_index'], frag_index)
self.assertEqual(job['suffixes'], list(stub_hashes.keys()))
self.assertEqual(set([n['index'] for n in job['sync_to']]),
set([(frag_index + 1) % ring.replicas,
(frag_index - 1) % ring.replicas,
(frag_index + int(0.5 * ring.replicas)),
]))
self.assertEqual(job['partition'], partition)
self.assertEqual(job['path'], part_path)
self.assertEqual(job['hashes'], stub_hashes)
self.assertEqual(job['policy'], self.policy)
self.assertEqual(job['local_dev'], self.local_dev)
self.assertEqual(job['device'], self.local_dev['device'])
def test_build_jobs_handoff(self):
ring = self.policy.object_ring = self.fabricated_ring
# find a partition for which we're a handoff
for partition in range(2 ** ring.part_power):
part_nodes = ring.get_part_nodes(partition)
if self.local_dev['id'] not in [n['id'] for n in part_nodes]:
break
else:
self.fail("the ring doesn't work: %r" % ring._replica2part2dev_id)
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': partition,
'part_path': part_path,
}
# since this part doesn't belong on us it doesn't matter what
# frag_index we have
frag_index = random.randint(0, self.policy.ec_n_unique_fragments - 1)
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {None: 'hash'},
}
with mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)):
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(1, len(jobs), 'Expected only one job, got %r' % jobs)
job = jobs[0]
self.assertEqual(job['job_type'], object_reconstructor.REVERT)
self.assertEqual(job['frag_index'], frag_index)
self.assertEqual(sorted(job['suffixes']), sorted(stub_hashes.keys()))
self.assertEqual(
self.policy.ec_duplication_factor, len(job['sync_to']))
# the sync_to node should be different each other
node_ids = set([node['id'] for node in job['sync_to']])
self.assertEqual(len(node_ids),
self.policy.ec_duplication_factor)
# but all the nodes have same backend index to sync
node_indexes = set(
self.policy.get_backend_index(node['index'])
for node in job['sync_to'])
self.assertEqual(1, len(node_indexes))
self.assertEqual(job['sync_to'][0]['index'], frag_index)
self.assertEqual(job['path'], part_path)
self.assertEqual(job['partition'], partition)
self.assertEqual(sorted(job['hashes']), sorted(stub_hashes))
self.assertEqual(job['local_dev'], self.local_dev)
def test_build_jobs_mixed(self):
ring = self.policy.object_ring = self.fabricated_ring
# find a partition for which we're a primary
for partition in range(2 ** ring.part_power):
part_nodes = ring.get_part_nodes(partition)
try:
node_index = [n['id'] for n in part_nodes].index(
self.local_dev['id'])
except ValueError:
pass
else:
break
else:
self.fail("the ring doesn't work: %r" % ring._replica2part2dev_id)
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': partition,
'part_path': part_path,
}
frag_index = self.policy.get_backend_index(node_index)
other_frag_index = random.choice(
[f for f in range(self.policy.ec_n_unique_fragments)
if f != node_index])
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'456': {other_frag_index: 'hash', None: 'hash'},
'abc': {None: 'hash'},
}
with mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)):
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(2, len(jobs))
sync_jobs, revert_jobs = [], []
for job in jobs:
self.assertEqual(job['partition'], partition)
self.assertEqual(job['path'], part_path)
self.assertEqual(sorted(job['hashes']), sorted(stub_hashes))
self.assertEqual(job['policy'], self.policy)
self.assertEqual(job['local_dev'], self.local_dev)
self.assertEqual(job['device'], self.local_dev['device'])
{
object_reconstructor.SYNC: sync_jobs,
object_reconstructor.REVERT: revert_jobs,
}[job['job_type']].append(job)
self.assertEqual(1, len(sync_jobs))
job = sync_jobs[0]
self.assertEqual(job['frag_index'], frag_index)
self.assertEqual(sorted(job['suffixes']), sorted(['123', 'abc']))
self.assertEqual(len(job['sync_to']), 3)
self.assertEqual(set([n['index'] for n in job['sync_to']]),
set([(frag_index + 1) % ring.replicas,
(frag_index - 1) % ring.replicas,
(frag_index + int(0.5 * ring.replicas)),
]))
self.assertEqual(1, len(revert_jobs))
job = revert_jobs[0]
self.assertEqual(job['frag_index'], other_frag_index)
self.assertEqual(job['suffixes'], ['456'])
self.assertEqual(len(job['sync_to']),
self.policy.ec_duplication_factor)
self.assertEqual(job['sync_to'][0]['index'], other_frag_index)
def test_build_jobs_revert_only_tombstones(self):
ring = self.policy.object_ring = self.fabricated_ring
# find a partition for which we're a handoff
for partition in range(2 ** ring.part_power):
part_nodes = ring.get_part_nodes(partition)
if self.local_dev['id'] not in [n['id'] for n in part_nodes]:
break
else:
self.fail("the ring doesn't work: %r" % ring._replica2part2dev_id)
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': partition,
'part_path': part_path,
}
# we have no fragment index to hint the jobs where they belong
stub_hashes = {
'123': {None: 'hash'},
'abc': {None: 'hash'},
}
with mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)):
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(len(jobs), 1, 'Expected only one job, got %r' % jobs)
job = jobs[0]
expected = {
'job_type': object_reconstructor.REVERT,
'frag_index': None,
'suffixes': list(stub_hashes.keys()),
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
self.assertEqual(ring.replica_count, len(part_nodes))
expected_samples = (
(self.policy.ec_n_unique_fragments *
self.policy.ec_duplication_factor) -
self.policy.ec_ndata + 1)
self.assertEqual(len(job['sync_to']), expected_samples)
for k, v in expected.items():
msg = 'expected %s != %s for %s' % (
v, job[k], k)
self.assertEqual(v, job[k], msg)
def test_get_suffixes_to_sync(self):
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy), '1')
utils.mkdirs(part_path)
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': 1,
'part_path': part_path,
}
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(1, len(jobs))
job = jobs[0]
node = job['sync_to'][0]
# process_job used to try and modify the instance base headers
self.reconstructor.headers['X-Backend-Storage-Policy-Index'] = \
int(POLICIES[1])
# ... which doesn't work out under concurrency with multiple policies
self.assertNotEqual(
self.reconstructor.headers['X-Backend-Storage-Policy-Index'],
int(job['policy']))
with mocked_http_conn(200, body=pickle.dumps({})) as request_log:
suffixes, new_node = self.reconstructor._get_suffixes_to_sync(
job, node)
self.assertEqual([int(job['policy'])], [
r['headers']['X-Backend-Storage-Policy-Index']
for r in request_log.requests])
self.assertEqual(suffixes, [])
self.assertEqual(new_node, node)
def test_get_suffixes_in_sync(self):
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy), '1')
utils.mkdirs(part_path)
part_info = {
'local_dev': self.local_dev,
'policy': self.policy,
'partition': 1,
'part_path': part_path,
}
jobs = self.reconstructor.build_reconstruction_jobs(part_info)
self.assertEqual(1, len(jobs))
job = jobs[0]
node = job['sync_to'][0]
local_hashes = {
'123': {job['frag_index']: 'hash', None: 'hash'},
'abc': {job['frag_index']: 'hash', None: 'hash'},
}
self.assertEqual(node['index'], self.policy.object_ring.replicas - 1)
remote_index = self.policy.get_backend_index(node['index'])
remote_hashes = {
'123': {remote_index: 'hash', None: 'hash'},
'abc': {remote_index: 'hash', None: 'hash'},
}
remote_response = pickle.dumps(remote_hashes)
with mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, local_hashes)), \
mocked_http_conn(200, body=remote_response) as request_log:
suffixes, new_node = self.reconstructor._get_suffixes_to_sync(
job, node)
self.assertEqual([node['replication_ip']],
[r['ip'] for r in request_log.requests])
self.assertEqual(suffixes, [])
self.assertEqual(new_node, node)
def test_get_suffix_delta(self):
# different
local_suff = {'123': {None: 'abc', 0: 'def'}}
remote_suff = {'456': {None: 'ghi', 0: 'jkl'}}
local_index = 0
remote_index = 0
suffs = self.reconstructor.get_suffix_delta(local_suff,
local_index,
remote_suff,
remote_index)
self.assertEqual(suffs, ['123'])
# now the same
remote_suff = {'123': {None: 'abc', 0: 'def'}}
suffs = self.reconstructor.get_suffix_delta(local_suff,
local_index,
remote_suff,
remote_index)
self.assertEqual(suffs, [])
# now with a mis-matched None key (missing durable)
remote_suff = {'123': {None: 'ghi', 0: 'def'}}
suffs = self.reconstructor.get_suffix_delta(local_suff,
local_index,
remote_suff,
remote_index)
self.assertEqual(suffs, ['123'])
# now with bogus local index
local_suff = {'123': {None: 'abc', 99: 'def'}}
remote_suff = {'456': {None: 'ghi', 0: 'jkl'}}
suffs = self.reconstructor.get_suffix_delta(local_suff,
local_index,
remote_suff,
remote_index)
self.assertEqual(suffs, ['123'])
def test_process_job_primary_in_sync(self):
partition = 0
part_nodes = self.policy.object_ring.get_part_nodes(partition)
local_dev = random.choice(part_nodes)
frag_index = self.policy.get_backend_index(local_dev['index'])
sync_to = object_reconstructor._get_partners(
local_dev['index'], part_nodes)
# setup left, right and far hashes
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
left_frag_index = self.policy.get_backend_index(sync_to[0]['index'])
left_hashes = {
'123': {left_frag_index: 'hash', None: 'hash'},
'abc': {left_frag_index: 'hash', None: 'hash'},
}
right_frag_index = self.policy.get_backend_index(sync_to[1]['index'])
right_hashes = {
'123': {right_frag_index: 'hash', None: 'hash'},
'abc': {right_frag_index: 'hash', None: 'hash'},
}
far_index = self.policy.get_backend_index(sync_to[2]['index'])
far_hashes = {
'123': {far_index: 'hash', None: 'hash'},
'abc': {far_index: 'hash', None: 'hash'},
}
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
}
responses = [(200, pickle.dumps(hashes)) for hashes in (
left_hashes, right_hashes, far_hashes)]
codes, body_iter = zip(*responses)
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*codes, body_iter=body_iter) as request_log:
self.reconstructor.process_job(job)
expected_suffix_calls = [
(sync_to[0]['ip'], '/%s/0' % sync_to[0]['device']),
(sync_to[1]['ip'], '/%s/0' % sync_to[1]['device']),
(sync_to[2]['ip'], '/%s/0' % sync_to[2]['device']),
]
self.assertEqual(expected_suffix_calls,
[(r['ip'], r['path']) for r in request_log.requests])
self.assertFalse(ssync_calls)
def test_process_job_primary_not_in_sync(self):
partition = 0
part_nodes = self.policy.object_ring.get_part_nodes(partition)
local_dev = random.choice(part_nodes)
frag_index = self.policy.get_backend_index(local_dev['index'])
sync_to = object_reconstructor._get_partners(
local_dev['index'], part_nodes)
# setup left and right hashes
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
left_hashes = {}
right_hashes = {}
far_hashes = {}
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
}
responses = []
