python-kombu 3.0.33-1ubuntu2 / usr / lib / python2.7 / dist-packages / kombu / tests / transport / test_memory.py

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from __future__ import absolute_import

import socket

from kombu import Connection, Exchange, Queue, Consumer, Producer

from kombu.tests.case import Case


class test_MemoryTransport(Case):

    def setUp(self):
        self.c = Connection(transport='memory')
        self.e = Exchange('test_transport_memory')
        self.q = Queue('test_transport_memory',
                       exchange=self.e,
                       routing_key='test_transport_memory')
        self.q2 = Queue('test_transport_memory2',
                        exchange=self.e,
                        routing_key='test_transport_memory2')
        self.fanout = Exchange('test_transport_memory_fanout', type='fanout')
        self.q3 = Queue('test_transport_memory_fanout1',
                        exchange=self.fanout)
        self.q4 = Queue('test_transport_memory_fanout2',
                        exchange=self.fanout)

    def test_driver_version(self):
        self.assertTrue(self.c.transport.driver_version())

    def test_produce_consume_noack(self):
        channel = self.c.channel()
        producer = Producer(channel, self.e)
        consumer = Consumer(channel, self.q, no_ack=True)

        for i in range(10):
            producer.publish({'foo': i}, routing_key='test_transport_memory')

        _received = []

        def callback(message_data, message):
            _received.append(message)

        consumer.register_callback(callback)
        consumer.consume()

        while 1:
            if len(_received) == 10:
                break
            self.c.drain_events()

        self.assertEqual(len(_received), 10)

    def test_produce_consume_fanout(self):
        producer = self.c.Producer()
        consumer = self.c.Consumer([self.q3, self.q4])

        producer.publish(
            {'hello': 'world'},
            declare=consumer.queues,
            exchange=self.fanout,
        )

        self.assertEqual(self.q3(self.c).get().payload, {'hello': 'world'})
        self.assertEqual(self.q4(self.c).get().payload, {'hello': 'world'})
        self.assertIsNone(self.q3(self.c).get())
        self.assertIsNone(self.q4(self.c).get())

    def test_produce_consume(self):
        channel = self.c.channel()
        producer = Producer(channel, self.e)
        consumer1 = Consumer(channel, self.q)
        consumer2 = Consumer(channel, self.q2)
        self.q2(channel).declare()

        for i in range(10):
            producer.publish({'foo': i}, routing_key='test_transport_memory')
        for i in range(10):
            producer.publish({'foo': i}, routing_key='test_transport_memory2')

        _received1 = []
        _received2 = []

        def callback1(message_data, message):
            _received1.append(message)
            message.ack()

        def callback2(message_data, message):
            _received2.append(message)
            message.ack()

        consumer1.register_callback(callback1)
        consumer2.register_callback(callback2)

        consumer1.consume()
        consumer2.consume()

        while 1:
            if len(_received1) + len(_received2) == 20:
                break
            self.c.drain_events()

        self.assertEqual(len(_received1) + len(_received2), 20)

        # compression
        producer.publish({'compressed': True},
                         routing_key='test_transport_memory',
                         compression='zlib')
        m = self.q(channel).get()
        self.assertDictEqual(m.payload, {'compressed': True})

        # queue.delete
        for i in range(10):
            producer.publish({'foo': i}, routing_key='test_transport_memory')
        self.assertTrue(self.q(channel).get())
        self.q(channel).delete()
        self.q(channel).declare()
        self.assertIsNone(self.q(channel).get())

        # queue.purge
        for i in range(10):
            producer.publish({'foo': i}, routing_key='test_transport_memory2')
        self.assertTrue(self.q2(channel).get())
        self.q2(channel).purge()
        self.assertIsNone(self.q2(channel).get())

    def test_drain_events(self):
        with self.assertRaises(socket.timeout):
            self.c.drain_events(timeout=0.1)

        c1 = self.c.channel()
        c2 = self.c.channel()

        with self.assertRaises(socket.timeout):
            self.c.drain_events(timeout=0.1)

        del(c1)  # so pyflakes doesn't complain.
        del(c2)

    def test_drain_events_unregistered_queue(self):
        c1 = self.c.channel()

        class Cycle(object):

            def get(self, timeout=None):
                return ('foo', 'foo'), c1

        self.c.transport.cycle = Cycle()
        with self.assertRaises(KeyError):
            self.c.drain_events()

    def test_queue_for(self):
        chan = self.c.channel()
        chan.queues.clear()

        x = chan._queue_for('foo')
        self.assertTrue(x)
        self.assertIs(chan._queue_for('foo'), x)

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