コード例 #1
0
def input_mod(form_mod, request_form):
    action = '{action} {controller}'.format(
        action=TRANSLATIONS['modify']['title'],
        controller=TRANSLATIONS['input']['title'])
    error = []
    warning = []

    dict_inputs = parse_input_information()

    try:
        mod_input = Input.query.filter(
            Input.unique_id == form_mod.input_id.data).first()

        if mod_input.is_activated:
            error.append(
                gettext("Deactivate controller before modifying its settings"))

        if (mod_input.device == 'AM2315' and form_mod.period.data < 7):
            error.append(
                gettext("Choose a Read Period equal to or greater than 7. The "
                        "AM2315 may become unresponsive if the period is "
                        "below 7."))

        if (form_mod.period.data and mod_input.pre_output_duration
                and form_mod.period.data < mod_input.pre_output_duration):
            error.append(
                gettext(
                    "The Read Period cannot be less than the Pre Output Duration"
                ))

        if (form_mod.uart_location.data
                and not os.path.exists(form_mod.uart_location.data)):
            warning.append(
                gettext(
                    "Invalid device or improper permissions to read device"))

        if ('gpio_location' in dict_inputs[mod_input.device]['options_enabled']
                and form_mod.gpio_location.data is None):
            error.append(gettext("Pin (GPIO) must be set"))

        mod_input.name = form_mod.name.data

        if form_mod.location.data:
            mod_input.location = form_mod.location.data
        if form_mod.i2c_location.data:
            mod_input.i2c_location = form_mod.i2c_location.data
        if form_mod.ftdi_location.data:
            mod_input.ftdi_location = form_mod.ftdi_location.data
        if form_mod.uart_location.data:
            mod_input.uart_location = form_mod.uart_location.data
        if form_mod.gpio_location.data and form_mod.gpio_location.data is not None:
            mod_input.gpio_location = form_mod.gpio_location.data

        if form_mod.power_output_id.data:
            mod_input.power_output_id = form_mod.power_output_id.data
        else:
            mod_input.power_output_id = None

        if form_mod.pre_output_id.data:
            mod_input.pre_output_id = form_mod.pre_output_id.data
        else:
            mod_input.pre_output_id = None

        # Enable/disable Channels
        measurements = DeviceMeasurements.query.filter(
            DeviceMeasurements.device_id == form_mod.input_id.data).all()
        if form_mod.measurements_enabled.data:
            for each_measurement in measurements:
                if each_measurement.unique_id in form_mod.measurements_enabled.data:
                    each_measurement.is_enabled = True
                else:
                    each_measurement.is_enabled = False

        mod_input.log_level_debug = form_mod.log_level_debug.data
        mod_input.i2c_bus = form_mod.i2c_bus.data
        mod_input.baud_rate = form_mod.baud_rate.data
        mod_input.pre_output_duration = form_mod.pre_output_duration.data
        mod_input.pre_output_during_measure = form_mod.pre_output_during_measure.data

        if form_mod.period.data:
            mod_input.period = form_mod.period.data
        if form_mod.start_offset.data:
            mod_input.start_offset = form_mod.start_offset.data

        mod_input.resolution = form_mod.resolution.data
        mod_input.resolution_2 = form_mod.resolution_2.data
        mod_input.sensitivity = form_mod.sensitivity.data
        mod_input.calibrate_sensor_measure = form_mod.calibrate_sensor_measure.data
        mod_input.cmd_command = form_mod.cmd_command.data
        mod_input.thermocouple_type = form_mod.thermocouple_type.data
        mod_input.ref_ohm = form_mod.ref_ohm.data
        # Serial options
        mod_input.pin_clock = form_mod.pin_clock.data
        mod_input.pin_cs = form_mod.pin_cs.data
        mod_input.pin_mosi = form_mod.pin_mosi.data
        mod_input.pin_miso = form_mod.pin_miso.data
        # Bluetooth options
        mod_input.bt_adapter = form_mod.bt_adapter.data

        mod_input.adc_gain = form_mod.adc_gain.data
        mod_input.adc_resolution = form_mod.adc_resolution.data
        mod_input.adc_sample_speed = form_mod.adc_sample_speed.data

