def _run_op(self, op):

        if isinstance(op, pipeline_ops_base.InitializePipelineOperation):

            if self.pipeline_root.pipeline_configuration.module_id:
                # Module Format
                client_id = "{}/{}".format(
                    self.pipeline_root.pipeline_configuration.device_id,
                    self.pipeline_root.pipeline_configuration.module_id,
                )
            else:
                # Device Format
                client_id = self.pipeline_root.pipeline_configuration.device_id

            query_param_seq = []

            # Apply query parameters (i.e. key1=value1&key2=value2...&keyN=valueN format)
            custom_product_info = str(
                self.pipeline_root.pipeline_configuration.product_info)
            if custom_product_info.startswith(
                    pkg_constant.DIGITAL_TWIN_PREFIX):  # Digital Twin Stuff
                query_param_seq.append(
                    ("api-version", pkg_constant.DIGITAL_TWIN_API_VERSION))
                query_param_seq.append(
                    ("DeviceClientType", user_agent.get_iothub_user_agent()))
                query_param_seq.append((pkg_constant.DIGITAL_TWIN_QUERY_HEADER,
                                        custom_product_info))
            else:
                query_param_seq.append(
                    ("api-version", pkg_constant.IOTHUB_API_VERSION))
                query_param_seq.append(
                    ("DeviceClientType",
                     user_agent.get_iothub_user_agent() + custom_product_info))

            # NOTE: Client ID (including the device and/or module ids that are in it)
            # is NOT url encoded as part of the username. Neither is the hostname.
            # The sequence of key/value property pairs (query_param_seq) however, MUST have all
            # keys and values URL encoded.
            # See the repo wiki article for details:
            # https://github.com/Azure/azure-iot-sdk-python/wiki/URL-Encoding-(MQTT)
            username = "******".format(
                hostname=self.pipeline_root.pipeline_configuration.hostname,
                client_id=client_id,
                query_params=version_compat.urlencode(
                    query_param_seq, quote_via=urllib.parse.quote),
            )

            # Dynamically attach the derived MQTT values to the InitalizePipelineOperation
            # to be used later down the pipeline
            op.username = username
            op.client_id = client_id

            self.send_op_down(op)

        elif isinstance(
                op, pipeline_ops_iothub.SendD2CMessageOperation) or isinstance(
                    op, pipeline_ops_iothub.SendOutputMessageOperation):
            # Convert SendTelementry and SendOutputMessageOperation operations into MQTT Publish operations
            telemetry_topic = mqtt_topic_iothub.get_telemetry_topic_for_publish(
                device_id=self.pipeline_root.pipeline_configuration.device_id,
                module_id=self.pipeline_root.pipeline_configuration.module_id,
            )
            topic = mqtt_topic_iothub.encode_message_properties_in_topic(
                op.message, telemetry_topic)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                topic=topic,
                payload=op.message.data,
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_iothub.SendMethodResponseOperation):
            # Sending a Method Response gets translated into an MQTT Publish operation
            topic = mqtt_topic_iothub.get_method_topic_for_publish(
                op.method_response.request_id, op.method_response.status)
            payload = json.dumps(op.method_response.payload)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                topic=topic,
                payload=payload)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.EnableFeatureOperation):
            # Enabling a feature gets translated into an MQTT subscribe operation
            topic = self._get_feature_subscription_topic(op.feature_name)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTSubscribeOperation,
                topic=topic)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.DisableFeatureOperation):
            # Disabling a feature gets turned into an MQTT unsubscribe operation
            topic = self._get_feature_subscription_topic(op.feature_name)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTUnsubscribeOperation,
                topic=topic)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.RequestOperation):
            if op.request_type == pipeline_constant.TWIN:
                topic = mqtt_topic_iothub.get_twin_topic_for_publish(
                    method=op.method,
                    resource_location=op.resource_location,
                    request_id=op.request_id,
                )
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)
            else:
                raise pipeline_exceptions.OperationError(
                    "RequestOperation request_type {} not supported".format(
                        op.request_type))

