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iot_devices

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Platform independent abstraction of the idea of a "device".

The intent is that you can make plugins for automation frameworks that can also be trivially used as a standalone library.

The API is basically: Get a class based on a data dict, and make it.

It's designed so you can create a generic mixin that applies to any device matching the spec, and build your own API that can be used to access any device using this spec.

It also aims to include a library of commonly used devices.

It can be installed with "pip3 install iot_devices".

The tui-dash.py app

To use it, edit the tui-dash.conf file and run the tui-dash command after installing the app. You'll get a nice text UI with all the devices in your file.

You can either put the file in ~/.config/tui-dash/tui-dash.conf, or pass the filename as the first argument.

Each section represents a device that will be added. For example, here is the configuration to access YoLink's home automation devices via the TUI.

Only one device is needed here, the top level service, all other devices are autodiscovered, but you can add extra configuration on a per-device basis.

[YoLinkService]
device.key= Your UAC key here
device.user_id=Your UAC password here
type = YoLinkService

# Hide this, it just creates the subdevices
hidden = True

[YoLinkService.Bedroom]
title = Bedroom Sensor

Implement a device

Note: All devices must NOT do anything destructive when created with default arguments.

Full device API docs

import iot_devices.device as device
import random

class RandomDevice(device.Device):
    device_type = "RandomDevice"
    def __init__(self,name, data, **kw):
        device.Device.__init__(self,name, data, **kw)

        # Push type data point set by the device
        self.numeric_data_point("random")
        self.set_data_point("random",random.random())


        # On demand requestable data point pulled by application.
        # All you have to do is set the val to a callable.
        self.numeric_data_point("dyn_random")
        self.set_data_point_getter("dyn_random", random.random)

Declare a module has devices

This tells the host what module you would need to import to get a device having a certain name.

This would go in a devices_manifest.json file in the root folder of any module.

Note that the name RandomDevice matches the name of the class.

The system will effectively do from your_module.devices.random import RandomDevice to find the device class.

{
    "devices":{
        "RandomDevice": {
            "submodule":"devices.random"
            }
        }
}

Using the device

Note: We never have to import the module ourselves. It is imported on demand based on the data! We automatically search sys.path.

Full host API docs

from iot_devices.host import get_class, create_device

data = {
    "type": "DemoDevice"
}


# Get the class that would be able to construct a matching device given the data
c = get_class(data)

# Make an instance of that device.
# Create device is very simple, it just calls cls(name, data),
# But you can override it to add hooks whenever a device is created.
device = create_device(c ,"Random Device", data)

#One of the values this class exposes.
# Note that values here can be "None" if there is no data yet.
print(device.datapoints['random'])

# This is an on-demand getter.
# This explicitly calls the getter we set.
# It also sets the key in device.datapoints
print(device.request_data_point('dyn_random'))

# clean up
device.close()

Using subdevices

See host_demo.py

Bool Values

iot_devices use the following strings to represent booleans.

TRUE_STRINGS = ("true", "yes", "on", "enable", "active", "enabled", "1")
FALSE_STRINGS = ("false", "no", "off", "disable", "inactive", "disabled", "0")

Use iot_devices.util.str_to_bool(f) to check the value, and raise a ValueError on an invalid string.

Docs for the included devices

See devicedocs.md for a code example of each one. Note these are generated with iot_devices_scan.py. This script searches all of the python paths for any folder that contains devices, creates an instance of each one, and inspects the object to generate report, including a usable code example.

For example, here's an auto-generated example of using a GPIO input, powered by the GPIOZero library.

from iot_devices.host import create_device
from iot_devices.devices.GPIODevice import GPIOInput

dev = create_device(GPIOInput, "name", {
    'device.active_high': 'true',
    'device.pull_up': 'false',
    'device.pull_down': 'false',
    'device.pin': 'MOCK1',
    'device.debounce_time_ms': '0'
})



# boolean
print(dev.datapoints['value'])
# >>> 0

Add Metadata to your data points

Full signature of data point functions:

    def numeric_data_point(
        self,
        name: str,
        *,
        min: float | None = None,
        max: float | None = None,
        hi: float | None = None,  # pylint: disable=unused-argument
        lo: float | None = None,  # pylint: disable=unused-argument
        default: float | None = None,
        description: str = "",  # pylint: disable=unused-argument
        unit: str = "",  # pylint: disable=unused-argument
        handler: Callable[[float, float, Any], Any] | None = None,
        interval: float = 0,  # pylint: disable=unused-argument
        subtype: str = "",  # pylint: disable=unused-argument
        writable=True,  # pylint: disable=unused-argument
        dashboard=True,  # pylint: disable=unused-argument
        **kwargs,  # pylint: disable=unused-argument
    ):
        """Register a new numeric data point with the given properties.

