f1afac446c
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
280 lines
11 KiB
Python
280 lines
11 KiB
Python
#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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from oslo import messaging
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from testtools import matchers
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from tests.functional.utils import ClientStub
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from tests.functional.utils import IsValidDistributionOf
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from tests.functional.utils import NotificationFixture
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from tests.functional.utils import RpcServerGroupFixture
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from tests.functional.utils import SkipIfNoTransportURL
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from tests.functional.utils import TransportFixture
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class CallTestCase(SkipIfNoTransportURL):
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def test_specific_server(self):
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group = self.useFixture(RpcServerGroupFixture(self.url))
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client = group.client(1)
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client.append(text='open')
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self.assertEqual('openstack', client.append(text='stack'))
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client.add(increment=2)
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self.assertEqual(12, client.add(increment=10))
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self.assertEqual(9, client.subtract(increment=3))
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self.assertEqual('openstack', group.servers[1].endpoint.sval)
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self.assertEqual(9, group.servers[1].endpoint.ival)
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for i in [0, 2]:
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self.assertEqual('', group.servers[i].endpoint.sval)
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self.assertEqual(0, group.servers[i].endpoint.ival)
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def test_server_in_group(self):
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group = self.useFixture(RpcServerGroupFixture(self.url))
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client = group.client()
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data = [c for c in 'abcdefghijklmn']
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for i in data:
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client.append(text=i)
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for s in group.servers:
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self.assertThat(len(s.endpoint.sval), matchers.GreaterThan(0))
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actual = [[c for c in s.endpoint.sval] for s in group.servers]
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self.assertThat(actual, IsValidDistributionOf(data))
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def test_different_exchanges(self):
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t = self.useFixture(TransportFixture(self.url))
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# If the different exchanges are not honoured, then the
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# teardown may hang unless we broadcast all control messages
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# to each server
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group1 = self.useFixture(RpcServerGroupFixture(self.url, transport=t,
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use_fanout_ctrl=True))
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group2 = self.useFixture(RpcServerGroupFixture(self.url, exchange="a",
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transport=t,
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use_fanout_ctrl=True))
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group3 = self.useFixture(RpcServerGroupFixture(self.url, exchange="b",
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transport=t,
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use_fanout_ctrl=True))
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client1 = group1.client(1)
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data1 = [c for c in 'abcdefghijklmn']
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for i in data1:
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client1.append(text=i)
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client2 = group2.client()
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data2 = [c for c in 'opqrstuvwxyz']
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for i in data2:
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client2.append(text=i)
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actual1 = [[c for c in s.endpoint.sval] for s in group1.servers]
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self.assertThat(actual1, IsValidDistributionOf(data1))
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actual1 = [c for c in group1.servers[1].endpoint.sval]
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self.assertThat([actual1], IsValidDistributionOf(data1))
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for s in group1.servers:
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expected = len(data1) if group1.servers.index(s) == 1 else 0
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self.assertEqual(expected, len(s.endpoint.sval))
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self.assertEqual(0, s.endpoint.ival)
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actual2 = [[c for c in s.endpoint.sval] for s in group2.servers]
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for s in group2.servers:
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self.assertThat(len(s.endpoint.sval), matchers.GreaterThan(0))
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self.assertEqual(0, s.endpoint.ival)
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self.assertThat(actual2, IsValidDistributionOf(data2))
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for s in group3.servers:
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self.assertEqual(0, len(s.endpoint.sval))
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self.assertEqual(0, s.endpoint.ival)
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def test_timeout(self):
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transport = self.useFixture(TransportFixture(self.url))
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target = messaging.Target(topic="no_such_topic")
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c = ClientStub(transport.transport, target, timeout=1)
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self.assertThat(c.ping, matchers.raises(messaging.MessagingTimeout))
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def test_exception(self):
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group = self.useFixture(RpcServerGroupFixture(self.url))
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client = group.client(1)
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client.add(increment=2)
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f = lambda: client.subtract(increment=3)
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self.assertThat(f, matchers.raises(ValueError))
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class CastTestCase(SkipIfNoTransportURL):
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# Note: casts return immediately, so these tests utilise a special
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# internal sync() cast to ensure prior casts are complete before
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# making the necessary assertions.