        # Switch options
        mod_input.switch_edge = form_mod.switch_edge.data
        mod_input.switch_bouncetime = form_mod.switch_bouncetime.data
        mod_input.switch_reset_period = form_mod.switch_reset_period.data
        # PWM and RPM options
        mod_input.weighting = form_mod.weighting.data
        mod_input.rpm_pulses_per_rev = form_mod.rpm_pulses_per_rev.data
        mod_input.sample_time = form_mod.sample_time.data
        # Server options
        mod_input.port = form_mod.port.data
        mod_input.times_check = form_mod.times_check.data
        mod_input.deadline = form_mod.deadline.data
        # SHT sensor options
        if form_mod.sht_voltage.data:
            mod_input.sht_voltage = form_mod.sht_voltage.data

        channels = InputChannel.query.filter(
            InputChannel.input_id == form_mod.input_id.data)

        # Add or delete channels for variable measurement Inputs
        if ('measurements_variable_amount' in dict_inputs[mod_input.device] and
                dict_inputs[mod_input.device]['measurements_variable_amount']):
            measurements = DeviceMeasurements.query.filter(
                DeviceMeasurements.device_id == form_mod.input_id.data)

            if measurements.count() != form_mod.num_channels.data:
                # Delete measurements/channels
                if form_mod.num_channels.data < measurements.count():
                    for index, each_channel in enumerate(measurements.all()):
                        if index + 1 >= measurements.count():
                            delete_entry_with_id(DeviceMeasurements,
                                                 each_channel.unique_id)

                    if ('channel_quantity_same_as_measurements'
                            in dict_inputs[mod_input.device]
                            and dict_inputs[mod_input.device]
                        ["channel_quantity_same_as_measurements"]):
                        if form_mod.num_channels.data < channels.count():
                            for index, each_channel in enumerate(
                                    channels.all()):
                                if index + 1 >= channels.count():
                                    delete_entry_with_id(
                                        InputChannel, each_channel.unique_id)

                # Add measurements/channels
                elif form_mod.num_channels.data > measurements.count():
                    start_number = measurements.count()
                    for index in range(start_number,
                                       form_mod.num_channels.data):
                        new_measurement = DeviceMeasurements()
                        new_measurement.name = ""
                        new_measurement.device_id = mod_input.unique_id
                        new_measurement.measurement = ""
                        new_measurement.unit = ""
                        new_measurement.channel = index
                        new_measurement.save()

                        if ('channel_quantity_same_as_measurements'
                                in dict_inputs[mod_input.device]
                                and dict_inputs[mod_input.device]
                            ["channel_quantity_same_as_measurements"]):
                            new_channel = InputChannel()
                            new_channel.name = ""
                            new_channel.input_id = mod_input.unique_id
                            new_channel.channel = index

                            error, custom_options = custom_channel_options_return_json(
                                error,
                                dict_inputs,
                                request_form,
                                mod_input.unique_id,
                                index,
                                device=mod_input.device,
                                use_defaults=True)
                            new_channel.custom_options = custom_options

                            new_channel.save()

        # Parse pre-save custom options for output device and its channels
        try:
            custom_options_dict_presave = json.loads(mod_input.custom_options)
        except:
            logger.error("Malformed JSON")
            custom_options_dict_presave = {}

        custom_options_channels_dict_presave = {}
        for each_channel in channels.all():
            if each_channel.custom_options and each_channel.custom_options != "{}":
                custom_options_channels_dict_presave[
                    each_channel.channel] = json.loads(
                        each_channel.custom_options)
            else:
                custom_options_channels_dict_presave[each_channel.channel] = {}

