oslo.messaging/tests/functional/test_functional.py
Gordon Sim f1afac446c Add driver independent functional tests
Add driver independent functional tests of the messaging API

The url used to select (and configure) the driver is specified as an
environment variable named TRANSPORT_URL.

Change-Id: I867001a15ffaca06ae831cfd0240ed3397bf6503
2014-10-22 17:07:45 +02:00

280 lines
11 KiB
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.
from oslo import messaging
from testtools import matchers
from tests.functional.utils import ClientStub
from tests.functional.utils import IsValidDistributionOf
from tests.functional.utils import NotificationFixture
from tests.functional.utils import RpcServerGroupFixture
from tests.functional.utils import SkipIfNoTransportURL
from tests.functional.utils import TransportFixture
class CallTestCase(SkipIfNoTransportURL):
def test_specific_server(self):
group = self.useFixture(RpcServerGroupFixture(self.url))
client = group.client(1)
client.append(text='open')
self.assertEqual('openstack', client.append(text='stack'))
client.add(increment=2)
self.assertEqual(12, client.add(increment=10))
self.assertEqual(9, client.subtract(increment=3))
self.assertEqual('openstack', group.servers[1].endpoint.sval)
self.assertEqual(9, group.servers[1].endpoint.ival)
for i in [0, 2]:
self.assertEqual('', group.servers[i].endpoint.sval)
self.assertEqual(0, group.servers[i].endpoint.ival)
def test_server_in_group(self):
group = self.useFixture(RpcServerGroupFixture(self.url))
client = group.client()
data = [c for c in 'abcdefghijklmn']
for i in data:
client.append(text=i)
for s in group.servers:
self.assertThat(len(s.endpoint.sval), matchers.GreaterThan(0))
actual = [[c for c in s.endpoint.sval] for s in group.servers]
self.assertThat(actual, IsValidDistributionOf(data))
def test_different_exchanges(self):
t = self.useFixture(TransportFixture(self.url))
# If the different exchanges are not honoured, then the
# teardown may hang unless we broadcast all control messages
# to each server
group1 = self.useFixture(RpcServerGroupFixture(self.url, transport=t,
use_fanout_ctrl=True))
group2 = self.useFixture(RpcServerGroupFixture(self.url, exchange="a",
transport=t,
use_fanout_ctrl=True))
group3 = self.useFixture(RpcServerGroupFixture(self.url, exchange="b",
transport=t,
use_fanout_ctrl=True))
client1 = group1.client(1)
data1 = [c for c in 'abcdefghijklmn']
for i in data1:
client1.append(text=i)
client2 = group2.client()
data2 = [c for c in 'opqrstuvwxyz']
for i in data2:
client2.append(text=i)
actual1 = [[c for c in s.endpoint.sval] for s in group1.servers]
self.assertThat(actual1, IsValidDistributionOf(data1))
actual1 = [c for c in group1.servers[1].endpoint.sval]
self.assertThat([actual1], IsValidDistributionOf(data1))
for s in group1.servers:
expected = len(data1) if group1.servers.index(s) == 1 else 0
self.assertEqual(expected, len(s.endpoint.sval))
self.assertEqual(0, s.endpoint.ival)
actual2 = [[c for c in s.endpoint.sval] for s in group2.servers]
for s in group2.servers:
self.assertThat(len(s.endpoint.sval), matchers.GreaterThan(0))
self.assertEqual(0, s.endpoint.ival)
self.assertThat(actual2, IsValidDistributionOf(data2))
for s in group3.servers:
self.assertEqual(0, len(s.endpoint.sval))
self.assertEqual(0, s.endpoint.ival)
def test_timeout(self):
transport = self.useFixture(TransportFixture(self.url))
target = messaging.Target(topic="no_such_topic")
c = ClientStub(transport.transport, target, timeout=1)
self.assertThat(c.ping, matchers.raises(messaging.MessagingTimeout))
def test_exception(self):
group = self.useFixture(RpcServerGroupFixture(self.url))
client = group.client(1)
client.add(increment=2)
f = lambda: client.subtract(increment=3)
self.assertThat(f, matchers.raises(ValueError))
class CastTestCase(SkipIfNoTransportURL):
# Note: casts return immediately, so these tests utilise a special
# internal sync() cast to ensure prior casts are complete before
# making the necessary assertions.
def test_specific_server(self):
group = self.useFixture(RpcServerGroupFixture(self.url))
client = group.client(1, cast=True)
client.append(text='open')
client.append(text='stack')
client.add(increment=2)
client.add(increment=10)
group.sync()
self.assertEqual('openstack', group.servers[1].endpoint.sval)
self.assertEqual(12, group.servers[1].endpoint.ival)
for i in [0, 2]:
self.assertEqual('', group.servers[i].endpoint.sval)
self.assertEqual(0, group.servers[i].endpoint.ival)
def test_server_in_group(self):
