Ejemplo n.º 1
0
    def test_qos_2_queues_message(self):
        """
        The WAMP layer calling send_publish will queue a message up for
        sending, and send it next time it has a chance.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=True)).serialise())

        for x in iterbytes(data):
            p.dataReceived(x)

        # Connect has happened
        events = cp.data_received(t.value())
        t.clear()
        self.assertFalse(t.disconnecting)
        self.assertIsInstance(events[0], ConnACK)

        # WAMP layer calls send_publish, with QoS 2
        p.send_publish(u"hello", 2, b'some bytes', False)

        # Nothing should have been sent yet, it is queued
        self.assertEqual(t.value(), b'')

        # Advance the clock
        r.advance(0.1)

        # We should now get the sent Publish
        expected_publish = Publish(duplicate=False,
                                   qos_level=2,
                                   retain=False,
                                   packet_identifier=1,
                                   topic_name=u"hello",
                                   payload=b"some bytes")
        events = cp.data_received(t.value())
        t.clear()
        self.assertEqual(len(events), 1)
        self.assertEqual(events[0], expected_publish)

        # We send the PubREC, which we should get a PubREL back with
        pubrec = PubREC(packet_identifier=1)

        for x in iterbytes(pubrec.serialise()):
            p.dataReceived(x)

        events = cp.data_received(t.value())
        t.clear()
        self.assertEqual(len(events), 1)
        self.assertEqual(events[0], PubREL(packet_identifier=1))

        # We send the PubCOMP, which has no response
        pubcomp = PubCOMP(packet_identifier=1)

        for x in iterbytes(pubcomp.serialise()):
            p.dataReceived(x)

        self.assertFalse(t.disconnecting)
Ejemplo n.º 2
0
    def test_qos_2_queues_message(self):
        """
        The WAMP layer calling send_publish will queue a message up for
        sending, and send it next time it has a chance.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        # Connect has happened
        events = cp.data_received(t.value())
        t.clear()
        self.assertFalse(t.disconnecting)
        self.assertIsInstance(events[0], ConnACK)

        # WAMP layer calls send_publish, with QoS 2
        p.send_publish(u"hello", 2, b'some bytes', False)

        # Nothing should have been sent yet, it is queued
        self.assertEqual(t.value(), b'')

        # Advance the clock
        r.advance(0.1)

        # We should now get the sent Publish
        expected_publish = Publish(duplicate=False, qos_level=2, retain=False,
                                   packet_identifier=1, topic_name=u"hello",
                                   payload=b"some bytes")
        events = cp.data_received(t.value())
        t.clear()
        self.assertEqual(len(events), 1)
        self.assertEqual(events[0], expected_publish)

        # We send the PubREC, which we should get a PubREL back with
        pubrec = PubREC(packet_identifier=1)

        for x in iterbytes(pubrec.serialise()):
            p.dataReceived(x)

        events = cp.data_received(t.value())
        t.clear()
        self.assertEqual(len(events), 1)
        self.assertEqual(events[0], PubREL(packet_identifier=1))

        # We send the PubCOMP, which has no response
        pubcomp = PubCOMP(packet_identifier=1)

        for x in iterbytes(pubcomp.serialise()):
            p.dataReceived(x)

        self.assertFalse(t.disconnecting)
Ejemplo n.º 3
0
    def test_keepalive(self):
        """
        If a client connects with a timeout, and sends no data in keep_alive *
        1.5, they will be disconnected.

        Compliance statement MQTT-3.1.2-24
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        self.assertFalse(t.disconnecting)

        r.advance(2.9)
        self.assertFalse(t.disconnecting)

        r.advance(0.1)
        self.assertTrue(t.disconnecting)
Ejemplo n.º 4
0
    def test_non_allowed_qos_not_queued(self):
        """
        A non-QoS 0, 1, or 2 message will be rejected by the publish layer.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        # Connect has happened
        events = cp.data_received(t.value())
        t.clear()
        self.assertFalse(t.disconnecting)
        self.assertIsInstance(events[0], ConnACK)

        # WAMP layer calls send_publish w/ invalid QoS
        with self.assertRaises(ValueError):
            p.send_publish(u"hello", 5, b'some bytes', False)

        # Nothing will be sent
        self.assertEqual(t.value(), b'')

        # Advance the clock
        r.advance(0.1)

        # Still nothing
        self.assertEqual(t.value(), b'')
Ejemplo n.º 5
0
    def test_got_sent_packet(self):
        """
        `process_connect` on the handler will get the correct Connect packet.
        """
        got_packets = []

        class SubHandler(BasicHandler):
            def process_connect(self_, event):
                got_packets.append(event)
                return succeed((0, False))

        h = SubHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].client_id, u"test123")
        self.assertEqual(got_packets[0].serialise(), data)
Ejemplo n.º 6
0
    def test_lose_conn_on_unimplemented_packet(self):
        """
        If we get a valid, but unimplemented for that role packet (e.g. SubACK,
        which we will only ever send, and getting it is a protocol violation),
        we will drop the connection.