        # Parse post-save custom options for output device and its channels
        error, custom_options_json_postsave = custom_options_return_json(
            error,
            dict_inputs,
            request_form,
            mod_dev=mod_input,
            device=mod_input.device)
        custom_options_dict_postsave = json.loads(custom_options_json_postsave)

        custom_options_channels_dict_postsave = {}
        for each_channel in channels.all():
            error, custom_options_channels_json_postsave_tmp = custom_channel_options_return_json(
                error,
                dict_inputs,
                request_form,
                form_mod.input_id.data,
                each_channel.channel,
                device=mod_input.device,
                use_defaults=True)
            custom_options_channels_dict_postsave[
                each_channel.channel] = json.loads(
                    custom_options_channels_json_postsave_tmp)

        if 'execute_at_modification' in dict_inputs[mod_input.device]:
            # pass custom options to module prior to saving to database
            (allow_saving, mod_output, custom_options_dict,
             custom_options_channels_dict
             ) = dict_inputs[mod_input.device]['execute_at_modification'](
                 mod_input, request_form, custom_options_dict_presave,
                 custom_options_channels_dict_presave,
                 custom_options_dict_postsave,
                 custom_options_channels_dict_postsave)
            custom_options = json.dumps(
                custom_options_dict)  # Convert from dict to JSON string
            custom_channel_options = custom_options_channels_dict
            if not allow_saving:
                error.append(
                    "execute_at_modification() would not allow input options to be saved"
                )
        else:
            # Don't pass custom options to module
            custom_options = json.dumps(custom_options_dict_postsave)
            custom_channel_options = custom_options_channels_dict_postsave

        # Finally, save custom options for both output and channels
        mod_input.custom_options = custom_options
        for each_channel in channels:
            if 'name' in custom_channel_options[each_channel.channel]:
                each_channel.name = custom_channel_options[
                    each_channel.channel]['name']
            each_channel.custom_options = json.dumps(
                custom_channel_options[each_channel.channel])

        if not error:
            db.session.commit()

    except Exception as except_msg:
        error.append(except_msg)

    for each_warning in warning:
        flash(each_warning, "warning")

    flash_success_errors(error, action, url_for('routes_page.page_input'))
コード例 #2
0
def input_add(form_add):
    action = '{action} {controller}'.format(
        action=TRANSLATIONS['add']['title'],
        controller=TRANSLATIONS['input']['title'])
    error = []

    dict_inputs = parse_input_information()

    # only one comma should be in the input_type string
    if form_add.input_type.data.count(',') > 1:
        error.append("Invalid input module formatting. It appears there is "
                     "a comma in either 'input_name_unique' or 'interfaces'.")

    if form_add.input_type.data.count(',') == 1:
        input_name = form_add.input_type.data.split(',')[0]
        input_interface = form_add.input_type.data.split(',')[1]
    else:
        input_name = ''
        input_interface = ''
        error.append("Invalid input string (must be a comma-separated string)")

    if current_app.config['TESTING']:
        dep_unmet = False
    else:
        dep_unmet, _ = return_dependencies(input_name)
        if dep_unmet:
            list_unmet_deps = []
            for each_dep in dep_unmet:
                list_unmet_deps.append(each_dep[0])
            error.append(
                "The {dev} device you're trying to add has unmet dependencies: {dep}"
                .format(dev=input_name, dep=', '.join(list_unmet_deps)))

    if form_add.validate():
        new_input = Input()
        new_input.device = input_name

        if input_interface:
            new_input.interface = input_interface

        try:
            from RPi import GPIO
            if GPIO.RPI_INFO['P1_REVISION'] == 1:
                new_input.i2c_bus = 0
            else:
                new_input.i2c_bus = 1
        except:
            logger.error("RPi.GPIO and Raspberry Pi required for this action")

        if 'input_name' in dict_inputs[input_name]:
            new_input.name = dict_inputs[input_name]['input_name']
        else:
            new_input.name = 'Name'

        #
        # Set default values for new input being added
        #

        # input add options
        if input_name in dict_inputs:

            def dict_has_value(key):
                if (key in dict_inputs[input_name]
                        and (dict_inputs[input_name][key]
                             or dict_inputs[input_name][key] == 0)):
                    return True

            #
            # Interfacing options
            #

            if input_interface == 'I2C':
                if dict_has_value('i2c_location'):
                    new_input.i2c_location = dict_inputs[input_name][
                        'i2c_location'][0]  # First entry in list

            if input_interface == 'FTDI':
                if dict_has_value('ftdi_location'):
                    new_input.ftdi_location = dict_inputs[input_name][
                        'ftdi_location']

            if input_interface == 'UART':
                if dict_has_value('uart_location'):
                    new_input.uart_location = dict_inputs[input_name][
                        'uart_location']