for hashes in (left_hashes, right_hashes, far_hashes):
responses.append((200, pickle.dumps(hashes)))
codes, body_iter = zip(*responses)
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*codes, body_iter=body_iter) as request_log:
self.reconstructor.process_job(job)
expected_suffix_calls = [
(sync_to[0]['ip'], '/%s/0' % sync_to[0]['device']),
(sync_to[1]['ip'], '/%s/0' % sync_to[1]['device']),
(sync_to[2]['ip'], '/%s/0' % sync_to[2]['device']),
]
self.assertEqual(expected_suffix_calls,
[(r['ip'], r['path']) for r in request_log.requests])
expected_ssync_calls = sorted([
(sync_to[0]['ip'], 0, set(['123', 'abc']), False),
(sync_to[1]['ip'], 0, set(['123', 'abc']), False),
(sync_to[2]['ip'], 0, set(['123', 'abc']), False),
])
self.assertEqual(expected_ssync_calls, sorted((
c['node']['ip'],
c['job']['partition'],
set(c['suffixes']),
c.get('include_non_durable'),
) for c in ssync_calls))
def test_sync_duplicates_to_remote_region(self):
partition = 0
part_nodes = self.policy.object_ring.get_part_nodes(partition)
# in the non-duplicate case we just pick a random node
local_dev = random.choice(part_nodes[-14:])
frag_index = self.policy.get_backend_index(local_dev['index'])
sync_to = object_reconstructor._get_partners(
local_dev['index'], part_nodes)
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
# setup left and right hashes
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
# left hand side is in sync
left_frag_index = self.policy.get_backend_index(sync_to[0]['index'])
left_hashes = {
'123': {left_frag_index: 'hash', None: 'hash'},
'abc': {left_frag_index: 'hash', None: 'hash'},
}
# right hand side needs sync
right_frag_index = self.policy.get_backend_index(sync_to[1]['index'])
right_hashes = {
'123': {right_frag_index: 'hash', None: 'hash'},
'abc': {right_frag_index: 'hashX', None: 'hash'},
}
far_index = self.policy.get_backend_index(sync_to[2]['index'])
far_hashes = {
'123': {far_index: 'hash', None: 'hash'},
'abc': {far_index: 'hash', None: 'hash'},
}
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
responses = [
(200, pickle.dumps(left_hashes)),
(200, pickle.dumps(right_hashes)),
(200, pickle.dumps(far_hashes)),
]
codes, body_iter = zip(*responses)
# we're going to dip our mocks into the ssync layer a bit
ssync_resp = mock.MagicMock()
ssync_resp.status = 200
ssync_resp.readline.side_effect = [
b':MISSING_CHECK: START',
b':MISSING_CHECK: END',
b':UPDATES: START',
b':UPDATES: END',
]
ssync_headers = []
def capture_headers(name, value):
ssync_headers.append((name, value))
ssync_conn = mock.MagicMock()
ssync_conn.getresponse.return_value = ssync_resp
ssync_conn.putheader = capture_headers
with mock.patch('swift.obj.ssync_sender.SsyncBufferedHTTPConnection',
return_value=ssync_conn), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mock.patch('swift.obj.diskfile.ECDiskFileManager.yield_hashes',
return_value=iter([])), \
mocked_http_conn(*codes, body_iter=body_iter):
self.reconstructor.process_job(job)
# ... to make sure it sets up our headers correctly
self.assertEqual(ssync_headers, [
('Transfer-Encoding', 'chunked'),
('X-Backend-Storage-Policy-Index', 0),
('X-Backend-Ssync-Frag-Index', right_frag_index),
# we include this for backwards compat
('X-Backend-Ssync-Node-Index', right_frag_index),
])
def test_process_job_sync_missing_durable(self):
partition = 0
part_nodes = self.policy.object_ring.get_part_nodes(partition)
local_dev = random.choice(part_nodes)
frag_index = self.policy.get_backend_index(local_dev['index'])
sync_to = object_reconstructor._get_partners(
local_dev['index'], part_nodes)
# setup left and right hashes
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
# left hand side is in sync
left_frag_index = self.policy.get_backend_index(sync_to[0]['index'])
left_hashes = {
'123': {left_frag_index: 'hash', None: 'hash'},
'abc': {left_frag_index: 'hash', None: 'hash'},
}
# right hand side has fragment, but no durable (None key is whack)
right_frag_index = self.policy.get_backend_index(sync_to[1]['index'])
right_hashes = {
'123': {right_frag_index: 'hash', None: 'hash'},
'abc': {right_frag_index: 'hash',
None: 'different-because-durable'},
}
# far side is in sync
far_index = self.policy.get_backend_index(sync_to[2]['index'])
far_hashes = {
'123': {far_index: 'hash', None: 'hash'},
'abc': {far_index: 'hash', None: 'hash'},
}
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
}
responses = [(200, pickle.dumps(hashes)) for hashes in (
left_hashes, right_hashes, far_hashes)]
codes, body_iter = zip(*responses)
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*codes, body_iter=body_iter) as request_log:
self.reconstructor.process_job(job)
expected_suffix_calls = set([
(sync_to[0]['ip'], '/%s/0' % sync_to[0]['device']),
(sync_to[1]['ip'], '/%s/0' % sync_to[1]['device']),
(sync_to[2]['ip'], '/%s/0' % sync_to[2]['device']),
])
self.assertEqual(expected_suffix_calls,
set((r['ip'], r['path'])
for r in request_log.requests))
expected_ssync_calls = sorted([
(sync_to[1]['ip'], 0, ['abc'], False),
])
self.assertEqual(expected_ssync_calls, sorted((
c['node']['ip'],
c['job']['partition'],
c['suffixes'],
c.get('include_non_durable')
) for c in ssync_calls))
def test_process_job_primary_some_in_sync(self):
partition = 0
part_nodes = self.policy.object_ring.get_part_nodes(partition)
local_dev = random.choice(part_nodes)
frag_index = self.policy.get_backend_index(local_dev['index'])
sync_to = object_reconstructor._get_partners(
local_dev['index'], part_nodes)
# setup left and right hashes
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
left_frag_index = self.policy.get_backend_index(sync_to[0]['index'])
left_hashes = {
'123': {left_frag_index: 'hashX', None: 'hash'},
'abc': {left_frag_index: 'hash', None: 'hash'},
}
right_frag_index = self.policy.get_backend_index(sync_to[1]['index'])
right_hashes = {
'123': {right_frag_index: 'hash', None: 'hash'},
}
far_index = self.policy.get_backend_index(sync_to[2]['index'])
far_hashes = {
'abc': {far_index: 'hashX', None: 'hash'},
}
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
}
responses = []
for hashes in (left_hashes, right_hashes, far_hashes):
responses.append((200, pickle.dumps(hashes)))
codes, body_iter = zip(*responses)
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*codes, body_iter=body_iter) as request_log:
self.reconstructor.process_job(job)
expected_suffix_calls = set([
(sync_to[0]['ip'], '/%s/0' % sync_to[0]['device']),
(sync_to[1]['ip'], '/%s/0' % sync_to[1]['device']),
(sync_to[2]['ip'], '/%s/0' % sync_to[2]['device']),
])
self.assertEqual(expected_suffix_calls,
set((r['ip'], r['path'])
for r in request_log.requests))
self.assertEqual(
dict(collections.Counter(
(c['node']['index'], tuple(sorted(c['suffixes'])),
c.get('include_non_durable'))
for c in ssync_calls)),
{(sync_to[0]['index'], ('123',), False): 1,
(sync_to[1]['index'], ('abc',), False): 1,
(sync_to[2]['index'], ('123', 'abc'), False): 1,
})
def test_process_job_primary_down(self):
partition = 0
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
part_nodes = self.policy.object_ring.get_part_nodes(partition)
sync_to = part_nodes[:3]
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'device': self.local_dev['device'],
'local_dev': self.local_dev,
}
non_local = {'called': 0}
def ssync_response_callback(*args):
# in this test, ssync fails on the first (primary sync_to) node
if non_local['called'] >= 1:
return True, {}
non_local['called'] += 1
return False, {}
expected_suffix_calls = set()
for node in part_nodes[:3]:
expected_suffix_calls.update([
(node['replication_ip'], '/%s/0' % node['device']),
])
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*[200] * len(expected_suffix_calls),
body=pickle.dumps({})) as request_log:
self.reconstructor.process_job(job)
found_suffix_calls = set((r['ip'], r['path'])
for r in request_log.requests)
self.assertEqual(expected_suffix_calls, found_suffix_calls)
expected_ssync_calls = sorted([
('10.0.0.0', 0, set(['123', 'abc']), False),
('10.0.0.1', 0, set(['123', 'abc']), False),
('10.0.0.2', 0, set(['123', 'abc']), False),
])
found_ssync_calls = sorted((
c['node']['ip'],
c['job']['partition'],
set(c['suffixes']),
c.get('include_non_durable')
) for c in ssync_calls)
self.assertEqual(expected_ssync_calls, found_ssync_calls)
def test_process_job_suffix_call_errors(self):
partition = 0
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
part_nodes = self.policy.object_ring.get_part_nodes(partition)
sync_to = part_nodes[:2]
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'device': self.local_dev['device'],
'local_dev': self.local_dev,
}
expected_suffix_calls = set((
node['replication_ip'], '/%s/0' % node['device']
) for node in sync_to)
possible_errors = [404, Timeout(), Exception('kaboom!')]
codes = [random.choice(possible_errors)
for r in expected_suffix_calls]
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*codes) as request_log:
self.reconstructor.process_job(job)
found_suffix_calls = set((r['ip'], r['path'])
for r in request_log.requests)
self.assertEqual(expected_suffix_calls, found_suffix_calls)
self.assertFalse(ssync_calls)
def test_process_job_sync_partner_unmounted(self):
partition = 0
part_nodes = self.policy.object_ring.get_part_nodes(partition)
frag_index = [n['id'] for n in part_nodes].index(self.local_dev['id'])
sync_to = object_reconstructor._get_partners(frag_index, part_nodes)
self.assertEqual(3, len(sync_to))
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
# left partner out of sync
left_frag_index = self.policy.get_backend_index(sync_to[0]['index'])
left_hashes = {
'123': {left_frag_index: 'not-in-sync-hash', None: 'hash'},
'abc': {left_frag_index: 'hash', None: 'hash'},
}
# we don't need right partner hashes
# far partner in sync
far_index = self.policy.get_backend_index(sync_to[2]['index'])
far_hashes = {
'123': {far_index: 'hash', None: 'hash'},
'abc': {far_index: 'hash', None: 'hash'},
}
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
job = {
'job_type': object_reconstructor.SYNC,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'device': self.local_dev['device'],
'local_dev': self.local_dev,
}
responses = [
(200, pickle.dumps(left_hashes)), # hashes left partner
(507, ''), # unmounted right partner
(200, pickle.dumps({})), # hashes handoff
(200, pickle.dumps(far_hashes)), # hashes far partner
]
codes, body_iter = zip(*responses)
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)), \
mocked_http_conn(*codes, body_iter=body_iter) as request_log:
self.reconstructor.process_job(job)
# increment frag_index since we're rebuilding to our right
frag_index = (frag_index + 1) % self.policy.ec_n_unique_fragments
handoffs = self.policy.object_ring.get_more_nodes(partition)
for i, handoff in enumerate(handoffs):
if i == frag_index:
break
else:
self.fail('Unable to find handoff?!')