        Compliance statement: MQTT-4.8.0-1
        """
        # This shouldn't normally happen, but just in case.
        from crossbar.bridge.mqtt import protocol
        protocol.server_packet_handlers[protocol.P_SUBACK] = SubACK
        self.addCleanup(
            lambda: protocol.server_packet_handlers.pop(protocol.P_SUBACK))

        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=False)).serialise() +
            SubACK(1, [1]).serialise()
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ402")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.error)
        self.assertEqual(sent_logs[0]["packet_id"], "SubACK")

        self.assertTrue(t.disconnecting)
Ejemplo n.º 7
0
    def test_non_allowed_qos_not_queued(self):
        """
        A non-QoS 0, 1, or 2 message will be rejected by the publish layer.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=True)).serialise())

        for x in iterbytes(data):
            p.dataReceived(x)

        # Connect has happened
        events = cp.data_received(t.value())
        t.clear()
        self.assertFalse(t.disconnecting)
        self.assertIsInstance(events[0], ConnACK)

        # WAMP layer calls send_publish w/ invalid QoS
        with self.assertRaises(ValueError):
            p.send_publish(u"hello", 5, b'some bytes', False)

        # Nothing will be sent
        self.assertEqual(t.value(), b'')

        # Advance the clock
        r.advance(0.1)

        # Still nothing
        self.assertEqual(t.value(), b'')
Ejemplo n.º 8
0
    def test_connect_not_first(self):
        """
        Sending a packet that is not a CONNECT as the first packet is a
        protocol violation.

        Conformance Statement MQTT-3.1.0-1
        """
        events = []
        p = MQTTParser()

        data = (
            # SUBSCRIBE
            b"820d00010008746573742f31323300")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)

        # Reserved packet
        self._assert_event(events.pop(0), Failure,
                           {'reason': "Connect packet was not first"})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 9
0
    def test_reserved_packet_0(self):
        """
        Using the reserved packet 0 is a protocol violation.

        No conformance statement, but see "Table 2.1 - Control packet types".
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # Reserved packet #15
            b"001300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 2)

        # Regular connect, we don't care about it
        self.assertIsInstance(events.pop(0), Connect)

        # Reserved packet
        self._assert_event(events.pop(0), Failure, {
            'reason': "Unimplemented packet type 0"
        })

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 10
0
    def test_lose_conn_on_unimplemented_packet(self):
        """
        If we get a valid, but unimplemented for that role packet (e.g. SubACK,
        which we will only ever send, and getting it is a protocol violation),
        we will drop the connection.

        Compliance statement: MQTT-4.8.0-1
        """
        # This shouldn't normally happen, but just in case.
        from crossbar.bridge.mqtt import protocol
        protocol.server_packet_handlers[protocol.P_SUBACK] = SubACK
        self.addCleanup(
            lambda: protocol.server_packet_handlers.pop(protocol.P_SUBACK))

        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=False)).serialise() +
                SubACK(1, [1]).serialise())

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ402")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.error)
        self.assertEqual(sent_logs[0]["packet_id"], "SubACK")

        self.assertTrue(t.disconnecting)
Ejemplo n.º 11
0
    def test_exception_in_connect_drops_connection(self):
        """
        Transient failures (like an exception from handler.process_connect)
        will cause the connection it happened on to be dropped.

        Compliance statement MQTT-4.8.0-2
        """
        class SubHandler(BasicHandler):
            def process_unsubscribe(self, event):
                raise Exception("boom!")

        h = SubHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise() +
            Unsubscribe(packet_identifier=1234, topics=[u"foo"]).serialise())

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ502")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.critical)
        self.assertEqual(sent_logs[0]["log_failure"].value.args[0], "boom!")

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertTrue(t.disconnecting)

        # We got the error, we need to flush it so it doesn't make the test
        # error
        self.flushLoggedErrors()
Ejemplo n.º 12
0
    def test_too_large_header(self):
        """
        The reserved section in the CONNECT packet must not be used.

        Conformance Statement MQTT-3.1.2-3
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT using the second nibble, plus junk we should never read
            b"10ffffffff000000000000000000"
        )

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)

        # Reserved packet
        self._assert_event(events.pop(0), Failure, {
            'reason': "Too big packet size"
        })

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 13
0
    def test_connect_reserved_area(self):
        """
        The reserved section in the CONNECT packet must not be used.

        Conformance Statement MQTT-3.1.2-3
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT using the second nibble
            b"111300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)

        # Reserved packet
        self._assert_event(events.pop(0), Failure, {
            'reason': "Bad flags in Connect"
        })

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 14
0
    def test_multiple_connects(self):
        """
        Sending multiple CONNECT packets is a protocol violation.