            # UART options
            if dict_has_value('uart_baud_rate'):
                new_input.baud_rate = dict_inputs[input_name]['uart_baud_rate']
            if dict_has_value('pin_cs'):
                new_input.pin_cs = dict_inputs[input_name]['pin_cs']
            if dict_has_value('pin_miso'):
                new_input.pin_miso = dict_inputs[input_name]['pin_miso']
            if dict_has_value('pin_mosi'):
                new_input.pin_mosi = dict_inputs[input_name]['pin_mosi']
            if dict_has_value('pin_clock'):
                new_input.pin_clock = dict_inputs[input_name]['pin_clock']

            # Bluetooth (BT) options
            elif input_interface == 'BT':
                if dict_has_value('bt_location'):
                    if not re.match(
                            "[0-9a-fA-F]{2}([:]?)[0-9a-fA-F]{2}(\\1[0-9a-fA-F]{2}){4}$",
                            dict_inputs[input_name]['bt_location']):
                        error.append(
                            "Please specify device MAC-Address in format AA:BB:CC:DD:EE:FF"
                        )
                    else:
                        new_input.location = dict_inputs[input_name][
                            'bt_location']
                if dict_has_value('bt_adapter'):
                    new_input.bt_adapter = dict_inputs[input_name][
                        'bt_adapter']

            # GPIO options
            elif input_interface == 'GPIO':
                if dict_has_value('gpio_location'):
                    new_input.gpio_location = dict_inputs[input_name][
                        'gpio_location']

            # Custom location location
            elif dict_has_value('location'):
                new_input.location = dict_inputs[input_name]['location'][
                    'options'][0][0]  # First entry in list

            #
            # General options
            #

            if dict_has_value('period'):
                new_input.period = dict_inputs[input_name]['period']

            # Server Ping options
            if dict_has_value('times_check'):
                new_input.times_check = dict_inputs[input_name]['times_check']
            if dict_has_value('deadline'):
                new_input.deadline = dict_inputs[input_name]['deadline']
            if dict_has_value('port'):
                new_input.port = dict_inputs[input_name]['port']

            # Signal options
            if dict_has_value('weighting'):
                new_input.weighting = dict_inputs[input_name]['weighting']
            if dict_has_value('sample_time'):
                new_input.sample_time = dict_inputs[input_name]['sample_time']

            # Analog-to-digital converter options
            if dict_has_value('adc_gain'):
                if len(dict_inputs[input_name]['adc_gain']) == 1:
                    new_input.adc_gain = dict_inputs[input_name]['adc_gain'][0]
                elif len(dict_inputs[input_name]['adc_gain']) > 1:
                    new_input.adc_gain = dict_inputs[input_name]['adc_gain'][
                        0][0]
            if dict_has_value('adc_resolution'):
                if len(dict_inputs[input_name]['adc_resolution']) == 1:
                    new_input.adc_resolution = dict_inputs[input_name][
                        'adc_resolution'][0]
                elif len(dict_inputs[input_name]['adc_resolution']) > 1:
                    new_input.adc_resolution = dict_inputs[input_name][
                        'adc_resolution'][0][0]
            if dict_has_value('adc_sample_speed'):
                if len(dict_inputs[input_name]['adc_sample_speed']) == 1:
                    new_input.adc_sample_speed = dict_inputs[input_name][
                        'adc_sample_speed'][0]
                elif len(dict_inputs[input_name]['adc_sample_speed']) > 1:
                    new_input.adc_sample_speed = dict_inputs[input_name][
                        'adc_sample_speed'][0][0]

            # Linux command
            if dict_has_value('cmd_command'):
                new_input.cmd_command = dict_inputs[input_name]['cmd_command']

