示例#1
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    def test_on_message_old_fn_signature(self):
        # ensure that message-received callbacks with the old function signature still work
        config = Config.get()
        elg = EventLoopGroup()
        resolver = DefaultHostResolver(elg)
        bootstrap = ClientBootstrap(elg, resolver)

        tls_opts = TlsContextOptions.create_client_with_mtls(
            config.cert, config.key)
        tls = ClientTlsContext(tls_opts)

        client = Client(bootstrap, tls)
        connection = Connection(client=client,
                                client_id=create_client_id(),
                                host_name=config.endpoint,
                                port=8883)

        any_received = Future()
        sub_received = Future()

        # Note: Testing degenerate callback signature that failed to take
        # forward-compatibility **kwargs.
        def on_any_message(topic, payload):
            any_received.set_result({'topic': topic, 'payload': payload})

        def on_sub_message(topic, payload):
            sub_received.set_result({'topic': topic, 'payload': payload})

        # on_message for connection has to be set before connect, or possible race will happen
        connection.on_message(on_any_message)

        connection.connect().result(TIMEOUT)
        # subscribe without callback
        subscribed, packet_id = connection.subscribe(self.TEST_TOPIC,
                                                     QoS.AT_LEAST_ONCE,
                                                     on_sub_message)
        subscribed.result(TIMEOUT)

        # publish
        published, packet_id = connection.publish(self.TEST_TOPIC,
                                                  self.TEST_MSG,
                                                  QoS.AT_LEAST_ONCE)
        puback = published.result(TIMEOUT)

        # receive message
        rcv = any_received.result(TIMEOUT)
        self.assertEqual(self.TEST_TOPIC, rcv['topic'])
        self.assertEqual(self.TEST_MSG, rcv['payload'])

        rcv = sub_received.result(TIMEOUT)
        self.assertEqual(self.TEST_TOPIC, rcv['topic'])
        self.assertEqual(self.TEST_MSG, rcv['payload'])

        # disconnect
        connection.disconnect().result(TIMEOUT)
示例#2
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    def _test_connection(self):
        config = Config.get()
        elg = EventLoopGroup()
        resolver = DefaultHostResolver(elg)
        bootstrap = ClientBootstrap(elg, resolver)

        tls_opts = TlsContextOptions.create_client_with_mtls(
            config.cert, config.key)
        tls = ClientTlsContext(tls_opts)

        client = Client(bootstrap, tls)
        connection = Connection(client=client,
                                client_id=create_client_id(),
                                host_name=config.endpoint,
                                port=8883)
        connection.connect().result(TIMEOUT)
        return connection
示例#3
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    def test_on_message(self):
        config = Config.get()
        elg = EventLoopGroup()
        resolver = DefaultHostResolver(elg)
        bootstrap = ClientBootstrap(elg, resolver)

        tls_opts = TlsContextOptions.create_client_with_mtls(
            config.cert, config.key)
        tls = ClientTlsContext(tls_opts)

        client = Client(bootstrap, tls)
        connection = Connection(client=client,
                                client_id=create_client_id(),
                                host_name=config.endpoint,
                                port=8883)
        received = Future()

        def on_message(**kwargs):
            received.set_result(kwargs)

        # on_message for connection has to be set before connect, or possible race will happen
        connection.on_message(on_message)

        connection.connect().result(TIMEOUT)
        # subscribe without callback
        subscribed, packet_id = connection.subscribe(self.TEST_TOPIC,
                                                     QoS.AT_LEAST_ONCE)
        subscribed.result(TIMEOUT)

        # publish
        published, packet_id = connection.publish(self.TEST_TOPIC,
                                                  self.TEST_MSG,
                                                  QoS.AT_LEAST_ONCE)
        puback = published.result(TIMEOUT)

        # receive message
        rcv = received.result(TIMEOUT)
        self.assertEqual(self.TEST_TOPIC, rcv['topic'])
        self.assertEqual(self.TEST_MSG, rcv['payload'])
        self.assertFalse(rcv['dup'])
        self.assertEqual(QoS.AT_LEAST_ONCE, rcv['qos'])
        self.assertFalse(rcv['retain'])

        # disconnect
        connection.disconnect().result(TIMEOUT)
示例#4
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 def _subscribe_to_update_requests(self, mqtt: awsmqtt.Connection) -> None:
     subscribe_future, _ = mqtt.subscribe(
         topic=self._status_request_topic,
         qos=awsmqtt.QoS.AT_LEAST_ONCE,
         callback=self._on_status_requested,
     )
     subscribe_result = subscribe_future.result()
     _LOGGER.debug(
         "Subscribed to '%s' with QOS '%s'",
         subscribe_result["topic"],
         subscribe_result["qos"],
     )
示例#5
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    def _establish_mqtt_connection(self, proxy_options):
        event_loop_group = EventLoopGroup()
        host_resolver = DefaultHostResolver(event_loop_group)
        bootstrap = ClientBootstrap(event_loop_group, host_resolver)

        tls_opts = TlsContextOptions.create_client_with_mtls_from_path(
            ProxyTestConfiguration.HTTP_PROXY_TLS_CERT_PATH,
            ProxyTestConfiguration.HTTP_PROXY_TLS_KEY_PATH)
        tls_opts.override_default_trust_store_from_path(
            ca_filepath=ProxyTestConfiguration.HTTP_PROXY_TLS_ROOT_CA_PATH)
        tls = ClientTlsContext(tls_opts)

        client = Client(bootstrap, tls)
        connection = Connection(
            client=client,
            client_id=create_client_id(),
            host_name=ProxyTestConfiguration.HTTP_PROXY_MQTT_ENDPOINT,
            port=8883,
            proxy_options=proxy_options)
        connection.connect().result(TIMEOUT)
        return connection
示例#6
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    def _create_connection(self, auth_type=AuthType.CERT_AND_KEY, use_static_singletons=False):
        config = Config(auth_type)

        if auth_type == AuthType.CERT_AND_KEY:
            tls_opts = TlsContextOptions.create_client_with_mtls_from_path(config.cert_path, config.key_path)
            tls = ClientTlsContext(tls_opts)

        elif auth_type == AuthType.PKCS11:
            try:
                pkcs11_lib = Pkcs11Lib(
                    file=config.pkcs11_lib_path,
                    behavior=Pkcs11Lib.InitializeFinalizeBehavior.STRICT)

                tls_opts = TlsContextOptions.create_client_with_mtls_pkcs11(
                    pkcs11_lib=pkcs11_lib,
                    user_pin=config.pkcs11_pin,
                    token_label=config.pkcs11_token_label,
                    private_key_label=config.pkcs11_key_label,
                    cert_file_path=config.cert_path)

                tls = ClientTlsContext(tls_opts)

            except Exception as e:
                if 'AWS_ERROR_UNIMPLEMENTED' in str(e):
                    raise unittest.SkipTest(f'TLS with PKCS#11 not supported on this platform ({sys.platform})')
                else:
                    # re-raise exception
                    raise

        if use_static_singletons:
            client = Client(tls_ctx=tls)
        else:
            elg = EventLoopGroup()
            resolver = DefaultHostResolver(elg)
            bootstrap = ClientBootstrap(elg, resolver)
            client = Client(bootstrap, tls)

        connection = Connection(
            client=client,
            client_id=create_client_id(),
            host_name=config.endpoint,
            port=8883)
        return connection