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Python library (PyPi package) for basic support of the ProCon.IP swimming pool controller unit.

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ylabonte/proconip-pypi

Python package for the ProCon.IP Pool Controller

Pylint Unittest CodeQL PyPi Package release

PyPI

Overview


ProCon.IP Python Library

Introduction

The name of this library refers to the ProCon.IP pool controller. It is somehow a port of my procon-ip TypeScript library (available as NPM Package). As the TypeScript library was a byproduct of my ioBroker adapter for the pool controller unit, this library is primary intended for the implementation of a Home Assistant integration.

Documentation might follow. Until this please take a look at the sources. I tried to keep it simple and readable. An IDE with proper auto-completion should help understand and use the library without further documentation.

Feel free to ask questions by using github's issues system, so others can take advantage, contribute and are able to find the answer if they have a similar question. Thanks! :)

Installation

This library is available on PyPI. So you can easily install it with pip:

pip install proconip

or

python -m pip install proconip

In both cases you can add --upgrade to update to the latest version.

Usage examples

Reading the current state

import asyncio
import aiohttp
from proconip.definitions import ConfigObject
from proconip.api import GetState


async def reading_data_example():
    client_session = aiohttp.ClientSession()
    config = ConfigObject("http://192.168.2.3", "admin", "admin")
    get_state_api = GetState(client_session, config)
    data = await get_state_api.async_get_state()
    await client_session.close()
    print(f"Redox (Chlor): {data.redox_electrode.display_value}")
    print(f"pH: {data.ph_electrode.display_value}")
    for relay in (relay for relay in data.relays() if relay.name != "n.a."):
        print(f"{relay.name}: {relay.display_value}")
    for temp in (temp for temp in data.temperature_objects if temp.name != "n.a."):
        print(f"{temp.name}: {temp.display_value}")


asyncio.run(reading_data_example())

Switching relays

import asyncio
import aiohttp
from proconip.definitions import ConfigObject
from proconip.api import GetState, RelaySwitch


async def relay_switching_example():
    client_session = aiohttp.ClientSession()
    config = ConfigObject("http://192.168.2.3", "admin", "admin")
    get_state_api = GetState(client_session, config)
    relay_switch = RelaySwitch(client_session, config)
    data = await get_state_api.async_get_state()
    print(f"Relay no. 2: {data.get_relay(1).display_value}")
    print(f"Relay no. 3: {data.get_relay(2).display_value}")
    await relay_switch.async_set_auto_mode(data, 1)
    data = await get_state_api.async_get_state()
    print(f"Relay no. 2: {data.get_relay(1).display_value}")
    await relay_switch.async_switch_on(data, 2)
    data = await get_state_api.async_get_state()
    print(f"Relay no. 3: {data.get_relay(2).display_value}")
    await relay_switch.async_switch_off(data, 1)
    data = await get_state_api.async_get_state()
    print(f"Relay no. 2: {data.get_relay(1).display_value}")
    await relay_switch.async_switch_off(data, 2)
    data = await get_state_api.async_get_state()
    print(f"Relay no. 3: {data.get_relay(2).display_value}")
    await client_session.close()


asyncio.run(relay_switching_example())

Starting manual dosage

Manual dosage depends on the same factors as if started from the web interface of the pool control itself.

import asyncio
import aiohttp
from proconip.definitions import ConfigObject
from proconip.api import DosageControl


async def manual_dosage_example():
    client_session = aiohttp.ClientSession()
    config = ConfigObject("http://192.168.2.3", "admin", "admin")
    dosage_control = DosageControl(client_session, config)
    await dosage_control.async_chlorine_dosage(3600) # start for 1 hour
    await dosage_control.async_ph_minus_dosage(60) # start for 1 minute
    await client_session.close()


asyncio.run(manual_dosage_example())

Reading and changing DMX channels states

import asyncio
import aiohttp
from proconip.definitions import ConfigObject
from proconip.api import DmxControl


async def dmx_example():
    client_session = aiohttp.ClientSession()
    config = ConfigObject("http://192.168.2.3", "admin", "admin")
    dmx_control = DmxControl(client_session, config)
    dmx_data = await dmx_control.async_get_dmx()
    for channel in dmx_data:
        print(f"{channel.name} before: {channel.value}")
        dmx_data.set(channel.index, (channel.value + 128) % 256)
        print(f"{channel.name} after: {dmx_data.get_value(channel.index)}")
      
    await dmx_control.async_set(dmx_data)
    await client_session.close()


asyncio.run(dmx_example())