        Conformance Statement MQTT-3.1.0-2
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # CONNECT
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 2)

        # First, successful connect
        self.assertIsInstance(events.pop(0), Connect)

        # Reserved packet
        self._assert_event(events.pop(0), Failure, {
            'reason': "Multiple Connect packets"
        })

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 15
0
    def test_connect_not_first(self):
        """
        Sending a packet that is not a CONNECT as the first packet is a
        protocol violation.

        Conformance Statement MQTT-3.1.0-1
        """
        events = []
        p = MQTTParser()

        data = (
            # SUBSCRIBE
            b"820d00010008746573742f31323300"
        )

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)

        # Reserved packet
        self._assert_event(events.pop(0), Failure, {
            'reason': "Connect packet was not first"
        })

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 16
0
    def test_keepalive_canceled_on_lost_connection(self):
        """
        If a client connects with a timeout, and disconnects themselves, we
        will remove the timeout.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].getTime(), 3.0)
        timeout = r.calls[0]

        # Clean connection lost
        p.connectionLost(None)

        self.assertEqual(len(r.calls), 0)
        self.assertTrue(timeout.cancelled)
        self.assertFalse(timeout.called)
Ejemplo n.º 17
0
    def test_correct_connect(self):
        """
        The most basic possible connect -- MQTT 3.1.1, no QoS/username/password
        and compliant with the spec.
        """
        events = []
        p = MQTTParser()

        good = b"\x10\x13\x00\x04MQTT\x04\x02\x00x\x00\x07test123"

        for x in iterbytes(good):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test123",
                'keep_alive': 120,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            }
        )
Ejemplo n.º 18
0
    def test_lose_conn_on_protocol_violation(self):
        """
        When a protocol violation occurs, the connection to the client will be
        terminated, and an error will be logged.

        Compliance statement MQTT-4.8.0-1
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # Invalid CONNECT
            b"111300044d51545404020002000774657374313233")

        with LogCapturer("trace") as logs:
            for x in iterbytes(unhexlify(data)):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ401")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.error)
        self.assertIn("Connect", logs.log_text.getvalue())

        self.assertEqual(t.value(), b'')
        self.assertTrue(t.disconnecting)
Ejemplo n.º 19
0
    def test_keepalive(self):
        """
        If a client connects with a timeout, and sends no data in keep_alive *
        1.5, they will be disconnected.

        Compliance statement MQTT-3.1.2-24
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233")

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        self.assertFalse(t.disconnecting)

        r.advance(2.9)
        self.assertFalse(t.disconnecting)

        r.advance(0.1)
        self.assertTrue(t.disconnecting)
Ejemplo n.º 20
0
    def test_exception_in_subscribe_drops_connection(self):
        """
        Transient failures (like an exception from handler.process_subscribe)
        will cause the connection it happened on to be dropped.

        Compliance statement MQTT-4.8.0-2
        """
        class SubHandler(BasicHandler):
            @inlineCallbacks
            def process_subscribe(self, event):
                raise Exception("boom!")

        h = SubHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123", flags=ConnectFlags(clean_session=True)).serialise() + Subscribe(packet_identifier=1234, topic_requests=[SubscriptionTopicRequest(u"a", 0)]).serialise()
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ501")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.critical)
        self.assertEqual(sent_logs[0]["log_failure"].value.args[0], "boom!")

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertTrue(t.disconnecting)

        # We got the error, we need to flush it so it doesn't make the test
        # error
        self.flushLoggedErrors()
Ejemplo n.º 21
0
    def test_lose_conn_on_protocol_violation(self):
        """
        When a protocol violation occurs, the connection to the client will be
        terminated, and an error will be logged.

        Compliance statement MQTT-4.8.0-1
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # Invalid CONNECT
            b"111300044d51545404020002000774657374313233"
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(unhexlify(data)):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ401")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.error)
        self.assertIn("Connect", logs.log_text.getvalue())

        self.assertEqual(t.value(), b'')
        self.assertTrue(t.disconnecting)
Ejemplo n.º 22
0
    def test_qos_2_failure_drops_connection(self):
        """
        Transient failures (like an exception from
        handler.process_publish_qos_2) will cause the connection it happened on
        to be dropped.

        Compliance statement MQTT-4.8.0-2
        """
        class PubHandler(BasicHandler):
            def process_publish_qos_2(self, event):
                raise Exception("boom!")

        h = PubHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123", flags=ConnectFlags(clean_session=True)).serialise() + Publish(duplicate=False, qos_level=2, retain=False, topic_name=u"foo", packet_identifier=1, payload=b"bar").serialise()
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ505")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.critical)
        self.assertEqual(sent_logs[0]["log_failure"].value.args[0], "boom!")