        else:
            # All other operations get passed down
            super(IoTHubMQTTTranslationStage, self)._run_op(op)
Beispiel #2
0
    def _run_op(self, op):

        if isinstance(op, pipeline_ops_base.InitializePipelineOperation):

            if self.pipeline_root.pipeline_configuration.module_id:
                # Module Format
                client_id = "{}/{}".format(
                    self.pipeline_root.pipeline_configuration.device_id,
                    self.pipeline_root.pipeline_configuration.module_id,
                )
            else:
                # Device Format
                client_id = self.pipeline_root.pipeline_configuration.device_id

            # Apply query parameters (i.e. key1=value1&key2=value2...&keyN=valueN format)
            query_param_seq = [
                ("api-version", pkg_constant.IOTHUB_API_VERSION),
                (
                    "DeviceClientType",
                    user_agent.get_iothub_user_agent() +
                    self.pipeline_root.pipeline_configuration.product_info,
                ),
            ]
            username = "******".format(
                hostname=self.pipeline_root.pipeline_configuration.hostname,
                client_id=client_id,
                query_params=version_compat.urlencode(
                    query_param_seq, quote_via=urllib.parse.quote),
            )

            # Dynamically attach the derived MQTT values to the InitalizePipelineOperation
            # to be used later down the pipeline
            op.username = username
            op.client_id = client_id

            self.send_op_down(op)

        elif isinstance(
                op, pipeline_ops_iothub.SendD2CMessageOperation) or isinstance(
                    op, pipeline_ops_iothub.SendOutputMessageOperation):
            # Convert SendTelementry and SendOutputMessageOperation operations into MQTT Publish operations
            telemetry_topic = mqtt_topic_iothub.get_telemetry_topic_for_publish(
                device_id=self.pipeline_root.pipeline_configuration.device_id,
                module_id=self.pipeline_root.pipeline_configuration.module_id,
            )
            topic = mqtt_topic_iothub.encode_message_properties_in_topic(
                op.message, telemetry_topic)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                topic=topic,
                payload=op.message.data,
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_iothub.SendMethodResponseOperation):
            # Sending a Method Response gets translated into an MQTT Publish operation
            topic = mqtt_topic_iothub.get_method_topic_for_publish(
                op.method_response.request_id, op.method_response.status)
            payload = json.dumps(op.method_response.payload)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                topic=topic,
                payload=payload)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.EnableFeatureOperation):
            # Enabling a feature gets translated into an MQTT subscribe operation
            topic = self._get_feature_subscription_topic(op.feature_name)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTSubscribeOperation,
                topic=topic)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.DisableFeatureOperation):
            # Disabling a feature gets turned into an MQTT unsubscribe operation
            topic = self._get_feature_subscription_topic(op.feature_name)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTUnsubscribeOperation,
                topic=topic)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.RequestOperation):
            if op.request_type == pipeline_constant.TWIN:
                topic = mqtt_topic_iothub.get_twin_topic_for_publish(
                    method=op.method,
                    resource_location=op.resource_location,
                    request_id=op.request_id,
                )
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)
            else:
                raise pipeline_exceptions.OperationError(
                    "RequestOperation request_type {} not supported".format(
                        op.request_type))

        else:
            # All other operations get passed down
            super(IoTHubMQTTTranslationStage, self)._run_op(op)
Beispiel #3
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def encode_message_properties_in_topic(message_to_send, topic):
    """
    uri-encode the system properties of a message as key-value pairs on the topic with defined keys.
    Additionally if the message has user defined properties, the property keys and values shall be
    uri-encoded and appended at the end of the above topic with the following convention:
    '<key>=<value>&<key2>=<value2>&<key3>=<value3>(...)'
    :param message_to_send: The message to send
    :param topic: The topic which has not been encoded yet. For a device it looks like
    "devices/<deviceId>/messages/events/" and for a module it looks like
    "devices/<deviceId>/modules/<moduleId>/messages/events/
    :return: The topic which has been uri-encoded
    """
    system_properties = []
    if message_to_send.output_name:
        system_properties.append(("$.on", str(message_to_send.output_name)))
    if message_to_send.message_id:
        system_properties.append(("$.mid", str(message_to_send.message_id)))