        Handler will be called when it changes.
        self.datapoints[name] will start out with tha value of None

        The intent is that you can subclass this and have your own implementation of data points,
        such as exposing an MQTT api or whatever else.

        Most fields are just extra annotations to the host.

        Args:
            min: The min value the point can take on
            max: The max value the point can take on

            hi: A value the point can take on that would be
                considered excessive
            lo: A value the point can take on that would be
                considered excessively low

            description: Free text

            unit: A unit of measure, such as "degC" or "MPH"

            default: If unset default value is None,
                or may be framework defined. Default does not trigger handler.

            handler: A function taking the value,timestamp,
                and annotation on changes.

            interval :annotates the default data rate the point
                will produce, for use in setting default poll
                rates by the host, if the host wants to poll.
                It does not mean the host SHOULD poll this,
                it only suggest a rate to poll at if the host
                has an interest in this data.

            writable:  is purely for a host that might subclass
                this, to determine if it should allow writing to the point.

            subtype: A string further describing the data
                type of this value, as a hint to UI generation.

            dashboard: Whether to show this data point in overview displays.

        """

    def string_data_point(
        self,
        name: str,
        *,
        description: str = "",  # pylint: disable=unused-argument
        unit: str = "",  # pylint: disable=unused-argument
        handler: Callable[[str, float, Any], Any] | None = None,
        default: str | None = None,
        interval: float = 0,  # pylint: disable=unused-argument
        writable=True,  # pylint: disable=unused-argument
        subtype: str = "",  # pylint: disable=unused-argument
        dashboard=True,  # pylint: disable=unused-argument
        **kwargs,  # pylint: disable=unused-argument
    ):
        """Register a new string data point with the given properties.

        Handler will be called when it changes.
        self.datapoints[name] will start out with tha value of None

        Interval annotates the default data rate the point will produce, for use in setting default poll
        rates by the host, if the host wants to poll.

        Most fields are just extra annotations to the host.


        Args:
            description: Free text

            default: If unset default value is None, or may be framework defined. Default does not trigger handler.

            handler: A function taking the value,timestamp, and annotation on changes.

            interval: annotates the default data rate the point will produce, for use in setting default poll
                rates by the host if the host wants to poll.

                It does not mean the host SHOULD poll this,
                it only suggest a rate to poll at if the host has an interest in this data.

            writable:  is purely for a host that might subclass this, to determine if it should allow writing to the point.

            subtype: A string further describing the data type of this value, as a hint to UI generation.

            dashboard: Whether to show this data point in overview displays.
        """

    def object_data_point(
        self,
        name: str,
        *,
        description: str = "",  # pylint: disable=unused-argument
        unit: str = "",  # pylint: disable=unused-argument
        handler: Callable[[dict, float, Any], Any] | None = None,
        interval: float = 0,  # pylint: disable=unused-argument
        writable=True,  # pylint: disable=unused-argument
        subtype: str = "",  # pylint: disable=unused-argument
        dashboard=True,  # pylint: disable=unused-argument
        **kwargs,  # pylint: disable=unused-argument
    ):
        """Register a new object data point with the given properties.   Here "object"
        means a JSON-like object.

        Handler will be called when it changes.
        self.datapoints[name] will start out with tha value of None

        Interval annotates the default data rate the point will produce, for use in setting default poll
        rates by the host, if the host wants to poll.

        Most fields are just extra annotations to the host.

        Args:
            description: Free text

            handler: A function taking the value,timestamp, and annotation on changes

            interval :annotates the default data rate the point will produce, for use in setting default poll
                rates by the host, if the host wants to poll.  It does not mean the host SHOULD poll this,
                it only suggest a rate to poll at if the host has an interest in this data.

            writable:  is purely for a host that might subclass this, to determine if it should allow writing to the point.

            subtype: A string further describing the data type of this value, as a hint to UI generation.

            dashboard: Whether to show this data point in overview displays.
        """

    def bytestream_data_point(
        self,
        name: str,
        *,
        description: str = "",  # pylint: disable=unused-argument
        unit: str = "",  # pylint: disable=unused-argument
        handler: Callable[[bytes, float, Any], Any] | None = None,
        writable=True,  # pylint: disable=unused-argument
        dashboard=True,  # pylint: disable=unused-argument
        **kwargs,  # pylint: disable=unused-argument
    ):
        """register a new bytestream data point with the
        given properties. handler will be called when it changes.
        only meant to be called from within __init__.

        Bytestream data points do not store data,
        they only push it through.

        Despite the name, buffers of bytes may not be broken up or combined, this is buffer oriented,

        """

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Minimal generic API and data model for an IOT device

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