swift/test/probe/test_object_handoff.py
Sergey Kraynev ea7858176b Implementation of replication servers
Support separate replication ip address:
- Added new function in utils. This function provides ability
  to select separate IP address for replication service.
- Db_replicator and object replicators were changed.
  Replication process uses new function now.

Replication network parameters:
- Replication network fields (replication_ip, replication_port)
  support was added to device dictionary in swift-ring-builder script.
- Changes were made to support new fields in search, show and set_info
  functions.

Implementation of replication servers:
- Separate replication servers use the same code as normal replication
  servers, but with replication_server parameter = True.  When using a
  separate replication network, the non-replication servers set
  replication_server = False.  When there is no separate replication
  network (the default case), replication_server is not included in the config.

DocImpact
Change-Id: Ie9af5bdcdf9241c355e36053ca4adfe49dc35bd0
Implements: blueprint dedicated-replication-network
2013-04-21 18:14:42 -04:00

199 lines
8.8 KiB
Python
Executable File

#!/usr/bin/python -u
# Copyright (c) 2010-2012 OpenStack, LLC.
#
# 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.
from subprocess import call, Popen
from unittest import main, TestCase
from uuid import uuid4
from swiftclient import client
from swift.common import direct_client
from test.probe.common import kill_server, kill_servers, reset_environment, \
start_server
class TestObjectHandoff(TestCase):
def setUp(self):
(self.pids, self.port2server, self.account_ring, self.container_ring,
self.object_ring, self.url, self.token,
self.account, self.configs) = reset_environment()
def tearDown(self):
kill_servers(self.port2server, self.pids)
def test_main(self):
# Create container
# Kill one container/obj primary server
# Create container/obj (goes to two primary servers and one handoff)
# Kill other two container/obj primary servers
# Indirectly through proxy assert we can get container/obj
# Restart those other two container/obj primary servers
# Directly to handoff server assert we can get container/obj
# Assert container listing (via proxy and directly) has container/obj
# Bring the first container/obj primary server back up
# Assert that it doesn't have container/obj yet
# Run object replication, ensuring we run the handoff node last so it
# should remove its extra handoff partition
# Assert the first container/obj primary server now has container/obj
# Assert the handoff server no longer has container/obj
# Kill the first container/obj primary server again (we have two
# primaries and the handoff up now)
# Delete container/obj
# Assert we can't head container/obj
# Assert container/obj is not in the container listing, both indirectly
# and directly
# Restart the first container/obj primary server again
# Assert it still has container/obj
# Run object replication, ensuring we run the handoff node last so it
# should remove its extra handoff partition
# Assert primary node no longer has container/obj
container = 'container-%s' % uuid4()
client.put_container(self.url, self.token, container)
cpart, cnodes = self.container_ring.get_nodes(self.account, container)
cnode = cnodes[0]
obj = 'object-%s' % uuid4()
opart, onodes = self.object_ring.get_nodes(
self.account, container, obj)
onode = onodes[0]
kill_server(onode['port'], self.port2server, self.pids)
client.put_object(self.url, self.token, container, obj, 'VERIFY')
odata = client.get_object(self.url, self.token, container, obj)[-1]
if odata != 'VERIFY':
raise Exception('Object GET did not return VERIFY, instead it '
'returned: %s' % repr(odata))
# Kill all primaries to ensure GET handoff works
for node in onodes[1:]:
kill_server(node['port'], self.port2server, self.pids)
odata = client.get_object(self.url, self.token, container, obj)[-1]
if odata != 'VERIFY':
raise Exception('Object GET did not return VERIFY, instead it '
'returned: %s' % repr(odata))
for node in onodes[1:]:
start_server(node['port'], self.port2server, self.pids)
# We've indirectly verified the handoff node has the object, but let's
# directly verify it.
another_onode = self.object_ring.get_more_nodes(opart).next()
odata = direct_client.direct_get_object(
another_onode, opart, self.account, container, obj)[-1]
if odata != 'VERIFY':
raise Exception('Direct object GET did not return VERIFY, instead '
'it returned: %s' % repr(odata))
objs = [o['name'] for o in
client.get_container(self.url, self.token, container)[1]]
if obj not in objs:
raise Exception('Container listing did not know about object')
for cnode in cnodes:
objs = [o['name'] for o in
direct_client.direct_get_container(
cnode, cpart, self.account, container)[1]]
if obj not in objs:
raise Exception(
'Container server %s:%s did not know about object' %
(cnode['ip'], cnode['port']))
start_server(onode['port'], self.port2server, self.pids)
exc = None
try:
direct_client.direct_get_object(onode, opart, self.account,
container, obj)
except direct_client.ClientException, err:
exc = err
self.assertEquals(exc.http_status, 404)
# Run the extra server last so it'll remove its extra partition
processes = []
for node in onodes:
try:
port_num = node['replication_port']
except KeyError:
port_num = node['port']
processes.append(Popen(['swift-object-replicator',
self.configs['object-replicator'] %
((port_num - 6000) / 10),
'once']))
for process in processes:
process.wait()
try:
another_port_num = another_onode['replication_port']
except KeyError:
another_port_num = another_onode['port']
call(['swift-object-replicator',
self.configs['object-replicator'] %
((another_port_num - 6000) / 10), 'once'])
odata = direct_client.direct_get_object(onode, opart, self.account,
container, obj)[-1]
if odata != 'VERIFY':
raise Exception('Direct object GET did not return VERIFY, instead '
'it returned: %s' % repr(odata))
exc = None
try:
direct_client.direct_get_object(another_onode, opart, self.account,
container, obj)
except direct_client.ClientException, err:
exc = err
self.assertEquals(exc.http_status, 404)
kill_server(onode['port'], self.port2server, self.pids)
client.delete_object(self.url, self.token, container, obj)
exc = None
try:
client.head_object(self.url, self.token, container, obj)
except direct_client.ClientException, err:
exc = err
self.assertEquals(exc.http_status, 404)
objs = [o['name'] for o in
client.get_container(self.url, self.token, container)[1]]
if obj in objs:
raise Exception('Container listing still knew about object')
for cnode in cnodes:
objs = [o['name'] for o in
direct_client.direct_get_container(
cnode, cpart, self.account, container)[1]]
if obj in objs:
raise Exception(
'Container server %s:%s still knew about object' %
(cnode['ip'], cnode['port']))
start_server(onode['port'], self.port2server, self.pids)
direct_client.direct_get_object(onode, opart, self.account, container,
obj)
# Run the extra server last so it'll remove its extra partition
processes = []
for node in onodes:
try:
port_num = node['replication_port']
except KeyError:
port_num = node['port']
processes.append(Popen(['swift-object-replicator',
self.configs['object-replicator'] %
((port_num - 6000) / 10),
'once']))
for process in processes:
process.wait()
call(['swift-object-replicator',
self.configs['object-replicator'] %
((another_port_num - 6000) / 10), 'once'])
exc = None
try:
direct_client.direct_get_object(another_onode, opart, self.account,
container, obj)
except direct_client.ClientException, err:
exc = err
self.assertEquals(exc.http_status, 404)
if __name__ == '__main__':
main()