            # Misc options
            if dict_has_value('resolution'):
                if len(dict_inputs[input_name]['resolution']) == 1:
                    new_input.resolution = dict_inputs[input_name][
                        'resolution'][0]
                elif len(dict_inputs[input_name]['resolution']) > 1:
                    new_input.resolution = dict_inputs[input_name][
                        'resolution'][0][0]
            if dict_has_value('resolution_2'):
                if len(dict_inputs[input_name]['resolution_2']) == 1:
                    new_input.resolution_2 = dict_inputs[input_name][
                        'resolution_2'][0]
                elif len(dict_inputs[input_name]['resolution_2']) > 1:
                    new_input.resolution_2 = dict_inputs[input_name][
                        'resolution_2'][0][0]
            if dict_has_value('sensitivity'):
                if len(dict_inputs[input_name]['sensitivity']) == 1:
                    new_input.sensitivity = dict_inputs[input_name][
                        'sensitivity'][0]
                elif len(dict_inputs[input_name]['sensitivity']) > 1:
                    new_input.sensitivity = dict_inputs[input_name][
                        'sensitivity'][0][0]
            if dict_has_value('thermocouple_type'):
                if len(dict_inputs[input_name]['thermocouple_type']) == 1:
                    new_input.thermocouple_type = dict_inputs[input_name][
                        'thermocouple_type'][0]
                elif len(dict_inputs[input_name]['thermocouple_type']) > 1:
                    new_input.thermocouple_type = dict_inputs[input_name][
                        'thermocouple_type'][0][0]
            if dict_has_value('sht_voltage'):
                if len(dict_inputs[input_name]['sht_voltage']) == 1:
                    new_input.sht_voltage = dict_inputs[input_name][
                        'sht_voltage'][0]
                elif len(dict_inputs[input_name]['sht_voltage']) > 1:
                    new_input.sht_voltage = dict_inputs[input_name][
                        'sht_voltage'][0][0]
            if dict_has_value('ref_ohm'):
                new_input.ref_ohm = dict_inputs[input_name]['ref_ohm']

        #
        # Custom Options
        #

        # Generate string to save from custom options
        error, custom_options = custom_options_return_json(error,
                                                           dict_inputs,
                                                           device=input_name,
                                                           use_defaults=True)
        new_input.custom_options = custom_options

        #
        # Execute at Creation
        #

        new_input.unique_id = set_uuid()

        if ('execute_at_creation' in dict_inputs[new_input.device]
                and not current_app.config['TESTING']):
            error, new_input = dict_inputs[
                new_input.device]['execute_at_creation'](
                    error, new_input, dict_inputs[new_input.device])

        try:
            if not error:
                new_input.save()

                display_order = csv_to_list_of_str(
                    DisplayOrder.query.first().inputs)

                DisplayOrder.query.first().inputs = add_display_order(
                    display_order, new_input.unique_id)
                db.session.commit()

                #
                # If there are a variable number of measurements
                #

                if ('measurements_variable_amount' in dict_inputs[input_name]
                        and dict_inputs[input_name]
                    ['measurements_variable_amount']):
                    # Add first default measurement with empty unit and measurement
                    new_measurement = DeviceMeasurements()
                    new_measurement.name = ""
                    new_measurement.device_id = new_input.unique_id
                    new_measurement.measurement = ""
                    new_measurement.unit = ""
                    new_measurement.channel = 0
                    new_measurement.save()

                #
                # If measurements defined in the Input Module
                #

                elif ('measurements_dict' in dict_inputs[input_name]
                      and dict_inputs[input_name]['measurements_dict']):
                    for each_channel in dict_inputs[input_name][
                            'measurements_dict']:
                        measure_info = dict_inputs[input_name][
                            'measurements_dict'][each_channel]
                        new_measurement = DeviceMeasurements()
                        if 'name' in measure_info:
                            new_measurement.name = measure_info['name']
                        new_measurement.device_id = new_input.unique_id
                        new_measurement.measurement = measure_info[
                            'measurement']
                        new_measurement.unit = measure_info['unit']
                        new_measurement.channel = each_channel
                        new_measurement.save()

                if 'channels_dict' in dict_inputs[new_input.device]:
                    for each_channel, channel_info in dict_inputs[
                            new_input.device]['channels_dict'].items():
                        new_channel = InputChannel()
                        new_channel.channel = each_channel
                        new_channel.input_id = new_input.unique_id