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertTrue(t.disconnecting)

        # We got the error, we need to flush it so it doesn't make the test
        # error
        self.flushLoggedErrors()
Ejemplo n.º 23
0
    def test_non_zero_connect_code_must_have_no_present_session(self):
        """
        A non-zero connect code in a CONNACK must be paired with no session
        present.

        Compliance statement MQTT-3.2.2-4
        """
        h = BasicHandler(self.connect_code)
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=False)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'return_code': self.connect_code,
                'session_present': False,
            })
Ejemplo n.º 24
0
    def test_keepalive_canceled_on_lost_connection(self):
        """
        If a client connects with a timeout, and disconnects themselves, we
        will remove the timeout.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233")

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].getTime(), 3.0)
        timeout = r.calls[0]

        # Clean connection lost
        p.connectionLost(None)

        self.assertEqual(len(r.calls), 0)
        self.assertTrue(timeout.cancelled)
        self.assertFalse(timeout.called)
Ejemplo n.º 25
0
    def test_multiple_connects(self):
        """
        Sending multiple CONNECT packets is a protocol violation.

        Conformance Statement MQTT-3.1.0-2
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # CONNECT
            b"101300044d51545404020002000774657374313233")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 2)

        # First, successful connect
        self.assertIsInstance(events.pop(0), Connect)

        # Reserved packet
        self._assert_event(events.pop(0), Failure,
                           {'reason': "Multiple Connect packets"})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 26
0
    def test_qos_2_failure_drops_connection(self):
        """
        Transient failures (like an exception from
        handler.process_publish_qos_2) will cause the connection it happened on
        to be dropped.

        Compliance statement MQTT-4.8.0-2
        """
        class PubHandler(BasicHandler):
            def process_publish_qos_2(self, event):
                raise Exception("boom!")

        h = PubHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id="test123", flags=ConnectFlags(clean_session=True)).serialise() + Publish(duplicate=False, qos_level=2, retain=False, topic_name="foo", packet_identifier=1, payload=b"bar").serialise()
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ505")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.critical)
        self.assertEqual(sent_logs[0]["log_failure"].value.args[0], "boom!")

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertTrue(t.disconnecting)

        # We got the error, we need to flush it so it doesn't make the test
        # error
        self.flushLoggedErrors()
Ejemplo n.º 27
0
    def test_send_packet(self):
        """
        On sending a packet, a trace log message is emitted with details of the
        sent packet.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233")

        with LogCapturer("trace") as logs:
            for x in iterbytes(unhexlify(data)):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ101")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.debug)
        self.assertEqual(sent_logs[0]["txaio_trace"], True)
        self.assertIn("ConnACK", logs.log_text.getvalue())

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertIsInstance(events[0], ConnACK)
Ejemplo n.º 28
0
    def test_non_zero_connect_code_must_have_no_present_session(self):
        """
        A non-zero connect code in a CONNACK must be paired with no session
        present.

        Compliance statement MQTT-3.2.2-4
        """
        h = BasicHandler(self.connect_code)
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id="test123",
                    flags=ConnectFlags(clean_session=False)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'return_code': self.connect_code,
                'session_present': False,
            })
Ejemplo n.º 29
0
    def test_got_sent_packet(self):
        """
        `process_connect` on the handler will get the correct Connect packet.
        """
        got_packets = []

        class SubHandler(BasicHandler):
            def process_connect(self_, event):
                got_packets.append(event)
                return succeed((0, False))

        h = SubHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id="test123",
                    flags=ConnectFlags(clean_session=True)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].client_id, "test123")
        self.assertEqual(got_packets[0].serialise(), data)
Ejemplo n.º 30
0
    def test_too_large_header(self):
        """
        The reserved section in the CONNECT packet must not be used.

        Conformance Statement MQTT-3.1.2-3
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT using the second nibble, plus junk we should never read
            b"10ffffffff000000000000000000")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)

        # Reserved packet
        self._assert_event(events.pop(0), Failure,
                           {'reason': "Too big packet size"})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 31
0
    def test_connect_reserved_area(self):
        """
        The reserved section in the CONNECT packet must not be used.

        Conformance Statement MQTT-3.1.2-3
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT using the second nibble
            b"111300044d51545404020002000774657374313233")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)

        # Reserved packet
        self._assert_event(events.pop(0), Failure,
                           {'reason': "Bad flags in Connect"})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 32
0
    def test_send_packet(self):
        """
        On sending a packet, a trace log message is emitted with details of the
        sent packet.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(unhexlify(data)):
                p.dataReceived(x)

        sent_logs = logs.get_category("MQ101")
        self.assertEqual(len(sent_logs), 1)
        self.assertEqual(sent_logs[0]["log_level"], LogLevel.debug)
        self.assertEqual(sent_logs[0]["txaio_trace"], True)
        self.assertIn("ConnACK", logs.log_text.getvalue())

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertIsInstance(events[0], ConnACK)
Ejemplo n.º 33
0
    def test_utf8_zwnbsp(self):
        """
        UTF-8 strings containing the sequence 0xEF 0xBB 0xBF must decode to
        U+FEFF.