expected = collections.Counter([
(200, sync_to[0]['ip']),
(507, sync_to[1]['ip']),
(200, handoff['ip']),
(200, sync_to[2]['ip']),
])
self.assertEqual(expected, collections.Counter(
[(c, r['ip']) for c, r in zip(codes, request_log.requests)]))
expected = collections.Counter([
sync_to[0]['ip'],
handoff['ip'],
])
self.assertEqual(expected, collections.Counter(
[c['node']['ip'] for c in ssync_calls]))
def test_process_job_handoff(self):
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
sync_to = [random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev])]
sync_to[0]['index'] = frag_index
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
os.makedirs(part_path)
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
ssync_calls = []
with mock_ssync_sender(ssync_calls), \
mock.patch('swift.obj.diskfile.ECDiskFileManager._get_hashes',
return_value=(None, stub_hashes)):
self.reconstructor.process_job(job)
self.assertEqual(
sorted(collections.Counter(
(c['node']['ip'], c['node']['port'], c['node']['device'],
tuple(sorted(c['suffixes'])),
c.get('include_non_durable'))
for c in ssync_calls).items()),
[((sync_to[0]['ip'], sync_to[0]['port'], sync_to[0]['device'],
('123', 'abc'), True), 1)])
def test_process_job_will_not_revert_to_handoff(self):
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
sync_to = [random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev])]
sync_to[0]['index'] = frag_index
partition = 0
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
os.makedirs(part_path)
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
non_local = {'called': 0}
def ssync_response_callback(*args):
# in this test, ssync fails on the first (primary sync_to) node
if non_local['called'] >= 1:
return True, {}
non_local['called'] += 1
return False, {}
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback), \
mocked_http_conn() as request_log:
self.reconstructor.process_job(job)
# failed ssync job should not generate a suffix rehash
self.assertEqual([], request_log.requests)
self.assertEqual(
sorted(collections.Counter(
(c['node']['ip'], c['node']['port'], c['node']['device'],
tuple(sorted(c['suffixes'])),
c.get('include_non_durable'))
for c in ssync_calls).items()),
[((sync_to[0]['ip'], sync_to[0]['port'], sync_to[0]['device'],
('123', 'abc'), True), 1)])
def test_process_job_revert_is_handoff_fails(self):
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
sync_to = [random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev])]
sync_to[0]['index'] = frag_index
partition = 0
handoff_nodes = list(self.policy.object_ring.get_more_nodes(partition))
stub_hashes = {
'123': {frag_index: 'hash', None: 'hash'},
'abc': {frag_index: 'hash', None: 'hash'},
}
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
os.makedirs(part_path)
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'suffixes': stub_hashes.keys(),
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': stub_hashes,
'policy': self.policy,
'local_dev': handoff_nodes[-1],
'device': self.local_dev['device'],
}
def ssync_response_callback(*args):
# in this test ssync always fails, until we encounter ourselves in
# the list of possible handoff's to sync to, so handoffs_remaining
# should increment
return False, {}
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback), \
mocked_http_conn() as request_log:
self.reconstructor.process_job(job)
# failed ssync job should not generate a suffix rehash
self.assertEqual([], request_log.requests)
# this is ssync call to primary (which fails) and nothing else!
self.assertEqual(
sorted(collections.Counter(
(c['node']['ip'], c['node']['port'], c['node']['device'],
tuple(sorted(c['suffixes'])),
c.get('include_non_durable'))
for c in ssync_calls).items()),
[((sync_to[0]['ip'], sync_to[0]['port'], sync_to[0]['device'],
('123', 'abc'), True), 1)])
self.assertEqual(self.reconstructor.handoffs_remaining, 1)
def test_process_job_revert_cleanup(self):
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
sync_to = [random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev])]
sync_to[0]['index'] = frag_index
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
os.makedirs(part_path)
df_mgr = self.reconstructor._df_router[self.policy]
df = df_mgr.get_diskfile(self.local_dev['device'], partition, 'a',
'c', 'data-obj', policy=self.policy)
ts = self.ts()
with df.create() as writer:
test_data = b'test data'
writer.write(test_data)
metadata = {
'X-Timestamp': ts.internal,
'Content-Length': len(test_data),
'Etag': md5(test_data, usedforsecurity=False).hexdigest(),
'X-Object-Sysmeta-Ec-Frag-Index': frag_index,
}
writer.put(metadata)
writer.commit(ts)
ohash = os.path.basename(df._datadir)
suffix = os.path.basename(os.path.dirname(df._datadir))
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'primary_frag_index': None,
'suffixes': [suffix],
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': {},
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
def ssync_response_callback(*args):
# success should not increment handoffs_remaining
return True, {ohash: {'ts_data': ts}}
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback):
self.reconstructor.process_job(job)
# hashpath has been removed
self.assertFalse(os.path.exists(df._datadir))
self.assertEqual(self.reconstructor.handoffs_remaining, 0)
def test_process_job_revert_cleanup_but_already_reclaimed(self):
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
sync_to = [random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev])]
sync_to[0]['index'] = frag_index
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
os.makedirs(part_path)
df_mgr = self.reconstructor._df_router[self.policy]
df = df_mgr.get_diskfile(self.local_dev['device'], partition, 'a',
'c', 'data-obj', policy=self.policy)
ts_delete = self.ts()
df.delete(ts_delete)
ohash = os.path.basename(df._datadir)
suffix = os.path.basename(os.path.dirname(df._datadir))
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'suffixes': [suffix],
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': {},
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
fake_time = [float(ts_delete) + df_mgr.reclaim_age - 100]
def mock_time():
return fake_time[0]
def ssync_response_callback(*args):
# pretend ssync completed and time has moved just beyonf the
# reclaim age for the tombstone
fake_time[0] = float(ts_delete) + df_mgr.reclaim_age + 1
return True, {ohash: {'ts_data': ts_delete}}
ssync_calls = []
with mock.patch('swift.obj.diskfile.time.time', mock_time):
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback):
self.reconstructor.process_job(job)
self.assertFalse(os.path.exists(df._datadir))
self.assertEqual(self.reconstructor.handoffs_remaining, 0)
# check there's no tracebacks for opening the reclaimed tombstone
self.assertEqual(
[], self.reconstructor.logger.logger.get_lines_for_level('error'))
def _make_frag(self, df, fi, ts_data):
with df.create() as writer:
test_data = b'test data'
writer.write(test_data)
metadata = {
'X-Timestamp': ts_data.internal,
'Content-Length': len(test_data),
'Etag': md5(test_data, usedforsecurity=False).hexdigest(),
'X-Object-Sysmeta-Ec-Frag-Index': fi,
}
writer.put(metadata)
writer.commit(ts_data)
def _do_test_process_job_revert_cleanup_with_meta(self, frag_indexes,
primary_frag_index):
sync_to = [[dict(random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev]),
index=frag_index)] for frag_index in frag_indexes]
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
mkdirs(part_path)
df_mgr = self.reconstructor._df_router[self.policy]
df = df_mgr.get_diskfile(self.local_dev['device'], partition, 'a',
'c', 'data-obj', policy=self.policy)
ts_data = self.ts()
for frag_index in frag_indexes:
self._make_frag(df, frag_index, ts_data)
if primary_frag_index is not None:
self._make_frag(df, primary_frag_index, ts_data)
ts_meta = self.ts()
df.write_metadata({'X-Timestamp': ts_meta.internal,
'X-Object-Meta-Test': 'testing'})
ohash = os.path.basename(df._datadir)
suffix = os.path.basename(os.path.dirname(df._datadir))
jobs = [{
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'primary_frag_index': primary_frag_index,
'suffixes': [suffix],
'sync_to': sync_to[i],
'partition': partition,
'path': part_path,
'hashes': {},
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
} for i, frag_index in enumerate(frag_indexes)]
ondisk_files_during_sync = []
def ssync_response_callback(*args):
ondisk_files_during_sync.append(os.listdir(df._datadir))
# success should not increment handoffs_remaining
return True, {ohash: {'ts_data': ts_data, 'ts_meta': ts_meta}}
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback):
for job in jobs:
self.reconstructor.process_job(job)
self.assertEqual(self.reconstructor.handoffs_remaining, 0)
self.assertEqual(len(jobs), len(ssync_calls))
self.assertEqual(len(jobs), len(ondisk_files_during_sync))
# verify that the meta file is intact at startof every job/ssync call:
# if it is removed at all, it should be removed in the *last* call
for fileset in ondisk_files_during_sync:
self.assertIn(ts_meta.internal + '.meta', fileset)
return df
def test_process_job_revert_does_cleanup_meta_pure_handoff(self):
# verify that danging meta files are cleaned up if the revert job is
# for a pure handoff partition
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
df = self._do_test_process_job_revert_cleanup_with_meta(
frag_indexes=[frag_index], primary_frag_index=None)
# hashpath has been removed
self.assertFalse(os.path.exists(df._datadir))
extra_index = frag_index
while extra_index == frag_index:
extra_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
df = self._do_test_process_job_revert_cleanup_with_meta(
frag_indexes=[frag_index, extra_index], primary_frag_index=None)
# hashpath has been removed
self.assertFalse(os.path.exists(df._datadir))
def test_process_job_revert_does_not_cleanup_meta_also_primary(self):
# verify that danging meta files are not cleaned up if the revert job
# is for a handoff partition that is also a primary for another frag
# index
frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
primary_frag_index = frag_index
while primary_frag_index == frag_index:
primary_frag_index = random.randint(
0, self.policy.ec_n_unique_fragments - 1)
df = self._do_test_process_job_revert_cleanup_with_meta(
frag_indexes=[frag_index], primary_frag_index=primary_frag_index)
# hashpath has not been removed
self.assertTrue(os.path.exists(df._datadir))
file_info = df._manager.cleanup_ondisk_files(df._datadir)
self.maxDiff = None
self.assertTrue('meta_file' in file_info)
self.assertTrue(os.path.exists(file_info['meta_file']))
self.assertTrue('data_info' in file_info)
self.assertEqual(primary_frag_index,
file_info['data_info']['frag_index'])
self.assertTrue(os.path.exists(file_info['data_file']))
# only the primary frag and meta file remain
self.assertEqual(2, len(os.listdir(df._datadir)))
def test_process_job_revert_does_not_cleanup_meta_new_data(self):