group = self.useFixture(RpcServerGroupFixture(self.url))
client = group.client(cast=True)
for i in range(20):
client.add(increment=1)
group.sync()
total = 0
for s in group.servers:
ival = s.endpoint.ival
self.assertThat(ival, matchers.GreaterThan(0))
self.assertThat(ival, matchers.LessThan(20))
total += ival
self.assertEqual(20, total)
def test_fanout(self):
group = self.useFixture(RpcServerGroupFixture(self.url))
client = group.client('all', cast=True)
client.append(text='open')
client.append(text='stack')
client.add(increment=2)
client.add(increment=10)
group.sync(server='all')
for s in group.servers:
self.assertEqual('openstack', s.endpoint.sval)
self.assertEqual(12, s.endpoint.ival)
class NotifyTestCase(SkipIfNoTransportURL):
# NOTE(sileht): Each test must not use the same topics
# to be run in parallel
def test_simple(self):
transport = self.useFixture(TransportFixture(self.url))
listener = self.useFixture(NotificationFixture(transport.transport,
['test_simple']))
transport.wait()
notifier = listener.notifier('abc')
notifier.info({}, 'test', 'Hello World!')
event = listener.events.get(timeout=1)
self.assertEqual('info', event[0])
self.assertEqual('test', event[1])
self.assertEqual('Hello World!', event[2])
self.assertEqual('abc', event[3])
def test_multiple_topics(self):
transport = self.useFixture(TransportFixture(self.url))
listener = self.useFixture(NotificationFixture(transport.transport,
['a', 'b']))
transport.wait()
a = listener.notifier('pub-a', topic='a')
b = listener.notifier('pub-b', topic='b')
sent = {
'pub-a': [a, 'test-a', 'payload-a'],
'pub-b': [b, 'test-b', 'payload-b']
}
for e in sent.values():
e[0].info({}, e[1], e[2])
received = {}
while len(received) < len(sent):
e = listener.events.get(timeout=1)
received[e[3]] = e
for key in received:
actual = received[key]
expected = sent[key]
self.assertEqual('info', actual[0])
self.assertEqual(expected[1], actual[1])
self.assertEqual(expected[2], actual[2])
def test_multiple_servers(self):
transport = self.useFixture(TransportFixture(self.url))
listener_a = self.useFixture(NotificationFixture(transport.transport,
['test-topic']))
listener_b = self.useFixture(NotificationFixture(transport.transport,
['test-topic']))
transport.wait()
n = listener_a.notifier('pub')
events_out = [('test-%s' % c, 'payload-%s' % c) for c in 'abcdefgh']
for event_type, payload in events_out:
n.info({}, event_type, payload)
events_in = [[(e[1], e[2]) for e in listener_a.get_events()],
[(e[1], e[2]) for e in listener_b.get_events()]]
self.assertThat(events_in, IsValidDistributionOf(events_out))
for stream in events_in:
self.assertThat(len(stream), matchers.GreaterThan(0))
def test_independent_topics(self):
transport = self.useFixture(TransportFixture(self.url))
listener_a = self.useFixture(NotificationFixture(transport.transport,
['1']))
listener_b = self.useFixture(NotificationFixture(transport.transport,
['2']))
transport.wait()
a = listener_a.notifier('pub-1', topic='1')
b = listener_b.notifier('pub-2', topic='2')
a_out = [('test-1-%s' % c, 'payload-1-%s' % c) for c in 'abcdefgh']
for event_type, payload in a_out:
a.info({}, event_type, payload)
b_out = [('test-2-%s' % c, 'payload-2-%s' % c) for c in 'ijklmnop']
for event_type, payload in b_out:
b.info({}, event_type, payload)
for expected in a_out:
actual = listener_a.events.get(timeout=0.5)
self.assertEqual('info', actual[0])
self.assertEqual(expected[0], actual[1])
self.assertEqual(expected[1], actual[2])
self.assertEqual('pub-1', actual[3])
for expected in b_out:
actual = listener_b.events.get(timeout=0.5)
self.assertEqual('info', actual[0])
self.assertEqual(expected[0], actual[1])
self.assertEqual(expected[1], actual[2])
self.assertEqual('pub-2', actual[3])
def test_all_categories(self):
transport = self.useFixture(TransportFixture(self.url))
listener = self.useFixture(NotificationFixture(
transport.transport, ['test_all_categories']))
transport.wait()
n = listener.notifier('abc')
cats = ['debug', 'audit', 'info', 'warn', 'error', 'critical']
events = [(getattr(n, c), c, 'type-' + c, c + '-data') for c in cats]
for e in events:
e[0]({}, e[2], e[3])
# order between events with different categories is not guaranteed
received = {}
for expected in events:
e = listener.events.get(timeout=0.5)
received[e[0]] = e
for expected in events:
actual = received[expected[1]]
self.assertEqual(expected[1], actual[0])
self.assertEqual(expected[2], actual[1])
self.assertEqual(expected[3], actual[2])