    if message_to_send.correlation_id:
        system_properties.append(
            ("$.cid", str(message_to_send.correlation_id)))

    if message_to_send.user_id:
        system_properties.append(("$.uid", str(message_to_send.user_id)))

    if message_to_send.content_type:
        system_properties.append(("$.ct", str(message_to_send.content_type)))

    if message_to_send.content_encoding:
        system_properties.append(
            ("$.ce", str(message_to_send.content_encoding)))

    if message_to_send.iothub_interface_id:
        system_properties.append(
            ("$.ifid", str(message_to_send.iothub_interface_id)))

    if message_to_send.expiry_time_utc:
        system_properties.append((
            "$.exp",
            message_to_send.expiry_time_utc.isoformat()  # returns string
            if isinstance(message_to_send.expiry_time_utc, date) else
            message_to_send.expiry_time_utc,
        ))

    system_properties_encoded = version_compat.urlencode(
        system_properties, quote_via=urllib.parse.quote)
    topic += system_properties_encoded

    if message_to_send.custom_properties and len(
            message_to_send.custom_properties) > 0:
        if system_properties and len(system_properties) > 0:
            topic += "&"

        # Convert the custom properties to a sorted list in order to ensure the
        # resulting ordering in the topic string is consistent across versions of Python.
        # Convert to the properties to strings for safety.
        custom_prop_seq = [
            (str(i[0]), str(i[1]))
            for i in list(message_to_send.custom_properties.items())
        ]
        custom_prop_seq.sort()

        # Validate that string conversion has not created duplicate keys
        keys = [i[0] for i in custom_prop_seq]
        if len(keys) != len(set(keys)):
            raise ValueError("Duplicate keys in custom properties!")

        user_properties_encoded = version_compat.urlencode(
            custom_prop_seq, quote_via=urllib.parse.quote)
        topic += user_properties_encoded

    return topic
    def _run_op(self, op):

        if isinstance(op, pipeline_ops_base.InitializePipelineOperation):

            client_id = self.pipeline_root.pipeline_configuration.registration_id
            query_param_seq = [
                ("api-version", pkg_constant.PROVISIONING_API_VERSION),
                ("ClientVersion", user_agent.get_provisioning_user_agent()),
            ]
            username = "******".format(
                id_scope=self.pipeline_root.pipeline_configuration.id_scope,
                registration_id=self.pipeline_root.pipeline_configuration.
                registration_id,
                query_params=version_compat.urlencode(
                    query_param_seq, quote_via=urllib.parse.quote),
            )

            # Dynamically attach the derived MQTT values to the InitalizePipelineOperation
            # to be used later down the pipeline
            op.username = username
            op.client_id = client_id

            self.send_op_down(op)

        elif isinstance(op, pipeline_ops_base.RequestOperation):
            if op.request_type == pipeline_constant.REGISTER:
                topic = mqtt_topic_provisioning.get_register_topic_for_publish(
                    request_id=op.request_id)
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)
            elif op.request_type == pipeline_constant.QUERY:
                topic = mqtt_topic_provisioning.get_query_topic_for_publish(
                    request_id=op.request_id,
                    operation_id=op.query_params["operation_id"])
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)
            else:
                raise pipeline_exceptions.OperationError(
                    "RequestOperation request_type {} not supported".format(
                        op.request_type))