# verify that danging meta files are not cleaned up if the revert job
# is for a pure handoff partition that has a newer data frag in
# addition to the frag that was sync'd
frag_index = 0
extra_frag_index = 1
sync_to = [dict(random.choice([n for n in self.policy.object_ring.devs
if n != self.local_dev]),
index=frag_index)]
partition = 0
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
mkdirs(part_path)
df_mgr = self.reconstructor._df_router[self.policy]
df = df_mgr.get_diskfile(self.local_dev['device'], partition, 'a',
'c', 'data-obj', policy=self.policy)
ts_data0 = self.ts() # original frag
ts_data1 = self.ts() # new one written during ssync
self._make_frag(df, frag_index, ts_data0)
ts_meta = self.ts()
df.write_metadata({'X-Timestamp': ts_meta.internal,
'X-Object-Meta-Test': 'testing'})
ohash = os.path.basename(df._datadir)
suffix = os.path.basename(os.path.dirname(df._datadir))
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': frag_index,
'primary_frag_index': None,
'suffixes': [suffix],
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': {},
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
def ssync_response_callback(*args):
# pretend that during the ssync call the original frag is replaced
# by a newer one
self._make_frag(df, extra_frag_index, ts_data1)
return True, {ohash: {'ts_data': ts_data0, 'ts_meta': ts_meta}}
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback):
self.reconstructor.process_job(job)
self.assertEqual(1, len(ssync_calls))
# hashpath has not been removed
self.assertTrue(os.path.exists(df._datadir))
file_info = df._manager.cleanup_ondisk_files(df._datadir)
self.maxDiff = None
self.assertIsNotNone(file_info['meta_file'])
self.assertTrue(os.path.exists(file_info['meta_file']))
self.assertTrue('data_info' in file_info)
self.assertTrue(os.path.exists(file_info['data_file']))
# only the newer frag and meta file remain
self.assertEqual(2, len(os.listdir(df._datadir)))
self.assertEqual(ts_data1, file_info['data_info']['timestamp'])
def test_process_job_revert_cleanup_tombstone(self):
partition = 0
sync_to = [random.choice([
n for n in self.policy.object_ring.get_part_nodes(partition)
if n['id'] != self.local_dev['id']])]
part_path = os.path.join(self.devices, self.local_dev['device'],
diskfile.get_data_dir(self.policy),
str(partition))
os.makedirs(part_path)
df_mgr = self.reconstructor._df_router[self.policy]
df = df_mgr.get_diskfile(self.local_dev['device'], partition, 'a',
'c', 'data-obj', policy=self.policy)
ts = self.ts()
df.delete(ts)
ohash = os.path.basename(df._datadir)
suffix = os.path.basename(os.path.dirname(df._datadir))
job = {
'job_type': object_reconstructor.REVERT,
'frag_index': None,
'primary_frag_index': None,
'suffixes': [suffix],
'sync_to': sync_to,
'partition': partition,
'path': part_path,
'hashes': {},
'policy': self.policy,
'local_dev': self.local_dev,
'device': self.local_dev['device'],
}
def ssync_response_callback(*args):
return True, {ohash: {'ts_data': ts}}
ssync_calls = []
with mock_ssync_sender(ssync_calls,
response_callback=ssync_response_callback):
self.reconstructor.process_job(job)
# hashpath is still there, but it's empty
self.assertEqual([], os.listdir(df._datadir))
def test_get_local_devices(self):
local_devs = self.reconstructor.get_local_devices()
self.assertEqual({'sda'}, local_devs)
@patch_policies(legacy_only=True)
def test_get_local_devices_with_no_ec_policy_env(self):
# even no ec_policy found on the server, it runs just like as
# no ec device found
self._configure_reconstructor()
self.assertEqual([], self.reconstructor.policies)
local_devs = self.reconstructor.get_local_devices()
self.assertEqual(set(), local_devs)
@patch_policies(legacy_only=True)
def test_reconstruct_with_no_ec_policy_env(self):
self._configure_reconstructor()
self.assertEqual([], self.reconstructor.policies)
collect_parts_results = []
_orig_collect_parts = self.reconstructor.collect_parts
def capture_collect_parts(**kwargs):
part_infos = _orig_collect_parts(**kwargs)
collect_parts_results.append(part_infos)
return part_infos
with mock.patch.object(self.reconstructor, 'collect_parts',
capture_collect_parts):
self.reconstructor.reconstruct()
# There is one call, and it returns an empty list
self.assertEqual([[]], collect_parts_results)
log_lines = self.logger.all_log_lines()
self.assertEqual(log_lines, {'info': [mock.ANY]})
line = log_lines['info'][0]
self.assertTrue(line.startswith('Nothing reconstructed '), line)
class TestReconstructFragmentArchive(BaseTestObjectReconstructor):
obj_name = b'o' # subclass overrides this
def setUp(self):
super(TestReconstructFragmentArchive, self).setUp()
self.obj_path = b'/a/c/' + self.obj_name
self.obj_timestamp = self.ts()
def _create_fragment(self, frag_index, body=b'test data'):
utils.mkdirs(os.path.join(self.devices, 'sda1'))
df_mgr = self.reconstructor._df_router[self.policy]
if six.PY2:
obj_name = self.obj_name
else:
obj_name = self.obj_name.decode('utf8')
self.df = df_mgr.get_diskfile('sda1', 9, 'a', 'c', obj_name,
policy=self.policy)
write_diskfile(self.df, self.obj_timestamp, data=body,
frag_index=frag_index)
self.df.open()
self.logger.clear()
return self.df
def test_reconstruct_fa_no_errors(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
responses = list()
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
responses.append((200, body, headers))
# make a hook point at
# swift.obj.reconstructor.ObjectReconstructor._get_response
called_headers = []
orig_func = object_reconstructor.ObjectReconstructor._get_response
def _get_response_hook(self, node, policy, part, path, headers):
called_headers.append(headers)
return orig_func(self, node, policy, part, path, headers)
codes, body_iter, headers = zip(*responses)
get_response_path = \
'swift.obj.reconstructor.ObjectReconstructor._get_response'
with mock.patch(get_response_path, _get_response_hook):
with mocked_http_conn(
*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2, body=b''))
self.assertEqual(0, df.content_length)
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
self.assertEqual(len(part_nodes) - 1, len(called_headers),
'Expected %d calls, got %r' % (len(part_nodes) - 1,
called_headers))
for called_header in called_headers:
called_header = HeaderKeyDict(called_header)
self.assertIn('Content-Length', called_header)
self.assertEqual(called_header['Content-Length'], '0')
self.assertIn('User-Agent', called_header)
user_agent = called_header['User-Agent']
self.assertTrue(user_agent.startswith('obj-reconstructor'))
self.assertIn('X-Backend-Storage-Policy-Index', called_header)
self.assertEqual(called_header['X-Backend-Storage-Policy-Index'],
self.policy)
self.assertIn('X-Backend-Fragment-Preferences', called_header)
self.assertEqual(
[{'timestamp': self.obj_timestamp.normal, 'exclude': []}],
json.loads(called_header['X-Backend-Fragment-Preferences']))
self.assertIn('X-Backend-Replication', called_header)
# no error and warning
self.assertFalse(self.logger.get_lines_for_level('error'))
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_errors_works(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[4]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(4)
base_responses = list()
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
base_responses.append((200, body, headers))
# since we're already missing a fragment a +2 scheme can only support
# one additional failure at a time
for error in (Timeout(), 404, Exception('kaboom!')):
responses = base_responses
error_index = random.randint(0, len(responses) - 1)
responses[error_index] = (error, '', '')
codes, body_iter, headers_iter = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers_iter):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
def test_reconstruct_fa_mixed_meta_timestamps_works(self):
# verify scenario where all fragments have same data timestamp but some
# have different meta timestamp
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[4]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(4)
ts_data = next(self.ts_iter) # all frags .data timestamp
ts_meta = next(self.ts_iter) # some frags .meta timestamp
ts_cycle = itertools.cycle((ts_data, ts_meta))
responses = list()
for body in ec_archive_bodies:
ts = next(ts_cycle) # vary timestamp between data and meta
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag,
'X-Timestamp': ts.normal,
'X-Backend-Timestamp': ts.internal,
'X-Backend-Data-Timestamp': ts_data.internal,
'X-Backend-Durable-Timestamp': ts_data.internal})
responses.append((200, body, headers))
codes, body_iter, headers_iter = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers_iter):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
def test_reconstruct_fa_error_with_invalid_header(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[4]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(4)
base_responses = list()
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
base_responses.append((200, body, headers))
responses = base_responses
# force the test to exercise the handling of this bad response by
# sticking it in near the front
error_index = random.randint(0, self.policy.ec_ndata - 1)
status, body, headers = responses[error_index]
# one esoteric failure is a literal string 'None' in place of the
# X-Object-Sysmeta-EC-Frag-Index
stub_node_job = {'some_keys': 'foo', 'but_not': 'frag_index'}
headers['X-Object-Sysmeta-Ec-Frag-Index'] = str(
stub_node_job.get('frag_index'))
# oops!
self.assertEqual('None',
headers.get('X-Object-Sysmeta-Ec-Frag-Index'))
responses[error_index] = status, body, headers
codes, body_iter, headers_iter = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers_iter):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
# ... this bad response should be ignored like any other failure
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
def test_reconstruct_parity_fa_with_data_node_failure(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[-4]
node['backend_index'] = self.policy.get_backend_index(node['index'])
# make up some data (trim some amount to make it unaligned with
# segment size)
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-454]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
# the scheme is 10+4, so this gets a parity node
broken_body = ec_archive_bodies.pop(-4)
responses = list()
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
responses.append((200, body, headers))
for error in (Timeout(), 404, Exception('kaboom!')):
# grab a data node index
error_index = random.randint(0, self.policy.ec_ndata - 1)
responses[error_index] = (error, '', '')
codes, body_iter, headers_iter = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers_iter):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
def test_reconstruct_fa_exceptions_fails(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
policy = self.policy
possible_errors = [Timeout(), Exception('kaboom!')]