        Conformance statement MQTT-1.5.3-3
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04MQTT\x04\x02\x00x\x00\x07test\xef\xbb\xbf"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]), {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test\uFEFF",
                'keep_alive': 120,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            })
Ejemplo n.º 34
0
    def test_reserved_packet_0(self):
        """
        Using the reserved packet 0 is a protocol violation.

        No conformance statement, but see "Table 2.1 - Control packet types".
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # Reserved packet #15
            b"001300044d51545404020002000774657374313233")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 2)

        # Regular connect, we don't care about it
        self.assertIsInstance(events.pop(0), Connect)

        # Reserved packet
        self._assert_event(events.pop(0), Failure,
                           {'reason': "Unimplemented packet type 0"})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 35
0
    def test_correct_connect(self):
        """
        The most basic possible connect -- MQTT 3.1.1, no QoS/username/password
        and compliant with the spec.
        """
        events = []
        p = MQTTParser()

        good = b"\x10\x13\x00\x04MQTT\x04\x02\x00x\x00\x07test123"

        for x in iterbytes(good):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]), {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test123",
                'keep_alive': 120,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            })
Ejemplo n.º 36
0
    def test_keepalive_requires_full_packet(self):
        """
        If a client connects with a keepalive, and sends no FULL packets in
        keep_alive * 1.5, they will be disconnected.

        Compliance statement MQTT-3.1.2-24
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        self.assertFalse(t.disconnecting)

        r.advance(2.9)
        self.assertFalse(t.disconnecting)

        data = (
            # PINGREQ header, no body (incomplete packet)
            b"c0"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        # Timeout has not changed. If it reset the timeout on data recieved,
        # the delayed call's trigger time would instead be 2.9 + 3.
        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        r.advance(0.1)
        self.assertTrue(t.disconnecting)
Ejemplo n.º 37
0
    def test_keepalive_requires_full_packet(self):
        """
        If a client connects with a keepalive, and sends no FULL packets in
        keep_alive * 1.5, they will be disconnected.

        Compliance statement MQTT-3.1.2-24
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        self.assertFalse(t.disconnecting)

        r.advance(2.9)
        self.assertFalse(t.disconnecting)

        data = (
            # PINGREQ header, no body (incomplete packet)
            b"c0"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        # Timeout has not changed. If it reset the timeout on data recieved,
        # the delayed call's trigger time would instead be 2.9 + 3.
        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        r.advance(0.1)
        self.assertTrue(t.disconnecting)
Ejemplo n.º 38
0
    def test_connect_subscribe_unsubscribe(self):
        """
        A connect, then a subscribe and an immediate unsubscribe.
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # SUBSCRIBE
            b"820d00010008746573742f31323300"
            # UNSUBSCRIBE
            b"a20c00030008746573742f313233")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 3)

        self._assert_event(
            events.pop(0), Connect, {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test123",
                'keep_alive': 2,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            })

        self._assert_event(
            events.pop(0), Subscribe, {
                'packet_identifier': 1,
                'topic_requests': [{
                    'topic_filter': u'test/123',
                    'max_qos': 0,
                }]
            })

        self._assert_event(events.pop(0), Unsubscribe, {
            'packet_identifier': 3,
            'topics': [u'test/123'],
        })

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
Ejemplo n.º 39
0
    def test_keepalive_full_packet_resets_timeout(self):
        """
        If a client connects with a keepalive, and sends packets in under
        keep_alive * 1.5, the connection will remain, and the timeout will be
        reset.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        self.assertFalse(t.disconnecting)

        r.advance(2.9)
        self.assertFalse(t.disconnecting)

        data = (
            # Full PINGREQ packet
            b"c000"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        # Timeout has changed, to be 2.9 (the time the packet was recieved) + 3
        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 2.9 + 3.0)

        r.advance(0.1)
        self.assertFalse(t.disconnecting)
Ejemplo n.º 40
0
    def test_keepalive_full_packet_resets_timeout(self):
        """
        If a client connects with a keepalive, and sends packets in under
        keep_alive * 1.5, the connection will remain, and the timeout will be
        reset.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            # CONNECT, with keepalive of 2
            b"101300044d51545404020002000774657374313233"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 3.0)

        self.assertFalse(t.disconnecting)

        r.advance(2.9)
        self.assertFalse(t.disconnecting)

        data = (
            # Full PINGREQ packet
            b"c000"
        )

        for x in iterbytes(unhexlify(data)):
            p.dataReceived(x)

        # Timeout has changed, to be 2.9 (the time the packet was recieved) + 3
        self.assertEqual(len(r.calls), 1)
        self.assertEqual(r.calls[0].func, p._lose_connection)
        self.assertEqual(r.calls[0].getTime(), 2.9 + 3.0)

        r.advance(0.1)
        self.assertFalse(t.disconnecting)
Ejemplo n.º 41
0
    def test_qos_1_sends_ack(self):
        """
        When a QoS 1 Publish packet is recieved, we send a PubACK with the same
        packet identifier as the original Publish.

