deb-swift/test/probe/test_object_partpower_increase.py
Christian Schwede e1140666d6 Add support to increase object ring partition power
This patch adds methods to increase the partition power of an existing
object ring without downtime for the users using a 3-step process. Data
won't be moved to other nodes; objects using the new increased partition
power will be located on the same device and are hardlinked to avoid
data movement.

1. A new setting "next_part_power" will be added to the rings, and once
the proxy server reloaded the rings it will send this value to the
object servers on any write operation. Object servers will now create a
hard-link in the new location to the original DiskFile object. Already
existing data will be relinked using a new tool in the new locations
using hardlinks.

2. The actual partition power itself will be increased. Servers will now
use the new partition power to read from and write to. No longer
required hard links in the old object location have to be removed now by
the relinker tool; the relinker tool reads the next_part_power setting
to find object locations that need to be cleaned up.

3. The "next_part_power" flag will be removed.

This mostly implements the spec in [1]; however it's not using an
"epoch" as described there. The idea of the epoch was to store data
using different partition powers in their own namespace to avoid
conflicts with auditors and replicators as well as being able to abort
such an operation and just remove the new tree.  This would require some
heavy change of the on-disk data layout, and other object-server
implementations would be required to adopt this scheme too.

Instead the object-replicator is now aware that there is a partition
power increase in progress and will skip replication of data in that
storage policy; the relinker tool should be simply run and afterwards
the partition power will be increased. This shouldn't take that much
time (it's only walking the filesystem and hardlinking); impact should
be low therefore. The relinker should be run on all storage nodes at the
same time in parallel to decrease the required time (though this is not
mandatory). Failures during relinking should not affect cluster
operations - relinking can be even aborted manually and restarted later.

Auditors are not quarantining objects written to a path with a different
partition power and therefore working as before (though they are reading
each object twice in the worst case before the no longer needed hard
links are removed).

Co-Authored-By: Alistair Coles <alistair.coles@hpe.com>
Co-Authored-By: Matthew Oliver <matt@oliver.net.au>
Co-Authored-By: Tim Burke <tim.burke@gmail.com>

[1] https://specs.openstack.org/openstack/swift-specs/specs/in_progress/
increasing_partition_power.html