codes = [random.choice(possible_errors) for i in
range(policy.object_ring.replicas - 1)]
with mocked_http_conn(*codes):
self.assertRaises(DiskFileError, self.reconstructor.reconstruct_fa,
job, node, self._create_fragment(2))
error_lines = self.logger.get_lines_for_level('error')
# # of replicas failed and one more error log to report not enough
# responses to reconstruct.
self.assertEqual(policy.object_ring.replicas, len(error_lines))
for line in error_lines[:-1]:
self.assertIn("Trying to GET", line)
self.assertIn(
'Unable to get enough responses (%s x unknown error responses)'
% (policy.object_ring.replicas - 1),
error_lines[-1],
"Unexpected error line found: %s" % error_lines[-1])
# no warning
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_all_404s_fails(self):
self._create_fragment(2)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
policy = self.policy
codes = [404 for i in range(policy.object_ring.replicas - 1)]
with mocked_http_conn(*codes):
self.assertRaises(DiskFileError, self.reconstructor.reconstruct_fa,
job, node, self.df)
error_lines = self.logger.get_lines_for_level('error')
# only 1 log to report not enough responses
self.assertEqual(1, len(error_lines))
self.assertIn(
'Unable to get enough responses (%s x 404 error responses)'
% (policy.object_ring.replicas - 1),
error_lines[0],
"Unexpected error line found: %s" % error_lines[0])
# no warning
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_all_404s_fails_custom_request_node_count(self):
# verify that when quarantine_threshold is not set the number of
# requests is capped at replicas - 1 regardless of request_node_count
self._create_fragment(2)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
ring = self.policy.object_ring
# sanity check: number of handoffs available == replicas
self.assertEqual(ring.max_more_nodes, ring.replicas)
for request_node_count in (0,
self.policy.ec_ndata - 1,
ring.replicas + 1,
2 * ring.replicas - 1,
2 * ring.replicas,
3 * ring.replicas,
99 * ring.replicas):
with annotate_failure(request_node_count):
self.logger.clear()
self.reconstructor.request_node_count = \
lambda replicas: request_node_count
# request count capped at num primaries - 1
exp_requests = ring.replicas - 1
codes = [404 for i in range(exp_requests)]
with mocked_http_conn(*codes):
self.assertRaises(DiskFileError,
self.reconstructor.reconstruct_fa,
job, node, self.df)
error_lines = self.logger.get_lines_for_level('error')
# only 1 log to report not enough responses
self.assertEqual(1, len(error_lines))
self.assertIn(
'Unable to get enough responses (%s x 404 error responses)'
% exp_requests,
error_lines[0],
"Unexpected error line found: %s" % error_lines[0])
# no warning
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_mixture_of_errors_fails(self):
self._create_fragment(2)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
policy = self.policy
# ensure at least one of each error type
possible_errors = [Timeout(), 404, 507]
codes = possible_errors + [random.choice(possible_errors) for i in
range(policy.object_ring.replicas - 4)]
with mocked_http_conn(*codes):
self.assertRaises(DiskFileError, self.reconstructor.reconstruct_fa,
job, node, self.df)
exp_timeouts = len([c for c in codes if isinstance(c, Timeout)])
exp_404s = len([c for c in codes if c == 404])
exp_507s = len([c for c in codes if c == 507])
error_lines = self.logger.get_lines_for_level('error')
# 1 error log to report not enough responses and possibly some to
# report Timeouts
self.assertEqual(len(error_lines), exp_timeouts + 1, error_lines)
for line in error_lines[:-1]:
self.assertIn("Trying to GET", line)
self.assertIn(
'Unable to get enough responses '
'(%s x unknown, %s x 404, %s x 507 error responses)'
% (exp_timeouts, exp_404s, exp_507s), error_lines[-1],
"Unexpected error line found: %s" % error_lines[-1])
# no warning
warning_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(exp_507s, len(warning_lines), warning_lines)
for line in warning_lines:
self.assertIn('Invalid response 507', line)
def test_reconstruct_fa_with_mixed_old_etag(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
# bad response
broken_body = ec_archive_bodies.pop(1)
ts = make_timestamp_iter()
bad_headers = get_header_frag_index(self, broken_body)
bad_headers.update({
'X-Object-Sysmeta-Ec-Etag': 'some garbage',
'X-Backend-Timestamp': next(ts).internal,
})
# good responses
responses = list()
t1 = next(ts).internal
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag,
'X-Backend-Timestamp': t1})
responses.append((200, body, headers))
# include the one older frag with different etag in first responses
error_index = random.randint(0, self.policy.ec_ndata - 1)
error_headers = get_header_frag_index(self,
(responses[error_index])[1])
error_headers.update(bad_headers)
bad_response = (200, '', bad_headers)
responses[error_index] = bad_response
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no error and warning
self.assertFalse(self.logger.get_lines_for_level('error'))
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_with_mixed_new_etag(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
ts = make_timestamp_iter()
# good responses
responses = list()
t0 = next(ts).internal
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag,
'X-Backend-Timestamp': t0})
responses.append((200, body, headers))
# sanity check before negative test
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# one newer etag won't spoil the bunch
new_index = random.randint(0, self.policy.ec_ndata - 1)
new_headers = get_header_frag_index(self, (responses[new_index])[1])
new_headers.update({'X-Object-Sysmeta-Ec-Etag': 'some garbage',
'X-Backend-Timestamp': next(ts).internal})
new_response = (200, '', new_headers)
responses[new_index] = new_response
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no error and warning
self.assertFalse(self.logger.get_lines_for_level('error'))
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_with_mixed_etag_with_same_timestamp(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
# good responses
responses = list()
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
responses.append((200, body, headers))
# sanity check before negative test
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# a response at same timestamp but different etag won't spoil the bunch
# N.B. (FIXME). if we choose the first response as garbage, the
# reconstruction fails because all other *correct* frags will be
# assumed as garbage. To avoid the freaky failing set randint
# as [1, self.policy.ec_ndata - 1] to make the first response
# always have the correct etag to reconstruct
new_index = random.randint(1, self.policy.ec_ndata - 1)
new_headers = get_header_frag_index(self, (responses[new_index])[1])
new_headers.update({'X-Object-Sysmeta-Ec-Etag': 'some garbage'})
new_response = (200, '', new_headers)
responses[new_index] = new_response
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# expect an error log but no warnings
error_log_lines = self.logger.get_lines_for_level('error')
self.assertEqual(1, len(error_log_lines))
self.assertIn(
'Mixed Etag (some garbage, %s) for 10.0.0.1:1001/sdb/0%s '
'policy#%s frag#1' %
(etag, self.obj_path.decode('utf8'), int(self.policy)),
error_log_lines[0])
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_with_mixed_timestamps_etags_fail(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
ec_archive_dict = dict()
ts = make_timestamp_iter()
# create 3 different ec bodies
for i in range(3):
body = test_data[i:]
archive_bodies = encode_frag_archive_bodies(self.policy, body)
# pop the index to the destination node
archive_bodies.pop(1)
key = (md5(body, usedforsecurity=False).hexdigest(),
next(ts).internal, bool(i % 2))
ec_archive_dict[key] = archive_bodies
responses = list()
# fill out response list by 3 different etag bodies
for etag, ts, durable in itertools.cycle(ec_archive_dict):
body = ec_archive_dict[(etag, ts, durable)].pop(0)
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag,
'X-Backend-Timestamp': ts})
if durable:
headers['X-Backend-Durable-Timestamp'] = ts
responses.append((200, body, headers))
if len(responses) >= (self.policy.object_ring.replicas - 1):
break
# sanity, there is 3 different etag and each etag
# doesn't have > ec_k bodies
etag_count = collections.Counter(
[in_resp_headers['X-Object-Sysmeta-Ec-Etag']
for _, _, in_resp_headers in responses])
self.assertEqual(3, len(etag_count))
for etag, count in etag_count.items():
self.assertLess(count, self.policy.ec_ndata)
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
self.assertRaises(DiskFileError, self.reconstructor.reconstruct_fa,
job, node, self._create_fragment(2))
error_lines = self.logger.get_lines_for_level('error')
# 1 error log per etag to report not enough responses
self.assertEqual(3, len(error_lines))
for error_line in error_lines:
for expected_etag, ts, durable in ec_archive_dict:
if expected_etag in error_line:
break
else:
self.fail(
"no expected etag %s found: %s" %
(list(ec_archive_dict), error_line))
# remove the found etag which should not be found in the
# following error lines
del ec_archive_dict[(expected_etag, ts, durable)]
expected = 'Unable to get enough responses (%s/10 from %s ok ' \
'responses) to reconstruct %s 10.0.0.1:1001/sdb/0%s ' \
'policy#0 frag#1 with ETag %s and timestamp %s' %\
(etag_count[expected_etag], etag_count[expected_etag],
'durable' if durable else 'non-durable',
self.obj_path.decode('utf8'), expected_etag, ts)
self.assertIn(
expected, error_line,
"Unexpected error line found: Expected: %s Got: %s"
% (expected, error_line))
# no warning
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_with_mixed_etags_same_timestamp_fail(self):
self._create_fragment(2)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
ec_archive_dict = dict()
ts = next(make_timestamp_iter())
# create 3 different ec bodies
for i in range(3):
body = test_data[i:]
archive_bodies = encode_frag_archive_bodies(self.policy, body)
# pop the index to the destination node
archive_bodies.pop(1)
key = (md5(body, usedforsecurity=False).hexdigest(),
ts.internal, bool(i % 2))
ec_archive_dict[key] = archive_bodies
responses = list()
# fill out response list by 3 different etag bodies, same timestamp
for etag, ts, durable in itertools.cycle(ec_archive_dict):
body = ec_archive_dict[(etag, ts, durable)].pop(0)
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag,
'X-Backend-Timestamp': ts})
if durable:
headers['X-Backend-Durable-Timestamp'] = ts
responses.append((200, body, headers))
if len(responses) >= (self.policy.object_ring.replicas - 1):
break
# sanity, there is 3 different etag and each etag
# doesn't have > ec_k bodies
etag_count = collections.Counter(
[in_resp_headers['X-Object-Sysmeta-Ec-Etag']
for _, _, in_resp_headers in responses])
self.assertEqual(3, len(etag_count))
for etag, count in etag_count.items():
self.assertLess(count, self.policy.ec_ndata)
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
self.assertRaises(DiskFileError, self.reconstructor.reconstruct_fa,
job, node, self.df)
error_lines = self.logger.get_lines_for_level('error')
self.assertGreater(len(error_lines), 1)
for expected_etag, ts, durable in ec_archive_dict:
if expected_etag in error_lines[-1]:
break
else:
self.fail(
"no expected etag %s found: %s" %
(list(ec_archive_dict), error_lines[0]))
other_etags_count = sum(count for etag, count in etag_count.items()
if etag != expected_etag)
self.assertEqual(other_etags_count + 1, len(error_lines))
for line in error_lines[:-1]:
self.assertIn('Mixed Etag', line)
expected = 'Unable to get enough responses (%s/10 from %s ok ' \
'responses) to reconstruct %s 10.0.0.1:1001/sdb/0%s ' \
'policy#0 frag#1 with ETag %s and timestamp %s' % \
(etag_count[expected_etag], len(responses),
'durable' if durable else 'non-durable',
self.obj_path.decode('utf8'), expected_etag, ts)
self.assertIn(
expected, error_lines[-1],
"Unexpected error line found: Expected: %s Got: %s"
% (expected, error_lines[0]))
# no warning
self.assertFalse(self.logger.get_lines_for_level('warning'))
def test_reconstruct_fa_finds_missing_frag_does_not_fail(self):
# verify that reconstruction of a missing frag can cope with finding
# that missing frag in the responses it gets from other nodes while
# attempting to rebuild the missing frag
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
broken_index = random.randint(0, self.policy.ec_ndata - 1)
node = part_nodes[broken_index]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