A brief description of the ProCon.IP pool controller

The ProCon.IP pool controller is a low budget network attached control unit for home swimming pools. With its software switched relays, it can control multiple pumps (for the pool filter and different dosage aspects) either simply planned per time schedule or depending on a reading/value from one of its many input channels for measurements (eg. i/o flow sensors, Dallas 1-Wire thermometers, redox and pH electrodes). At least there is also the option to switch these relays on demand, which makes them also applicable for switching lights (or anything else you want) on/off. Not all of its functionality is reachable via API. In fact there is one documented API for reading (polling) values as CSV (/GetState.csv). In my memories there was another one for switching the relays on/off and on with timer. But I cannot find the second one anymore. So not even pretty, but functional: The ProCon.IP has two native web interfaces, which can be analyzed, to some kind of reverse engineer a given functionality (like switching the relays).

For more information see the following links (sorry it's only in german; haven't found an english documentation/information so far):

Get support

Need help? Please use the github issues system to ask your question. This way others can contribute or at least take advantage of the final solution.

Give support

If you want to support this project or my work in general, you can do so without having any coding abilities. Because programmers are described as machines that convert coffee (their habitual input) into code (their habitual output), there is a really simple way to support me:

Buy Me A Coffee

Release Notes

v1.4.7 (2024-09-07)

  • Code refactoring
  • Unification of exception handling
  • Updated setuptools

v1.4.6 (2024-08-24)

  • Fix incomplete Content-Type header. 🤦‍♂️
    (note to myself: do not publish new releases after 3am!)

v1.4.5 (2024-08-24)

  • Add appropriate Content-Type header for post requests.
  • Fix some typing hints.

v1.4.4 (2024-08-20)

  • Yet another fix for the dmx post data payload conversion.

v1.4.3 (2024-08-20)

  • Fix new async_get_raw_dmx() and async_get_dmx() methods.
  • Fix new GetDmxData.post_data property.
  • Update dependencies.

v1.4.2 (skipped)

v1.4.1 (2024-08-18)

  • Update dependencies

v1.4.0 (2024-06-24)

  • Introduce new API class DmxControl with three methods:
    • async_get_raw_dmx() to get the raw body string of the '/GetDmx.csv'.
    • async_get_dmx() to get structured DMX channel states.
    • async_set() to set DMX channel states.

v1.3.1 (2024-05-09)

  • Add dedicated api.TimeoutException to raise for connection timeouts.
  • Add dependabot with versioning-strategy: "increase" and an auto-merge workflow for automated updates on the github main branch.
  • Add code scanning (CodeQL) workflow.

v1.3.0 (2023-08-16)

  • Add GetStateData.get_relays() to get all available Relay instances.

v1.2.7 (2023-07-04)

  • Fix calculation formula for actual values (offset + gain * raw).

v1.2.6 (2023-06-20)

  • Fix DosageTarget enum and return value of DosageControl.async_ph_plus_dosage.

v1.2.5 (2023-06-18)

  • Fix return type/value of DosageControl.async_ph_plus_dosage()

v1.2.4 (2023-06-18)

  • Refactor request exception handling

v1.2.3 (2023-06-17)

  • Fix api methods to produce BadCredentialsExceptions in case of 401 and 403 responses.

v1.2.2 (2023-06-12)

  • Fix typo in BadStatusCodeException

v1.2.1 (2023-06-12)

  • Avoid invalid operations regarding dosage control relays.

v1.2.0 (2023-06-12)

  • Add DosageControl abilities.

v1.1.0 (2023-05-23)

  • Unify api methods and naming conventions:
  • Same names for functions and class methods with same functionality.
  • async_ prefixes for all async functions/methods.

v1.0.0 (2023-05-21)

  • Fix post data for switching relays.

v0.0.2 (2023-05-18)

  • Add relay switching capabilities.

v0.0.1 (2023-04-23)

  • Initial release with data reading capabilities.

Disclaimer

Just to be clear: I have nothing to do with the development, selling, marketing or support of the pool controller unit itself.
I just developed small TypeScript/JS and Python libraries as by-products of an ioBroker adapter and a Home Assistant integration for integrating the pool controller unit with common smart home solutions.