Change-Id: I7d6371a04f5c1c4adbb8733a71f3c177ee5448bb
2017-06-15 15:08:48 -07:00

200 lines
7.3 KiB
Python
Executable File

#!/usr/bin/env python
#
# 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 os
from errno import EEXIST
from shutil import copyfile
from tempfile import mkstemp
from time import time
from unittest import main
from uuid import uuid4
from swiftclient import client
from swift.cli.relinker import relink, cleanup
from swift.common.manager import Manager
from swift.common.ring import RingBuilder
from swift.common.utils import replace_partition_in_path
from swift.obj.diskfile import get_data_dir
from test.probe.common import ECProbeTest, ProbeTest, ReplProbeTest
class TestPartPowerIncrease(ProbeTest):
def setUp(self):
super(TestPartPowerIncrease, self).setUp()
_, self.ring_file_backup = mkstemp()
_, self.builder_file_backup = mkstemp()
self.ring_file = self.object_ring.serialized_path
self.builder_file = self.ring_file.replace('ring.gz', 'builder')
copyfile(self.ring_file, self.ring_file_backup)
copyfile(self.builder_file, self.builder_file_backup)
# In case the test user is not allowed to write rings
self.assertTrue(os.access('/etc/swift', os.W_OK))
self.assertTrue(os.access('/etc/swift/backups', os.W_OK))
self.assertTrue(os.access('/etc/swift/object.builder', os.W_OK))
self.assertTrue(os.access('/etc/swift/object.ring.gz', os.W_OK))
# Ensure the test object will be erasure coded
self.data = ' ' * getattr(self.policy, 'ec_segment_size', 1)
self.devices = [
self.device_dir('object', {'ip': ip, 'port': port, 'device': ''})
for ip, port in set((dev['ip'], dev['port'])
for dev in self.object_ring.devs)]
def tearDown(self):
# Keep a backup copy of the modified .builder file
backup_dir = os.path.join(
os.path.dirname(self.builder_file), 'backups')
try:
os.mkdir(backup_dir)
except OSError as err:
if err.errno != EEXIST:
raise
backup_name = (os.path.join(
backup_dir,
'%d.probe.' % time() + os.path.basename(self.builder_file)))
copyfile(self.builder_file, backup_name)
# Restore original ring
os.system('sudo mv %s %s' % (
self.ring_file_backup, self.ring_file))
os.system('sudo mv %s %s' % (
self.builder_file_backup, self.builder_file))
def _find_objs_ondisk(self, container, obj):
locations = []
opart, onodes = self.object_ring.get_nodes(
self.account, container, obj)
for node in onodes:
start_dir = os.path.join(
self.device_dir('object', node),
get_data_dir(self.policy),
str(opart))
for root, dirs, files in os.walk(start_dir):
for filename in files:
if filename.endswith('.data'):
locations.append(os.path.join(root, filename))
return locations
def _test_main(self, cancel=False):
container = 'container-%s' % uuid4()
obj = 'object-%s' % uuid4()
obj2 = 'object-%s' % uuid4()
# Create container
headers = {'X-Storage-Policy': self.policy.name}
client.put_container(self.url, self.token, container, headers=headers)
# Create a new object
client.put_object(self.url, self.token, container, obj, self.data)
client.head_object(self.url, self.token, container, obj)
# Prepare partition power increase
builder = RingBuilder.load(self.builder_file)
builder.prepare_increase_partition_power()
builder.save(self.builder_file)
ring_data = builder.get_ring()
ring_data.save(self.ring_file)
# Ensure the proxy uses the changed ring
Manager(['proxy']).restart()
# Ensure object is still accessible
client.head_object(self.url, self.token, container, obj)
# Relink existing objects
for device in self.devices:
self.assertEqual(0, relink(skip_mount_check=True, devices=device))
# Create second object after relinking and ensure it is accessible
client.put_object(self.url, self.token, container, obj2, self.data)
client.head_object(self.url, self.token, container, obj2)
# Remember the original object locations
org_locations = self._find_objs_ondisk(container, obj)
org_locations += self._find_objs_ondisk(container, obj2)
# Remember the new object locations
new_locations = []
for loc in org_locations:
new_locations.append(replace_partition_in_path(
str(loc), self.object_ring.part_power + 1))
# Overwrite existing object - to ensure that older timestamp files
# will be cleaned up properly later
client.put_object(self.url, self.token, container, obj, self.data)
# Ensure objects are still accessible
client.head_object(self.url, self.token, container, obj)
client.head_object(self.url, self.token, container, obj2)
# Increase partition power
builder = RingBuilder.load(self.builder_file)
if not cancel:
builder.increase_partition_power()
else:
builder.cancel_increase_partition_power()
builder.save(self.builder_file)
ring_data = builder.get_ring()
ring_data.save(self.ring_file)
# Ensure the proxy uses the changed ring
Manager(['proxy']).restart()
# Ensure objects are still accessible
client.head_object(self.url, self.token, container, obj)
client.head_object(self.url, self.token, container, obj2)
# Overwrite existing object - to ensure that older timestamp files
# will be cleaned up properly later
client.put_object(self.url, self.token, container, obj, self.data)
# Cleanup old objects in the wrong location
for device in self.devices:
self.assertEqual(0, cleanup(skip_mount_check=True, devices=device))
# Ensure objects are still accessible
client.head_object(self.url, self.token, container, obj)
client.head_object(self.url, self.token, container, obj2)
# Ensure data in old or relinked object locations is removed
if not cancel:
for fn in org_locations:
self.assertFalse(os.path.exists(fn))
else:
for fn in new_locations:
self.assertFalse(os.path.exists(fn))
class TestReplPartPowerIncrease(TestPartPowerIncrease, ReplProbeTest):
def test_main(self):
self._test_main()
def test_canceled(self):
self._test_main(cancel=True)
class TestECPartPowerIncrease(TestPartPowerIncrease, ECProbeTest):
def test_main(self):
self._test_main()
def test_canceled(self):
self._test_main(cancel=True)
if __name__ == '__main__':
main()