# instead of popping the broken body, we'll just leave it in the list
# of responses and take away something else.
broken_body = ec_archive_bodies[broken_index]
ec_archive_bodies = ec_archive_bodies[:-1]
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
return headers
responses = [(200, body, make_header(body))
for body in ec_archive_bodies]
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no error, no warning
self.assertFalse(self.logger.get_lines_for_level('error'))
self.assertFalse(self.logger.get_lines_for_level('warning'))
# the found own frag will be reported in the debug message
debug_log_lines = self.logger.get_lines_for_level('debug')
# redundant frag found once in first ec_ndata responses
self.assertIn(
'Found existing frag #%s at' % broken_index,
debug_log_lines[0], debug_log_lines)
# N.B. in the future, we could avoid those check because
# definitely sending the copy rather than reconstruct will
# save resources. But one more reason, we're avoiding to
# use the dest index fragment even if it goes to reconstruct
# function is that it will cause a bunch of warning log from
# liberasurecode[1].
# 1: https://github.com/openstack/liberasurecode/blob/
# master/src/erasurecode.c#L870
log_prefix = 'Reconstruct frag #%s with frag indexes' % broken_index
self.assertIn(log_prefix, debug_log_lines[1])
self.assertFalse(debug_log_lines[2:])
got_frag_index_list = json.loads(
debug_log_lines[1][len(log_prefix):])
self.assertNotIn(broken_index, got_frag_index_list)
def test_quarantine_threshold_conf(self):
reconstructor = object_reconstructor.ObjectReconstructor({})
self.assertEqual(0, reconstructor.quarantine_threshold)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_threshold': '0'})
self.assertEqual(0, reconstructor.quarantine_threshold)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_threshold': '1'})
self.assertEqual(1, reconstructor.quarantine_threshold)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_threshold': 2.0})
self.assertEqual(2, reconstructor.quarantine_threshold)
for bad in ('1.1', 1.1, '-1', -1, 'auto', 'bad'):
with annotate_failure(bad):
with self.assertRaises(ValueError):
object_reconstructor.ObjectReconstructor(
{'quarantine_threshold': bad})
def test_quarantine_age_conf(self):
# defaults to DEFAULT_RECLAIM_AGE
reconstructor = object_reconstructor.ObjectReconstructor({})
self.assertEqual(604800, reconstructor.quarantine_age)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_age': '0'})
self.assertEqual(0, reconstructor.quarantine_age)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_age': '1'})
self.assertEqual(1, reconstructor.quarantine_age)
# trumps reclaim_age
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_age': '1', 'reclaim_age': 0})
self.assertEqual(1, reconstructor.quarantine_age)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_age': '1', 'reclaim_age': 2})
self.assertEqual(1, reconstructor.quarantine_age)
reconstructor = object_reconstructor.ObjectReconstructor(
{'quarantine_age': 2.2})
self.assertEqual(2, reconstructor.quarantine_age)
for bad in ('1.1', 'auto', 'bad'):
with annotate_failure(bad):
with self.assertRaises(ValueError):
object_reconstructor.ObjectReconstructor(
{'quarantine_age': bad})
def test_request_node_count_conf(self):
# default is 1 * replicas
reconstructor = object_reconstructor.ObjectReconstructor({})
self.assertEqual(6, reconstructor.request_node_count(3))
self.assertEqual(22, reconstructor.request_node_count(11))
def do_test(value, replicas, expected):
reconstructor = object_reconstructor.ObjectReconstructor(
{'request_node_count': value})
self.assertEqual(expected,
reconstructor.request_node_count(replicas))
do_test('0', 10, 0)
do_test('1 * replicas', 3, 3)
do_test('1 * replicas', 11, 11)
do_test('2 * replicas', 3, 6)
do_test('2 * replicas', 11, 22)
do_test('11', 11, 11)
do_test('10', 11, 10)
do_test('12', 11, 12)
for bad in ('1.1', 1.1, 'auto', 'bad',
'2.5 * replicas', 'two * replicas'):
with annotate_failure(bad):
with self.assertRaises(ValueError):
object_reconstructor.ObjectReconstructor(
{'request_node_count': bad})
def _do_test_reconstruct_insufficient_frags(
self, extra_conf, num_frags, other_responses,
local_frag_index=2, frag_index_to_rebuild=1,
resp_timestamps=None, resp_etags=None):
# num_frags is number of ok responses, other_responses is bad responses
# By default frag_index_to_rebuild is less than local_frag_index and
# all frag responses have indexes >= local_frag_index
self.assertGreater(num_frags, 0)
self.logger.clear()
self._configure_reconstructor(**extra_conf)
self._create_fragment(local_frag_index)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[frag_index_to_rebuild]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
frags = ec_archive_bodies[
local_frag_index:local_frag_index + num_frags]
if resp_etags:
self.assertEqual(len(frags), len(resp_etags))
etags = []
for other_etag in resp_etags:
# use default etag where other_etag is None
etags.append(other_etag if other_etag else etag)
else:
etags = [etag] * len(frags)
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etags.pop(0)})
return headers
responses = [(200, frag, make_header(frag)) for frag in frags]
codes, body_iter, headers = zip(*(responses + other_responses))
resp_timestamps = (resp_timestamps if resp_timestamps
else [self.obj_timestamp] * len(codes))
resp_timestamps = [ts.internal for ts in resp_timestamps]
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers,
timestamps=resp_timestamps):
with self.assertRaises(DiskFileError) as cm:
self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
return cm.exception
def _verify_error_lines(self, num_frags, other_responses,
exp_useful_responses):
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(2, len(error_lines), error_lines)
self.assertIn(
'Unable to get enough responses (%d/%d from %d ok responses)'
% (exp_useful_responses, self.policy.ec_ndata, num_frags),
error_lines[0])
bad_codes = collections.Counter(
status for status, _, _ in other_responses)
errors = ', '.join('%s x %s' % (num, code)
for code, num in sorted(bad_codes.items()))
self.assertIn('Unable to get enough responses (%s error responses)'
% errors, error_lines[1])
def _assert_diskfile_quarantined(self):
warning_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_lines), warning_lines)
self.assertIn('Quarantined object', warning_lines[0])
# Check the diskfile has moved to quarantine dir
data_filename = os.path.basename(self.df._data_file)
df_hash = os.path.basename(self.df._datadir)
quarantine_dir = os.path.join(
self.df._device_path, 'quarantined',
diskfile.get_data_dir(self.policy), df_hash)
self.assertTrue(os.path.isdir(quarantine_dir))
quarantine_file = os.path.join(quarantine_dir, data_filename)
self.assertTrue(os.path.isfile(quarantine_file))
with open(quarantine_file, 'r') as fd:
self.assertEqual('test data', fd.read())
self.assertFalse(os.path.exists(self.df._data_file))
def _assert_diskfile_not_quarantined(self):
# Check the diskfile has not moved to quarantine dir
quarantine_dir = os.path.join(
self.df._device_path, 'quarantined')
self.assertFalse(os.path.isdir(quarantine_dir))
self.assertTrue(os.path.exists(self.df._data_file))
with open(self.df._data_file, 'r') as fd:
self.assertEqual('test data', fd.read())
def test_reconstruct_fa_quarantine_threshold_one_rnc_two_replicas(self):
# use default request_node_count == 2 * replicas
num_other_resps = 2 * self.policy.object_ring.replicas - 2
other_responses = [(404, None, None)] * num_other_resps
conf = {'quarantine_threshold': 1, 'reclaim_age': 0}
exc = self._do_test_reconstruct_insufficient_frags(
conf, 1, other_responses)
self.assertIsInstance(exc, DiskFileQuarantined)
self._assert_diskfile_quarantined()
self._verify_error_lines(1, other_responses, 1)
def test_reconstruct_fa_quarantine_threshold_one_rnc_three_replicas(self):
num_other_resps = 3 * self.policy.object_ring.replicas - 2
other_responses = [(404, None, None)] * num_other_resps
conf = {'quarantine_threshold': 1, 'reclaim_age': 0,
'request_node_count': '3 * replicas'}
# set ring get_more_nodes to yield enough handoffs
self.policy.object_ring.max_more_nodes = (
2 * self.policy.object_ring.replicas)
exc = self._do_test_reconstruct_insufficient_frags(
conf, 1, other_responses)
self.assertIsInstance(exc, DiskFileQuarantined)
self._assert_diskfile_quarantined()
self._verify_error_lines(1, other_responses, 1)
def test_reconstruct_fa_quarantine_threshold_one_rnc_four_replicas(self):
# verify handoff search exhausting handoff node iter
num_other_resps = 3 * self.policy.object_ring.replicas - 2
other_responses = [(404, None, None)] * num_other_resps
conf = {'quarantine_threshold': 1, 'reclaim_age': 0,
'request_node_count': '4 * replicas'}
# limit ring get_more_nodes to yield less than
# (request_node_count - 1 * replicas) nodes
self.policy.object_ring.max_more_nodes = (
2 * self.policy.object_ring.replicas)
exc = self._do_test_reconstruct_insufficient_frags(
conf, 1, other_responses)
self.assertIsInstance(exc, DiskFileQuarantined)
self._assert_diskfile_quarantined()
self._verify_error_lines(1, other_responses, 1)
def test_reconstruct_fa_quarantine_threshold_one_rnc_absolute_number(self):
def do_test(rnc_num):
if rnc_num < self.policy.object_ring.replicas:
num_other_resps = self.policy.object_ring.replicas - 2
else:
num_other_resps = rnc_num - 2
other_responses = [(404, None, None)] * num_other_resps
conf = {'quarantine_threshold': 1, 'reclaim_age': 0,
'request_node_count': str(rnc_num)}
# set ring get_more_nodes to yield enough handoffs
self.policy.object_ring.max_more_nodes = (
2 * self.policy.object_ring.replicas)
exc = self._do_test_reconstruct_insufficient_frags(
conf, 1, other_responses)
self.assertIsInstance(exc, DiskFileQuarantined)
self._assert_diskfile_quarantined()
self._verify_error_lines(1, other_responses, 1)
for rnc_num in range(0, 3 * self.policy.object_ring.replicas):
do_test(rnc_num)
def test_reconstruct_fa_quarantine_threshold_two(self):
num_other_resps = 2 * self.policy.object_ring.replicas - 3
other_responses = [(404, None, None)] * num_other_resps
conf = {'quarantine_threshold': 2, 'reclaim_age': 0}
exc = self._do_test_reconstruct_insufficient_frags(
conf, 2, other_responses)
self.assertIsInstance(exc, DiskFileQuarantined)
self._assert_diskfile_quarantined()
self._verify_error_lines(2, other_responses, 2)
def test_reconstruct_fa_quarantine_threshold_two_with_quarantine_age(self):
num_other_resps = 2 * self.policy.object_ring.replicas - 3
other_responses = [(404, None, None)] * num_other_resps
conf = {'quarantine_threshold': 2,
'quarantine_age': 0, # quarantine age trumps reclaim age
'reclaim_age': 1000}
exc = self._do_test_reconstruct_insufficient_frags(
conf, 2, other_responses)
self.assertIsInstance(exc, DiskFileQuarantined)
self._assert_diskfile_quarantined()
self._verify_error_lines(2, other_responses, 2)
def test_reconstruct_fa_no_quarantine_more_than_threshold_frags(self):
# default config
num_other_resps = self.policy.object_ring.replicas - 2
other_responses = [(404, None, None)] * num_other_resps
exc = self._do_test_reconstruct_insufficient_frags(
{'reclaim_age': 0}, 1, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
# configured quarantine_threshold
for quarantine_threshold in range(self.policy.ec_ndata):
for num_frags in range(quarantine_threshold + 1,
self.policy.ec_ndata):
num_other_resps = (self.policy.object_ring.replicas -
num_frags - 1)
other_responses = [(404, None, None)] * num_other_resps
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': quarantine_threshold,
'reclaim_age': 0},
num_frags, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(num_frags, other_responses, num_frags)
warning_lines = self.logger.get_lines_for_level('warning')
self.assertEqual([], warning_lines)
# responses include the frag_index_to_rebuild - verify that response is
# counted against the threshold
num_other_resps = self.policy.object_ring.replicas - 3
other_responses = [(404, None, None)] * num_other_resps
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 0}, 2, other_responses,
local_frag_index=2, frag_index_to_rebuild=3)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(2, other_responses, 1)
def test_reconstruct_fa_no_quarantine_non_404_response(self):
num_frags = 1
ring = self.policy.object_ring
for bad_status in (400, 503, 507):
# a non-404 in primary responses will prevent quarantine
num_other_resps = ring.replicas - num_frags - 1
other_responses = [(404, None, None)] * (num_other_resps - 1)
other_responses.append((bad_status, None, None))
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 0},
num_frags, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(num_frags, other_responses, num_frags)
warning_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_lines), warning_lines)
self.assertIn('Invalid response %s' % bad_status, warning_lines[0])