                        # Generate string to save from custom options
                        error, custom_options = custom_channel_options_return_json(
                            error,
                            dict_inputs,
                            None,
                            new_input.unique_id,
                            each_channel,
                            device=new_input.device,
                            use_defaults=True)
                        new_channel.custom_options = custom_options

                        new_channel.save()

                flash(
                    gettext(
                        "%(type)s Input with ID %(id)s (%(uuid)s) successfully added",
                        type=input_name,
                        id=new_input.id,
                        uuid=new_input.unique_id), "success")
        except sqlalchemy.exc.OperationalError as except_msg:
            error.append(except_msg)
        except sqlalchemy.exc.IntegrityError as except_msg:
            error.append(except_msg)

        flash_success_errors(error, action, url_for('routes_page.page_input'))
    else:
        flash_form_errors(form_add)

    if dep_unmet:
        return 1
コード例 #3
0
ファイル: utils_input.py プロジェクト: rosaLux161/Mycodo
def input_add(form_add):
    messages = {"success": [], "info": [], "warning": [], "error": []}
    new_input_id = None
    list_unmet_deps = []
    dep_name = None
    dep_message = ''

    dict_inputs = parse_input_information()

    # only one comma should be in the input_type string
    if form_add.input_type.data.count(',') > 1:
        messages["error"].append(
            "Invalid input module formatting. It appears there is "
            "a comma in either 'input_name_unique' or 'interfaces'.")

    if form_add.input_type.data.count(',') == 1:
        input_name = form_add.input_type.data.split(',')[0]
        input_interface = form_add.input_type.data.split(',')[1]
    else:
        input_name = ''
        input_interface = ''
        messages["error"].append(
            "Invalid input string (must be a comma-separated string)")

    if not current_app.config['TESTING']:
        dep_unmet, _, dep_message = return_dependencies(input_name)
        if dep_unmet:
            for each_dep in dep_unmet:
                list_unmet_deps.append(each_dep[3])
            messages["error"].append(
                f"{input_name} has unmet dependencies. They must be installed before the Input can be added."
            )
            if input_name in dict_inputs:
                dep_name = dict_inputs[input_name]['input_name']
            else:
                messages["error"].append(f"Input not found: {input_name}")

            return messages, dep_name, list_unmet_deps, dep_message, None

    if form_add.validate():
        new_input = Input()
        new_input.device = input_name
        new_input.position_y = 999

        if input_interface:
            new_input.interface = input_interface

        new_input.i2c_bus = 1

        if 'input_name_short' in dict_inputs[input_name]:
            new_input.name = dict_inputs[input_name]['input_name_short']
        elif 'input_name' in dict_inputs[input_name]:
            new_input.name = dict_inputs[input_name]['input_name']
        else:
            new_input.name = 'Name'

        #
        # Set default values for new input being added
        #

        # input add options
        if input_name in dict_inputs:

            def dict_has_value(key):
                if (key in dict_inputs[input_name]
                        and (dict_inputs[input_name][key]
                             or dict_inputs[input_name][key] == 0)):
                    return True

            #
            # Interfacing options
            #

            if input_interface == 'I2C':
                if dict_has_value('i2c_location'):
                    new_input.i2c_location = dict_inputs[input_name][
                        'i2c_location'][0]  # First entry in list

            if input_interface == 'FTDI':
                if dict_has_value('ftdi_location'):
                    new_input.ftdi_location = dict_inputs[input_name][
                        'ftdi_location']

            if input_interface == 'UART':
                if dict_has_value('uart_location'):
                    new_input.uart_location = dict_inputs[input_name][
                        'uart_location']

            # UART options
            if dict_has_value('uart_baud_rate'):
                new_input.baud_rate = dict_inputs[input_name]['uart_baud_rate']
            if dict_has_value('pin_cs'):
                new_input.pin_cs = dict_inputs[input_name]['pin_cs']
            if dict_has_value('pin_miso'):
                new_input.pin_miso = dict_inputs[input_name]['pin_miso']
            if dict_has_value('pin_mosi'):
                new_input.pin_mosi = dict_inputs[input_name]['pin_mosi']
            if dict_has_value('pin_clock'):
                new_input.pin_clock = dict_inputs[input_name]['pin_clock']