        elif isinstance(op, pipeline_ops_base.EnableFeatureOperation):
            # The only supported feature is REGISTER
            if not op.feature_name == pipeline_constant.REGISTER:
                raise pipeline_exceptions.OperationError(
                    "Trying to enable/disable invalid feature - {}".format(
                        op.feature_name))
            # Enabling for register gets translated into an MQTT subscribe operation
            topic = mqtt_topic_provisioning.get_register_topic_for_subscribe()
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTSubscribeOperation,
                topic=topic)
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.DisableFeatureOperation):
            # The only supported feature is REGISTER
            if not op.feature_name == pipeline_constant.REGISTER:
                raise pipeline_exceptions.OperationError(
                    "Trying to enable/disable invalid feature - {}".format(
                        op.feature_name))
            # Disabling a register response gets turned into an MQTT unsubscribe operation
            topic = mqtt_topic_provisioning.get_register_topic_for_subscribe()
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTUnsubscribeOperation,
                topic=topic)
            self.send_op_down(worker_op)

        else:
            # All other operations get passed down
            super(ProvisioningMQTTTranslationStage, self)._run_op(op)
    def _run_op(self, op):

        if isinstance(op, pipeline_ops_iothub.SetIoTHubConnectionArgsOperation):
            self.device_id = op.device_id
            self.module_id = op.module_id

            # if we get auth provider args from above, we save some, use some to build topic names,
            # and always pass it down because we know that the MQTT protocol stage will also want
            # to receive these args.
            self._set_topic_names(device_id=op.device_id, module_id=op.module_id)

            if op.module_id:
                client_id = "{}/{}".format(op.device_id, op.module_id)
            else:
                client_id = op.device_id

            # For MQTT, the entire user agent string should be appended to the username field in the connect packet
            # For example, the username may look like this without custom parameters:
            # yosephsandboxhub.azure-devices.net/alpha/?api-version=2018-06-30&DeviceClientType=py-azure-iot-device%2F2.0.0-preview.12
            # The customer user agent string would simply be appended to the end of this username, in URL Encoded format.
            query_param_seq = [
                ("api-version", pkg_constant.IOTHUB_API_VERSION),
                (
                    "DeviceClientType",
                    ProductInfo.get_iothub_user_agent()
                    + str(self.pipeline_root.pipeline_configuration.product_info),
                ),
            ]
            username = "******".format(
                hostname=op.hostname,
                client_id=client_id,
                query_params=version_compat.urlencode(
                    query_param_seq, quote_via=urllib.parse.quote
                ),
            )

            if op.gateway_hostname:
                hostname = op.gateway_hostname
            else:
                hostname = op.hostname

            # TODO: test to make sure client_cert and sas_token travel down correctly
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.SetMQTTConnectionArgsOperation,
                client_id=client_id,
                hostname=hostname,
                username=username,
                server_verification_cert=op.server_verification_cert,
                client_cert=op.client_cert,
                sas_token=op.sas_token,
            )
            self.send_op_down(worker_op)

        elif (
            isinstance(op, pipeline_ops_base.UpdateSasTokenOperation)
            and self.pipeline_root.connected
        ):
            logger.debug(
                "{}({}): Connected.  Passing op down and reauthorizing after token is updated.".format(
                    self.name, op.name
                )
            )

            # make a callback that either fails the UpdateSasTokenOperation (if the lower level failed it),
            # or issues a ReauthorizeConnectionOperation (if the lower level returned success for the UpdateSasTokenOperation)
            def on_token_update_complete(op, error):
                if error:
                    logger.error(
                        "{}({}) token update failed.  returning failure {}".format(
                            self.name, op.name, error
                        )
                    )
                else:
                    logger.debug(
                        "{}({}) token update succeeded.  reauthorizing".format(self.name, op.name)
                    )

                    # Stop completion of Token Update op, and only continue upon completion of ReauthorizeConnectionOperation
                    op.halt_completion()
                    worker_op = op.spawn_worker_op(
                        worker_op_type=pipeline_ops_base.ReauthorizeConnectionOperation
                    )

                    self.send_op_down(worker_op)