# a non-404 in handoff responses will prevent quarantine; non-404
# is the *final* handoff response...
ring.max_more_nodes = (13 * ring.replicas)
for request_node_count in (2, 3, 13):
num_other_resps = (request_node_count * ring.replicas
- num_frags - 1)
other_responses = [(404, None, None)] * (num_other_resps - 1)
other_responses.append((bad_status, None, None))
with annotate_failure(
'request_node_count=%d' % request_node_count):
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1,
'reclaim_age': 0,
'request_node_count': '%s * replicas'
% request_node_count},
num_frags, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(num_frags, other_responses, num_frags)
warning_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_lines), warning_lines)
self.assertIn('Invalid response %s' % bad_status,
warning_lines[0])
# a non-404 in handoff responses will prevent quarantine; non-404
# is part way through all handoffs so not all handoffs are used
# regardless of how big request_node_count is
non_404_handoff = 3
for request_node_count in (2, 3, 13):
# replicas - 1 - num_frags other_responses from primaries,
# plus a batch of replicas - 1 during which non-404 shows up,
# plus some that trickle out before the non-404 shows up, but
# limited to (request_node_count * replicas - num_frags - 1)
# e.g. for 10+4 policy with request_node_count > 2
# - batch of 13 requests go to primaries,
# - 12 other_responses are consumed,
# - then a batch of 13 handoff requests is sent,
# - the non-404 is the 4th response in that batch,
# - so 3 more requests will have been trickled out
batch_size = ring.replicas - 1
num_other_resps = min(
2 * batch_size - num_frags + non_404_handoff,
request_node_count * ring.replicas - 1 - num_frags)
other_responses = [(404, None, None)] * (num_other_resps - 1)
other_responses.insert(
batch_size - num_frags + non_404_handoff,
(bad_status, None, None))
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 0,
'request_node_count': '%s * replicas'
% request_node_count},
num_frags, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(num_frags, other_responses, num_frags)
warning_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_lines), warning_lines)
self.assertIn('Invalid response %s' % bad_status,
warning_lines[0])
def test_reconstruct_fa_no_quarantine_frag_not_old_enough(self):
# verify that solitary fragment is not quarantined if it has not
# reached reclaim_age
num_other_resps = self.policy.object_ring.replicas - 2
other_responses = [(404, None, None)] * num_other_resps
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 10000},
1, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(1, other_responses, 1)
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1,
'quarantine_age': 10000, # quarantine_age trumps reclaim_age
'reclaim_age': 0},
1, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(1, other_responses, 1)
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1}, # default reclaim_age
1, other_responses)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(1, other_responses, 1)
def test_reconstruct_fa_no_quarantine_frag_resp_different_timestamp(self):
# verify that solitary fragment is not quarantined if the only frag
# response is for a different timestamp than the local frag
resp_timestamp = utils.Timestamp(float(self.obj_timestamp) + 1)
num_other_resps = self.policy.object_ring.replicas - 2
other_responses = [(404, None, None)] * num_other_resps
resp_timestamps = [resp_timestamp] * (num_other_resps + 1)
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 0},
1, other_responses, resp_timestamps=resp_timestamps)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(1, other_responses, 1)
def test_reconstruct_fa_no_quarantine_frag_resp_mixed_timestamps(self):
# verify that solitary fragment is not quarantined if there is a
# response for a frag at different timestamp in addition to the
# response for the solitary local frag
resp_timestamp = utils.Timestamp(float(self.obj_timestamp) + 1)
num_other_resps = self.policy.object_ring.replicas - 3
other_responses = [(404, None, None)] * num_other_resps
resp_timestamps = ([self.obj_timestamp] +
[resp_timestamp] * (num_other_resps + 1))
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 0},
2, other_responses, resp_timestamps=resp_timestamps)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(3, len(error_lines), error_lines)
self.assertIn(
'Unable to get enough responses (1/%d from 1 ok responses)'
% (self.policy.ec_ndata,), error_lines[0])
self.assertIn(
'Unable to get enough responses (1/%d from 1 ok responses)'
% (self.policy.ec_ndata,), error_lines[1])
self.assertIn(
'Unable to get enough responses (%d x 404 error responses)'
% num_other_resps, error_lines[2])
def test_reconstruct_fa_no_quarantine_frag_resp_mixed_etags(self):
# verify that solitary fragment is not quarantined if there is a
# response for a frag with different etag in addition to the
# response for the solitary local frag
etags = [None, 'unexpected_etag']
num_other_resps = self.policy.object_ring.replicas - 3
other_responses = [(404, None, None)] * num_other_resps
exc = self._do_test_reconstruct_insufficient_frags(
{'quarantine_threshold': 1, 'reclaim_age': 0},
2, other_responses, resp_etags=etags)
self.assertIsInstance(exc, DiskFileError)
self._assert_diskfile_not_quarantined()
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(3, len(error_lines), error_lines)
self.assertIn(
'Mixed Etag', error_lines[0])
self.assertIn(
'Unable to get enough responses (1/%d from 2 ok responses)'
% (self.policy.ec_ndata,), error_lines[1])
self.assertIn(
'Unable to get enough responses (%d x 404 error responses)'
% num_other_resps, error_lines[2])
def _do_test_reconstruct_fa_no_quarantine_bad_headers(self, bad_headers):
# verify that responses with invalid headers count against the
# quarantine_threshold
self._configure_reconstructor(reclaim_age=0, quarantine_threshold=1)
local_frag_index = 2
self._create_fragment(local_frag_index)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[0]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
return headers
responses = []
body = ec_archive_bodies[2]
headers = make_header(body)
responses.append((200, body, headers))
body = ec_archive_bodies[3]
headers = make_header(body)
headers.update(bad_headers)
responses.append((200, body, headers))
other_responses = ([(404, None, None)] *
(self.policy.object_ring.replicas - 3))
codes, body_iter, headers = zip(*(responses + other_responses))
resp_timestamps = [self.obj_timestamp] * len(codes)
resp_timestamps = [ts.internal for ts in resp_timestamps]
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers,
timestamps=resp_timestamps):
with self.assertRaises(DiskFileError) as cm:
self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
self.assertIsInstance(cm.exception, DiskFileError)
self._assert_diskfile_not_quarantined()
error_lines = self.logger.get_lines_for_level('error')
self.assertEqual(2, len(error_lines), error_lines)
self.assertIn(
'Unable to get enough responses (1/%d from 1 ok responses)'
% (self.policy.ec_ndata,), error_lines[0])
self.assertIn(
'Unable to get enough responses '
'(1 x unknown, %d x 404 error responses)'
% len(other_responses), error_lines[1])
def test_reconstruct_fa_no_quarantine_invalid_frag_index_header(self):
self._do_test_reconstruct_fa_no_quarantine_bad_headers(
{'X-Object-Sysmeta-Ec-Frag-Index': 'two'})
def test_reconstruct_fa_no_quarantine_missing_frag_index_header(self):
self._do_test_reconstruct_fa_no_quarantine_bad_headers(
{'X-Object-Sysmeta-Ec-Frag-Index': ''})
def test_reconstruct_fa_no_quarantine_missing_timestamp_header(self):
self._do_test_reconstruct_fa_no_quarantine_bad_headers(
{'X-Backend-Data-Timestamp': ''})
def test_reconstruct_fa_no_quarantine_missing_etag_header(self):
self._do_test_reconstruct_fa_no_quarantine_bad_headers(
{'X-Object-Sysmeta-Ec-Etag': ''})
def test_reconstruct_fa_frags_on_handoffs(self):
# just a lonely old frag on primaries: this appears to be a quarantine
# candidate, but unexpectedly the other frags are found on handoffs so
# expect rebuild
# set reclaim_age to 0 to make lonely frag old enugh for quarantine
self._configure_reconstructor(quarantine_threshold=1, reclaim_age=0)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
# arrange for just one 200 to come from a primary, then 404s, then 200s
# from handoffs
responses = list()
for i, body in enumerate(ec_archive_bodies):
if i == 1:
# skip: this is the frag index we're rebuilding; insert 404s
responses.extend(
((404, None, None),) * self.policy.object_ring.replicas)
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
responses.append((200, body, headers))
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(
*codes, body_iter=body_iter, headers=headers,
timestamps=[self.obj_timestamp.internal] * len(codes)):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(0, body=b''))
self.assertEqual(0, df.content_length)
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no error and warning
self.assertFalse(self.logger.get_lines_for_level('error'))
self.assertFalse(self.logger.get_lines_for_level('warning'))
debug_lines = self.logger.get_lines_for_level('debug')
self.assertIn('Reconstructing frag from handoffs, node_count=%d'
% (self.policy.object_ring.replicas * 2), debug_lines)
def test_reconstruct_fa_finds_duplicate_does_not_fail(self):
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
# add some duplicates
num_duplicates = self.policy.ec_nparity - 1
ec_archive_bodies = (ec_archive_bodies[:num_duplicates] +
ec_archive_bodies)[:-num_duplicates]
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
return headers
responses = [(200, body, make_header(body))
for body in ec_archive_bodies]