            # Bluetooth (BT) options
            elif input_interface == 'BT':
                if dict_has_value('bt_location'):
                    if not re.match(
                            "[0-9a-fA-F]{2}([:]?)[0-9a-fA-F]{2}(\\1[0-9a-fA-F]{2}){4}$",
                            dict_inputs[input_name]['bt_location']):
                        messages["error"].append(
                            "Please specify device MAC-Address in format AA:BB:CC:DD:EE:FF"
                        )
                    else:
                        new_input.location = dict_inputs[input_name][
                            'bt_location']
                if dict_has_value('bt_adapter'):
                    new_input.bt_adapter = dict_inputs[input_name][
                        'bt_adapter']

            # GPIO options
            elif input_interface == 'GPIO':
                if dict_has_value('gpio_location'):
                    new_input.gpio_location = dict_inputs[input_name][
                        'gpio_location']

            # Custom location location
            elif dict_has_value('location'):
                new_input.location = dict_inputs[input_name]['location'][
                    'options'][0][0]  # First entry in list

            #
            # General options
            #

            if dict_has_value('period'):
                new_input.period = dict_inputs[input_name]['period']

            # Server Ping options
            if dict_has_value('times_check'):
                new_input.times_check = dict_inputs[input_name]['times_check']
            if dict_has_value('deadline'):
                new_input.deadline = dict_inputs[input_name]['deadline']
            if dict_has_value('port'):
                new_input.port = dict_inputs[input_name]['port']

            # Signal options
            if dict_has_value('weighting'):
                new_input.weighting = dict_inputs[input_name]['weighting']
            if dict_has_value('sample_time'):
                new_input.sample_time = dict_inputs[input_name]['sample_time']

            # Analog-to-digital converter options
            if dict_has_value('adc_gain'):
                if len(dict_inputs[input_name]['adc_gain']) == 1:
                    new_input.adc_gain = dict_inputs[input_name]['adc_gain'][0]
                elif len(dict_inputs[input_name]['adc_gain']) > 1:
                    new_input.adc_gain = dict_inputs[input_name]['adc_gain'][
                        0][0]
            if dict_has_value('adc_resolution'):
                if len(dict_inputs[input_name]['adc_resolution']) == 1:
                    new_input.adc_resolution = dict_inputs[input_name][
                        'adc_resolution'][0]
                elif len(dict_inputs[input_name]['adc_resolution']) > 1:
                    new_input.adc_resolution = dict_inputs[input_name][
                        'adc_resolution'][0][0]
            if dict_has_value('adc_sample_speed'):
                if len(dict_inputs[input_name]['adc_sample_speed']) == 1:
                    new_input.adc_sample_speed = dict_inputs[input_name][
                        'adc_sample_speed'][0]
                elif len(dict_inputs[input_name]['adc_sample_speed']) > 1:
                    new_input.adc_sample_speed = dict_inputs[input_name][
                        'adc_sample_speed'][0][0]

            # Linux command
            if dict_has_value('cmd_command'):
                new_input.cmd_command = dict_inputs[input_name]['cmd_command']

            # Misc options
            if dict_has_value('resolution'):
                if len(dict_inputs[input_name]['resolution']) == 1:
                    new_input.resolution = dict_inputs[input_name][
                        'resolution'][0]
                elif len(dict_inputs[input_name]['resolution']) > 1:
                    new_input.resolution = dict_inputs[input_name][
                        'resolution'][0][0]
            if dict_has_value('resolution_2'):
                if len(dict_inputs[input_name]['resolution_2']) == 1:
                    new_input.resolution_2 = dict_inputs[input_name][
                        'resolution_2'][0]
                elif len(dict_inputs[input_name]['resolution_2']) > 1:
                    new_input.resolution_2 = dict_inputs[input_name][
                        'resolution_2'][0][0]
            if dict_has_value('sensitivity'):
                if len(dict_inputs[input_name]['sensitivity']) == 1:
                    new_input.sensitivity = dict_inputs[input_name][
                        'sensitivity'][0]
                elif len(dict_inputs[input_name]['sensitivity']) > 1:
                    new_input.sensitivity = dict_inputs[input_name][
                        'sensitivity'][0][0]
            if dict_has_value('thermocouple_type'):
                if len(dict_inputs[input_name]['thermocouple_type']) == 1:
                    new_input.thermocouple_type = dict_inputs[input_name][
                        'thermocouple_type'][0]
                elif len(dict_inputs[input_name]['thermocouple_type']) > 1:
                    new_input.thermocouple_type = dict_inputs[input_name][
                        'thermocouple_type'][0][0]
            if dict_has_value('sht_voltage'):
                if len(dict_inputs[input_name]['sht_voltage']) == 1:
                    new_input.sht_voltage = dict_inputs[input_name][
                        'sht_voltage'][0]
                elif len(dict_inputs[input_name]['sht_voltage']) > 1:
                    new_input.sht_voltage = dict_inputs[input_name][
                        'sht_voltage'][0][0]
            if dict_has_value('ref_ohm'):
                new_input.ref_ohm = dict_inputs[input_name]['ref_ohm']