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def test_specific_server(self):
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group = self.useFixture(RpcServerGroupFixture(self.url))
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client = group.client(1, cast=True)
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client.append(text='open')
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client.append(text='stack')
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client.add(increment=2)
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client.add(increment=10)
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group.sync()
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self.assertEqual('openstack', group.servers[1].endpoint.sval)
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self.assertEqual(12, group.servers[1].endpoint.ival)
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for i in [0, 2]:
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self.assertEqual('', group.servers[i].endpoint.sval)
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self.assertEqual(0, group.servers[i].endpoint.ival)
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def test_server_in_group(self):
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group = self.useFixture(RpcServerGroupFixture(self.url))
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client = group.client(cast=True)
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for i in range(20):
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client.add(increment=1)
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group.sync()
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total = 0
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for s in group.servers:
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ival = s.endpoint.ival
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self.assertThat(ival, matchers.GreaterThan(0))
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self.assertThat(ival, matchers.LessThan(20))
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total += ival
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self.assertEqual(20, total)
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def test_fanout(self):
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group = self.useFixture(RpcServerGroupFixture(self.url))
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client = group.client('all', cast=True)
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client.append(text='open')
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client.append(text='stack')
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client.add(increment=2)
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client.add(increment=10)
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group.sync(server='all')
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for s in group.servers:
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self.assertEqual('openstack', s.endpoint.sval)
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self.assertEqual(12, s.endpoint.ival)
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class NotifyTestCase(SkipIfNoTransportURL):
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# NOTE(sileht): Each test must not use the same topics
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# to be run in parallel
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def test_simple(self):
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transport = self.useFixture(TransportFixture(self.url))
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listener = self.useFixture(NotificationFixture(transport.transport,
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['test_simple']))
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transport.wait()
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notifier = listener.notifier('abc')
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notifier.info({}, 'test', 'Hello World!')
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event = listener.events.get(timeout=1)
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self.assertEqual('info', event[0])
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self.assertEqual('test', event[1])
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self.assertEqual('Hello World!', event[2])
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self.assertEqual('abc', event[3])
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def test_multiple_topics(self):
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transport = self.useFixture(TransportFixture(self.url))
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listener = self.useFixture(NotificationFixture(transport.transport,
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['a', 'b']))
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transport.wait()
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a = listener.notifier('pub-a', topic='a')
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b = listener.notifier('pub-b', topic='b')
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sent = {
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'pub-a': [a, 'test-a', 'payload-a'],
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'pub-b': [b, 'test-b', 'payload-b']
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}
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for e in sent.values():
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e[0].info({}, e[1], e[2])
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received = {}
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while len(received) < len(sent):
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e = listener.events.get(timeout=1)
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received[e[3]] = e
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for key in received:
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actual = received[key]
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expected = sent[key]
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self.assertEqual('info', actual[0])
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self.assertEqual(expected[1], actual[1])
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self.assertEqual(expected[2], actual[2])
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def test_multiple_servers(self):
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transport = self.useFixture(TransportFixture(self.url))
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listener_a = self.useFixture(NotificationFixture(transport.transport,
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['test-topic']))
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listener_b = self.useFixture(NotificationFixture(transport.transport,
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['test-topic']))
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transport.wait()
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n = listener_a.notifier('pub')
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events_out = [('test-%s' % c, 'payload-%s' % c) for c in 'abcdefgh']
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for event_type, payload in events_out:
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n.info({}, event_type, payload)
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events_in = [[(e[1], e[2]) for e in listener_a.get_events()],
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[(e[1], e[2]) for e in listener_b.get_events()]]
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self.assertThat(events_in, IsValidDistributionOf(events_out))
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for stream in events_in:
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self.assertThat(len(stream), matchers.GreaterThan(0))
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def test_independent_topics(self):
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transport = self.useFixture(TransportFixture(self.url))
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listener_a = self.useFixture(NotificationFixture(transport.transport,
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['1']))
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listener_b = self.useFixture(NotificationFixture(transport.transport,
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['2']))
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transport.wait()
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a = listener_a.notifier('pub-1', topic='1')
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b = listener_b.notifier('pub-2', topic='2')
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a_out = [('test-1-%s' % c, 'payload-1-%s' % c) for c in 'abcdefgh']
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for event_type, payload in a_out:
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a.info({}, event_type, payload)
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b_out = [('test-2-%s' % c, 'payload-2-%s' % c) for c in 'ijklmnop']
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for event_type, payload in b_out:
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b.info({}, event_type, payload)
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for expected in a_out:
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actual = listener_a.events.get(timeout=0.5)
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self.assertEqual('info', actual[0])
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self.assertEqual(expected[0], actual[1])
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self.assertEqual(expected[1], actual[2])
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self.assertEqual('pub-1', actual[3])
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for expected in b_out:
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actual = listener_b.events.get(timeout=0.5)
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self.assertEqual('info', actual[0])
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self.assertEqual(expected[0], actual[1])
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self.assertEqual(expected[1], actual[2])
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self.assertEqual('pub-2', actual[3])
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def test_all_categories(self):
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transport = self.useFixture(TransportFixture(self.url))
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listener = self.useFixture(NotificationFixture(
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transport.transport, ['test_all_categories']))
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transport.wait()
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n = listener.notifier('abc')
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cats = ['debug', 'audit', 'info', 'warn', 'error', 'critical']
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events = [(getattr(n, c), c, 'type-' + c, c + '-data') for c in cats]
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for e in events:
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e[0]({}, e[2], e[3])
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# order between events with different categories is not guaranteed
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received = {}
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for expected in events:
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e = listener.events.get(timeout=0.5)
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received[e[0]] = e
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for expected in events:
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actual = received[expected[1]]
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self.assertEqual(expected[1], actual[0])
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self.assertEqual(expected[2], actual[1])
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self.assertEqual(expected[3], actual[2])
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