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no error and warning
self.assertFalse(self.logger.get_lines_for_level('error'))
self.assertFalse(self.logger.get_lines_for_level('warning'))
debug_log_lines = self.logger.get_lines_for_level('debug')
self.assertEqual(1, len(debug_log_lines))
expected_prefix = 'Reconstruct frag #1 with frag indexes'
self.assertIn(expected_prefix, debug_log_lines[0])
got_frag_index_list = json.loads(
debug_log_lines[0][len(expected_prefix):])
self.assertNotIn(1, got_frag_index_list)
def test_reconstruct_fa_missing_headers(self):
# This is much negative tests asserting when the expected
# headers are missing in the responses to gather fragments
# to reconstruct
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update(
{'X-Object-Sysmeta-Ec-Etag': etag,
'X-Backend-Timestamp': self.obj_timestamp.internal})
return headers
def test_missing_header(missing_header, warning_extra):
self.logger._clear()
responses = [(200, body, make_header(body))
for body in ec_archive_bodies]
# To drop the header from the response[0], set None as the value
# explicitly instead of deleting the key because if no key exists
# in the dict, fake_http_connect will insert some key/value pairs
# automatically (e.g. X-Backend-Timestamp)
responses[0][2].update({missing_header: None})
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(
*codes, body_iter=body_iter, headers=headers) as mock_conn:
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no errors
self.assertFalse(self.logger.get_lines_for_level('error'))
# ...but warning for the missing header
warning_log_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_log_lines))
path = unquote(
'%(ip)s:%(port)d%(path)s' % mock_conn.requests[0]
)
expected_warning = 'Invalid resp from %s policy#0%s' % (
path, warning_extra)
if six.PY2:
expected_warning = expected_warning.decode('utf8')
self.assertIn(expected_warning, warning_log_lines)
test_missing_header(
'X-Object-Sysmeta-Ec-Frag-Index',
' (invalid X-Object-Sysmeta-Ec-Frag-Index: None)')
test_missing_header(
'X-Object-Sysmeta-Ec-Etag',
', frag index 0 (missing Etag)')
test_missing_header(
'X-Backend-Timestamp',
', frag index 0 (missing X-Backend-Data-Timestamp and '
'X-Backend-Timestamp)')
def test_reconstruct_fa_invalid_frag_index_headers(self):
# This is much negative tests asserting when the expected
# ec frag index header has invalid value in the responses
# to gather fragments to reconstruct
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[1]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(1)
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
return headers
def test_invalid_ec_frag_index_header(invalid_frag_index):
self.logger._clear()
responses = [(200, body, make_header(body))
for body in ec_archive_bodies]
responses[0][2].update({
'X-Object-Sysmeta-Ec-Frag-Index': invalid_frag_index})
codes, body_iter, headers = zip(*responses)
with mocked_http_conn(
*codes, body_iter=body_iter, headers=headers) as mock_conn:
df = self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
# no errors
self.assertFalse(self.logger.get_lines_for_level('error'))
# ...but warning for the invalid header
warning_log_lines = self.logger.get_lines_for_level('warning')
self.assertEqual(1, len(warning_log_lines))
path = unquote(
'%(ip)s:%(port)d%(path)s' % mock_conn.requests[0]
)
expected_warning = (
'Invalid resp from %s policy#0 '
'(invalid X-Object-Sysmeta-Ec-Frag-Index: %r)'
% (path, invalid_frag_index))
if six.PY2:
expected_warning = expected_warning.decode('utf8')
self.assertIn(expected_warning, warning_log_lines)
for value in ('None', 'invalid'):
test_invalid_ec_frag_index_header(value)
@patch_policies(with_ec_default=True)
class TestReconstructFragmentArchiveUTF8(TestReconstructFragmentArchive):
# repeat superclass tests with an object path that contains non-ascii chars
obj_name = b'o\xc3\xa8'
@patch_policies([ECStoragePolicy(0, name='ec', is_default=True,
ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=10, ec_nparity=4,
ec_segment_size=4096,
ec_duplication_factor=2),
StoragePolicy(1, name='other')],
fake_ring_args=[{'replicas': 28}, {'replicas': 3}])
class TestReconstructFragmentArchiveECDuplicationFactor(
TestReconstructFragmentArchive):
def test_reconstruct_fa_no_quarantine_duplicate_frags(self):
# verify that quarantine does not happen if the only other response in
# addition to the lonely frag's own response is for the same
# (duplicate) frag index
self._configure_reconstructor(quarantine_threshold=1, reclaim_age=0)
local_frag_index = 2
self._create_fragment(local_frag_index)
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[0]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
frags = [
ec_archive_bodies[local_frag_index],
ec_archive_bodies[local_frag_index +
self.policy.ec_n_unique_fragments]]
def make_header(body):
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
return headers
responses = [(200, frag, make_header(frag)) for frag in frags]
other_responses = ([(404, None, None)] *
(self.policy.ec_n_unique_fragments * 2 - 3))
codes, body_iter, headers = zip(*(responses + other_responses))
resp_timestamps = [self.obj_timestamp.internal] * len(codes)
with mocked_http_conn(*codes, body_iter=body_iter,
headers=headers,
timestamps=resp_timestamps):
with self.assertRaises(DiskFileError) as cm:
self.reconstructor.reconstruct_fa(
job, node, self._create_fragment(2))
self.assertIsInstance(cm.exception, DiskFileError)
self._assert_diskfile_not_quarantined()
self._verify_error_lines(2, other_responses, 1)
@patch_policies([ECStoragePolicy(0, name='ec', is_default=True,
ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=10, ec_nparity=4,
ec_segment_size=4096,
ec_duplication_factor=2),
StoragePolicy(1, name='other')],
fake_ring_args=[{'replicas': 28}, {'replicas': 3}])
class TestObjectReconstructorECDuplicationFactor(TestObjectReconstructor):
def setUp(self):
super(TestObjectReconstructorECDuplicationFactor, self).setUp()
self.fabricated_ring = FabricatedRing(replicas=28, devices=56)
def _test_reconstruct_with_duplicate_frags_no_errors(self, index):
utils.mkdirs(os.path.join(self.devices, 'sda1'))
df_mgr = self.reconstructor._df_router[self.policy]
df = df_mgr.get_diskfile('sda1', 9, 'a', 'c', 'o',
policy=self.policy)
write_diskfile(df, self.ts(), data=b'', frag_index=2)
df.open()
job = {
'partition': 0,
'policy': self.policy,
}
part_nodes = self.policy.object_ring.get_part_nodes(0)
node = part_nodes[index]
node['backend_index'] = self.policy.get_backend_index(node['index'])
test_data = (b'rebuild' * self.policy.ec_segment_size)[:-777]
etag = md5(test_data, usedforsecurity=False).hexdigest()
ec_archive_bodies = encode_frag_archive_bodies(self.policy, test_data)
broken_body = ec_archive_bodies.pop(index)
responses = list()
for body in ec_archive_bodies:
headers = get_header_frag_index(self, body)
headers.update({'X-Object-Sysmeta-Ec-Etag': etag})
responses.append((200, body, headers))
# make a hook point at
# swift.obj.reconstructor.ObjectReconstructor._get_response
called_headers = []
orig_func = object_reconstructor.ObjectReconstructor._get_response
def _get_response_hook(self, node, policy, part, path, headers):
called_headers.append(headers)
return orig_func(self, node, policy, part, path, headers)
# need parity + 1 node failures to reach duplicated fragments
failed_start_at = (
self.policy.ec_n_unique_fragments - self.policy.ec_nparity - 1)
# set Timeout for node #9, #10, #11, #12, #13
for i in range(self.policy.ec_nparity + 1):
responses[failed_start_at + i] = (Timeout(), '', '')
codes, body_iter, headers = zip(*responses)
get_response_path = \
'swift.obj.reconstructor.ObjectReconstructor._get_response'
with mock.patch(get_response_path, _get_response_hook):
with mocked_http_conn(
*codes, body_iter=body_iter, headers=headers):
df = self.reconstructor.reconstruct_fa(
job, node, df)
fixed_body = b''.join(df.reader())
self.assertEqual(len(fixed_body), len(broken_body))
self.assertEqual(
md5(fixed_body, usedforsecurity=False).hexdigest(),
md5(broken_body, usedforsecurity=False).hexdigest())
for called_header in called_headers:
called_header = HeaderKeyDict(called_header)
self.assertIn('Content-Length', called_header)
self.assertEqual(called_header['Content-Length'], '0')
self.assertIn('User-Agent', called_header)
user_agent = called_header['User-Agent']
self.assertTrue(user_agent.startswith('obj-reconstructor'))
def test_reconstruct_with_duplicate_frags_no_errors(self):
# any fragments can be broken
for index in range(28):
self._test_reconstruct_with_duplicate_frags_no_errors(index)
def test_iter_nodes_for_frag(self):
self.reconstructor.rebuild_handoff_node_count = -1
policy = ECStoragePolicy(1, name='test', ec_type=DEFAULT_TEST_EC_TYPE,
ec_ndata=4, ec_nparity=3,
ec_duplication_factor=2)
policy.object_ring = FabricatedRing(replicas=14, devices=42)
primaries = policy.object_ring.get_part_nodes(0)
node = primaries[0]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [0, 0, 7, 14, 21]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(0, node['backend_index'])
node = primaries[3]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [3, 3, 10, 17, 24]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(3, node['backend_index'])
node = primaries[7]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [7, 0, 7, 14, 21]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(0, node['backend_index'])
node = primaries[-1]
nodes_for_frag = list(self.reconstructor._iter_nodes_for_frag(
policy, 0, node))
expected = [13, 6, 13, 20, 27]
self.assertEqual(expected, [n.get('index', n.get('handoff_index'))
for n in nodes_for_frag])
for node in nodes_for_frag:
self.assertEqual(6, node['backend_index'])
if __name__ == '__main__':
unittest.main()
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