            # now, pass the UpdateSasTokenOperation down with our new callback.
            op.add_callback(on_token_update_complete)
            self.send_op_down(op)

        elif isinstance(op, pipeline_ops_iothub.SendD2CMessageOperation) or isinstance(
            op, pipeline_ops_iothub.SendOutputEventOperation
        ):
            # Convert SendTelementry and SendOutputEventOperation operations into MQTT Publish operations
            topic = mqtt_topic_iothub.encode_message_properties_in_topic(
                op.message, self.telemetry_topic
            )
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                topic=topic,
                payload=op.message.data,
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_iothub.SendMethodResponseOperation):
            # Sending a Method Response gets translated into an MQTT Publish operation
            topic = mqtt_topic_iothub.get_method_topic_for_publish(
                op.method_response.request_id, str(op.method_response.status)
            )
            payload = json.dumps(op.method_response.payload)
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation, topic=topic, payload=payload
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.EnableFeatureOperation):
            # Enabling a feature gets translated into an MQTT subscribe operation
            topic = self.feature_to_topic[op.feature_name]
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTSubscribeOperation, topic=topic
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.DisableFeatureOperation):
            # Disabling a feature gets turned into an MQTT unsubscribe operation
            topic = self.feature_to_topic[op.feature_name]
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTUnsubscribeOperation, topic=topic
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.RequestOperation):
            if op.request_type == pipeline_constant.TWIN:
                topic = mqtt_topic_iothub.get_twin_topic_for_publish(
                    method=op.method,
                    resource_location=op.resource_location,
                    request_id=op.request_id,
                )
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)
            else:
                raise pipeline_exceptions.OperationError(
                    "RequestOperation request_type {} not supported".format(op.request_type)
                )

        else:
            # All other operations get passed down
            super(IoTHubMQTTTranslationStage, self)._run_op(op)
    def _run_op(self, op):

        if isinstance(op, pipeline_ops_provisioning.SetProvisioningClientConnectionArgsOperation):
            # get security client args from above, save some, use some to build topic names,
            # always pass it down because MQTT protocol stage will also want to receive these args.

            client_id = op.registration_id
            query_param_seq = [
                ("api-version", pkg_constant.PROVISIONING_API_VERSION),
                ("ClientVersion", ProductInfo.get_provisioning_user_agent()),
            ]
            username = "******".format(
                id_scope=op.id_scope,
                registration_id=op.registration_id,
                query_params=version_compat.urlencode(
                    query_param_seq, quote_via=urllib.parse.quote
                ),
            )

            hostname = op.provisioning_host

            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.SetMQTTConnectionArgsOperation,
                client_id=client_id,
                hostname=hostname,
                username=username,
                client_cert=op.client_cert,
                sas_token=op.sas_token,
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.RequestOperation):
            if op.request_type == pipeline_constant.REGISTER:
                topic = mqtt_topic_provisioning.get_register_topic_for_publish(
                    request_id=op.request_id
                )
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)
            else:
                topic = mqtt_topic_provisioning.get_query_topic_for_publish(
                    request_id=op.request_id, operation_id=op.query_params["operation_id"]
                )
                worker_op = op.spawn_worker_op(
                    worker_op_type=pipeline_ops_mqtt.MQTTPublishOperation,
                    topic=topic,
                    payload=op.request_body,
                )
                self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.EnableFeatureOperation):
            # Enabling for register gets translated into an MQTT subscribe operation
            topic = mqtt_topic_provisioning.get_register_topic_for_subscribe()
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTSubscribeOperation, topic=topic
            )
            self.send_op_down(worker_op)

        elif isinstance(op, pipeline_ops_base.DisableFeatureOperation):
            # Disabling a register response gets turned into an MQTT unsubscribe operation
            topic = mqtt_topic_provisioning.get_register_topic_for_subscribe()
            worker_op = op.spawn_worker_op(
                worker_op_type=pipeline_ops_mqtt.MQTTUnsubscribeOperation, topic=topic
            )
            self.send_op_down(worker_op)

        else:
            # All other operations get passed down
            super(ProvisioningMQTTTranslationStage, self)._run_op(op)