        Compliance statement MQTT-3.3.4-1
        Spec part 3.4
        """
        got_packets = []

        class PubHandler(BasicHandler):
            def process_publish_qos_1(self, event):
                got_packets.append(event)
                return succeed(None)

        h = PubHandler()
        r, t, p, cp = make_test_items(h)

        pub = Publish(duplicate=False,
                      qos_level=1,
                      retain=False,
                      topic_name=u"foo",
                      packet_identifier=1,
                      payload=b"bar").serialise()

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=True)).serialise() +
                pub)

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertFalse(t.disconnecting)

        # ConnACK + PubACK with the same packet ID
        self.assertEqual(len(events), 2)
        self.assertEqual(events[1], PubACK(packet_identifier=1))

        # The publish handler should have been called
        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].serialise(), pub)

        # We should get a debug message saying we got the publish
        messages = logs.get_category("MQ202")
        self.assertEqual(len(messages), 1)
        self.assertEqual(messages[0]["publish"].serialise(), pub)
Ejemplo n.º 42
0
    def test_qos_1_sends_ack(self):
        """
        When a QoS 1 Publish packet is recieved, we send a PubACK with the same
        packet identifier as the original Publish.

        Compliance statement MQTT-3.3.4-1
        Spec part 3.4
        """
        got_packets = []

        class PubHandler(BasicHandler):
            def process_publish_qos_1(self, event):
                got_packets.append(event)
                return succeed(None)

        h = PubHandler()
        r, t, p, cp = make_test_items(h)

        pub = Publish(duplicate=False, qos_level=1, retain=False,
                      topic_name=u"foo", packet_identifier=1,
                      payload=b"bar").serialise()

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise() + pub
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertFalse(t.disconnecting)

        # ConnACK + PubACK with the same packet ID
        self.assertEqual(len(events), 2)
        self.assertEqual(events[1], PubACK(packet_identifier=1))

        # The publish handler should have been called
        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].serialise(), pub)

        # We should get a debug message saying we got the publish
        messages = logs.get_category("MQ202")
        self.assertEqual(len(messages), 1)
        self.assertEqual(messages[0]["publish"].serialise(), pub)
Ejemplo n.º 43
0
    def test_unknown_connect_code_must_lose_connection(self):
        """
        A non-zero, and non-1-to-5 connect code from the handler must result in
        a lost connection, and no CONNACK.

        Compliance statements MQTT-3.2.2-4, MQTT-3.2.2-5
        """
        h = BasicHandler(6)
        r, t, p, cp = make_test_items(h)

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=False)).serialise())

        for x in iterbytes(data):
            p.dataReceived(x)

        self.assertTrue(t.disconnecting)
        self.assertEqual(t.value(), b'')
Ejemplo n.º 44
0
    def test_invalid_utf8_null(self):
        """
        UTF-8 strings may not contain null bytes.

        Conformance statement MQTT-1.5.3-2
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04\x00QTT\x04\x02\x00x\x00\x07test123"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(attr.asdict(events[0]),
                         {'reason': ("Invalid UTF-8 string (contains nulls)")})
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 45
0
    def test_connect_ping(self):
        """
        A connect, then a ping.
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # PINGREQ
            b"c000"
        )

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 2)

        self._assert_event(
            events.pop(0), Connect,
            {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test123",
                'keep_alive': 2,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            }
        )

        self._assert_event(events.pop(0), PingREQ, {})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
Ejemplo n.º 46
0
    def test_qos_0_sends_no_ack(self):
        """
        When a QoS 0 Publish packet is recieved, we don't send back a PubACK.
        """
        got_packets = []

        class PubHandler(BasicHandler):
            def process_publish_qos_0(self, event):
                got_packets.append(event)
                return succeed(None)

        h = PubHandler()
        r, t, p, cp = make_test_items(h)

        pub = Publish(duplicate=False,
                      qos_level=0,
                      retain=False,
                      topic_name=u"foo",
                      packet_identifier=None,
                      payload=b"bar").serialise()

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=True)).serialise() +
                pub)

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertFalse(t.disconnecting)

        # Just the connack, no puback.
        self.assertEqual(len(events), 1)

        # The publish handler should have been called
        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].serialise(), pub)

        # We should get a debug message saying we got the publish
        messages = logs.get_category("MQ201")
        self.assertEqual(len(messages), 1)
        self.assertEqual(messages[0]["publish"].serialise(), pub)
Ejemplo n.º 47
0
    def test_malformed_packet(self):
        """
        A parsing failure (e.g. an incorrect flag leads us to read off the end)
        is safely handled.
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04MQTT\x04\x02\x00x\x00\x09test123"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]), {
                'reason': ("Corrupt data, fell off the end: Cannot read 72 "
                           "bits, only 56 available.")
            })
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 48
0
    def test_invalid_utf8_continuation(self):
        """
        Invalid UTF-8 sequences (i.e. those containing UTF-16 surrogate pairs
        encoded in UTF-8) are a protocol violation.