        #
        # Custom Options
        #

        # Generate string to save from custom options
        messages["error"], custom_options = custom_options_return_json(
            messages["error"],
            dict_inputs,
            device=input_name,
            use_defaults=True)
        new_input.custom_options = custom_options

        #
        # Execute at Creation
        #

        new_input.unique_id = set_uuid()

        if ('execute_at_creation' in dict_inputs[new_input.device]
                and not current_app.config['TESTING']):
            messages["error"], new_input = dict_inputs[
                new_input.device]['execute_at_creation'](
                    messages["error"], new_input,
                    dict_inputs[new_input.device])

        try:
            if not messages["error"]:
                new_input.save()
                new_input_id = new_input.unique_id

                #
                # If there are a variable number of measurements
                #

                if ('measurements_variable_amount' in dict_inputs[input_name]
                        and dict_inputs[input_name]
                    ['measurements_variable_amount']):
                    # Add first default measurement with empty unit and measurement
                    new_measurement = DeviceMeasurements()
                    new_measurement.name = ""
                    new_measurement.device_id = new_input.unique_id
                    new_measurement.measurement = ""
                    new_measurement.unit = ""
                    new_measurement.channel = 0
                    new_measurement.save()

                #
                # If measurements defined in the Input Module
                #

                elif ('measurements_dict' in dict_inputs[input_name]
                      and dict_inputs[input_name]['measurements_dict']):
                    for each_channel in dict_inputs[input_name][
                            'measurements_dict']:
                        measure_info = dict_inputs[input_name][
                            'measurements_dict'][each_channel]
                        new_measurement = DeviceMeasurements()
                        if 'name' in measure_info:
                            new_measurement.name = measure_info['name']
                        new_measurement.device_id = new_input.unique_id
                        new_measurement.measurement = measure_info[
                            'measurement']
                        new_measurement.unit = measure_info['unit']
                        new_measurement.channel = each_channel
                        new_measurement.save()

                if 'channels_dict' in dict_inputs[new_input.device]:
                    for each_channel, channel_info in dict_inputs[
                            new_input.device]['channels_dict'].items():
                        new_channel = InputChannel()
                        new_channel.channel = each_channel
                        new_channel.input_id = new_input.unique_id

                        # Generate string to save from custom options
                        messages[
                            "error"], custom_options = custom_channel_options_return_json(
                                messages["error"],
                                dict_inputs,
                                None,
                                new_input.unique_id,
                                each_channel,
                                device=new_input.device,
                                use_defaults=True)
                        new_channel.custom_options = custom_options

                        new_channel.save()

                messages["success"].append(
                    f"{TRANSLATIONS['add']['title']} {TRANSLATIONS['input']['title']}"
                )
        except sqlalchemy.exc.OperationalError as except_msg:
            messages["error"].append(except_msg)
        except sqlalchemy.exc.IntegrityError as except_msg:
            messages["error"].append(except_msg)

    else:
        for field, errors in form_add.errors.items():
            for error in errors:
                messages["error"].append(
                    gettext("Error in the %(field)s field - %(err)s",
                            field=getattr(form_add, field).label.text,
                            err=error))

    return messages, dep_name, list_unmet_deps, dep_message, new_input_id