        Conformance statement MQTT-1.5.3-1
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04\xed\xbf\xbfT\x04\x02\x00x\x00\x07test123"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {'reason': ("Invalid UTF-8 string (contains surrogates)")})
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 49
0
    def test_unknown_connect_code_must_lose_connection(self):
        """
        A non-zero, and non-1-to-5 connect code from the handler must result in
        a lost connection, and no CONNACK.

        Compliance statements MQTT-3.2.2-4, MQTT-3.2.2-5
        """
        h = BasicHandler(6)
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=False)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        self.assertTrue(t.disconnecting)
        self.assertEqual(t.value(), b'')
Ejemplo n.º 50
0
    def test_qos_0_sends_no_ack(self):
        """
        When a QoS 0 Publish packet is recieved, we don't send back a PubACK.
        """
        got_packets = []

        class PubHandler(BasicHandler):
            def process_publish_qos_0(self, event):
                got_packets.append(event)
                return succeed(None)

        h = PubHandler()
        r, t, p, cp = make_test_items(h)

        pub = Publish(duplicate=False, qos_level=0, retain=False,
                      topic_name=u"foo", packet_identifier=None,
                      payload=b"bar").serialise()

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise() + pub
        )

        with LogCapturer("trace") as logs:
            for x in iterbytes(data):
                p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertFalse(t.disconnecting)

        # Just the connack, no puback.
        self.assertEqual(len(events), 1)

        # The publish handler should have been called
        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].serialise(), pub)

        # We should get a debug message saying we got the publish
        messages = logs.get_category("MQ201")
        self.assertEqual(len(messages), 1)
        self.assertEqual(messages[0]["publish"].serialise(), pub)
Ejemplo n.º 51
0
    def test_connect_ping(self):
        """
        A connect, then a ping.
        """
        events = []
        p = MQTTParser()

        data = (
            # CONNECT
            b"101300044d51545404020002000774657374313233"
            # PINGREQ
            b"c000")

        for x in iterbytes(unhexlify(data)):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 2)

        self._assert_event(
            events.pop(0), Connect, {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test123",
                'keep_alive': 2,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            })

        self._assert_event(events.pop(0), PingREQ, {})

        # We want to have consumed all the events
        self.assertEqual(len(events), 0)
Ejemplo n.º 52
0
    def test_transport_paused_while_processing(self):
        """
        The transport is paused whilst the MQTT protocol is parsing/handling
        existing items.
        """
        d = Deferred()
        h = BasicHandler()
        h.process_connect = lambda x: d
        r, t, p, cp = make_test_items(h)

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=False)).serialise())

        self.assertEqual(t.producerState, 'producing')

        for x in iterbytes(data):
            p.dataReceived(x)

        self.assertEqual(t.producerState, 'paused')
        d.callback((0, False))
        self.assertEqual(t.producerState, 'producing')
Ejemplo n.º 53
0
    def test_quirks_mode_connect(self):
        """
        Nyamuk sends two extra bytes at the end of the CONNECT packet (that
        cannot mean anything), we should just cope with it.
        """
        events = []
        p = MQTTParser()

        #             vv correct length                           vv why???
        good = b"\x10\x15\x00\x04MQTT\x04\x02\x00x\x00\x07test123\x00\x00"

        for x in iterbytes(good):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'username': None,
                'password': None,
                'will_message': None,
                'will_topic': None,
                'client_id': u"test123",
                'keep_alive': 120,
                'flags': {
                    'username': False,
                    'password': False,
                    'will': False,
                    'will_qos': 0,
                    'will_retain': False,
                    'clean_session': True,
                    'reserved': False
                }
            }
        )
        warnings = self.flushWarnings()
        self.assertEqual(len(warnings), 1)
        self.assertEqual(warnings[0]["message"],
                         ("Quirky client CONNECT -- packet length was 152 "
                          "bytes but only had 168 bytes of useful data"))
Ejemplo n.º 54
0
    def test_qos_0_queues_message(self):
        """
        The WAMP layer calling send_publish will queue a message up for
        sending, and send it next time it has a chance.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (Connect(client_id=u"test123",
                        flags=ConnectFlags(clean_session=True)).serialise())

        for x in iterbytes(data):
            p.dataReceived(x)

        # Connect has happened
        events = cp.data_received(t.value())
        t.clear()
        self.assertFalse(t.disconnecting)
        self.assertIsInstance(events[0], ConnACK)

        # WAMP layer calls send_publish
        p.send_publish(u"hello", 0, b'some bytes', False)

        # Nothing should have been sent yet, it is queued
        self.assertEqual(t.value(), b'')

        # Advance the clock
        r.advance(0.1)

        # We should now get the sent Publish
        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertEqual(
            events[0],
            Publish(duplicate=False,
                    qos_level=0,
                    retain=False,
                    packet_identifier=None,
                    topic_name=u"hello",
                    payload=b"some bytes"))
Ejemplo n.º 55
0
    def test_qos_0_queues_message(self):
        """
        The WAMP layer calling send_publish will queue a message up for
        sending, and send it next time it has a chance.
        """
        h = BasicHandler()
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise()
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        # Connect has happened
        events = cp.data_received(t.value())
        t.clear()
        self.assertFalse(t.disconnecting)
        self.assertIsInstance(events[0], ConnACK)

        # WAMP layer calls send_publish
        p.send_publish(u"hello", 0, b'some bytes', False)

        # Nothing should have been sent yet, it is queued
        self.assertEqual(t.value(), b'')

        # Advance the clock
        r.advance(0.1)

        # We should now get the sent Publish
        events = cp.data_received(t.value())
        self.assertEqual(len(events), 1)
        self.assertEqual(
            events[0],
            Publish(duplicate=False, qos_level=0, retain=False,
                    packet_identifier=None, topic_name=u"hello",
                    payload=b"some bytes"))
Ejemplo n.º 56
0
    def test_invalid_utf8_null(self):
        """
        UTF-8 strings may not contain null bytes.

        Conformance statement MQTT-1.5.3-2
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04\x00QTT\x04\x02\x00x\x00\x07test123"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'reason': ("Invalid UTF-8 string (contains nulls)")
            }
        )
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 57
0
    def test_malformed_packet(self):
        """
        A parsing failure (e.g. an incorrect flag leads us to read off the end)
        is safely handled.
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04MQTT\x04\x02\x00x\x00\x09test123"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'reason': ("Corrupt data, fell off the end: Cannot read 72 "
                           "bits, only 56 available.")
            }
        )
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 58
0
    def test_unsubscription_gets_unsuback_with_same_id(self):
        """
        When an unsubscription is processed, the UnsubACK has the same ID.
        Unsubscriptions are always processed.

        Compliance statements MQTT-3.10.4-4, MQTT-3.10.4-5, MQTT-3.12.4-1
        """
        got_packets = []

        class SubHandler(BasicHandler):
            def process_unsubscribe(self, event):
                got_packets.append(event)
                return succeed(None)

        h = SubHandler()
        r, t, p, cp = make_test_items(h)

        unsub = Unsubscribe(packet_identifier=1234,
                            topics=[u"foo"]).serialise()

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=True)).serialise() + unsub
        )

        for x in iterbytes(data):
            p.dataReceived(x)

        events = cp.data_received(t.value())
        self.assertEqual(len(events), 2)
        self.assertFalse(t.disconnecting)

        # UnsubACK that has the same ID
        self.assertIsInstance(events[1], UnsubACK)
        self.assertEqual(events[1].packet_identifier, 1234)

        # The unsubscribe handler should have been called
        self.assertEqual(len(got_packets), 1)
        self.assertEqual(got_packets[0].serialise(), unsub)
Ejemplo n.º 59
0
    def test_invalid_utf8_continuation(self):
        """
        Invalid UTF-8 sequences (i.e. those containing UTF-16 surrogate pairs
        encoded in UTF-8) are a protocol violation.

        Conformance statement MQTT-1.5.3-1
        """
        events = []
        p = MQTTParser()

        bad = b"\x10\x13\x00\x04\xed\xbf\xbfT\x04\x02\x00x\x00\x07test123"

        for x in iterbytes(bad):
            events.extend(p.data_received(x))

        self.assertEqual(len(events), 1)
        self.assertEqual(
            attr.asdict(events[0]),
            {
                'reason': ("Invalid UTF-8 string (contains surrogates)")
            }
        )
        self.assertEqual(p._state, PROTOCOL_VIOLATION)
Ejemplo n.º 60
0
    def test_transport_paused_while_processing(self):
        """
        The transport is paused whilst the MQTT protocol is parsing/handling
        existing items.
        """
        d = Deferred()
        h = BasicHandler()
        h.process_connect = lambda x: d
        r, t, p, cp = make_test_items(h)

        data = (
            Connect(client_id=u"test123",
                    flags=ConnectFlags(clean_session=False)).serialise()
        )

        self.assertEqual(t.producerState, 'producing')

        for x in iterbytes(data):
            p.dataReceived(x)

        self.assertEqual(t.producerState, 'paused')
        d.callback((0, False))
        self.assertEqual(t.producerState, 'producing')