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Home Assistant Raspberry Pi GPIO custom integration

This is a spin-off from the original Home Assistant integration, which was removed in Home Assistant Core version 2022.6.

The rpi_gpio integration supports the following platforms: Binary Sensor, Cover, Switch

rpi_gpio is based on gpiod in ha-gpio and ha_gpiod in ha_gpiod

Installation

HACS

The recommend way to install rpi_gpio is through HACS.

Manual installation

Copy the rpi_gpio folder and all of its contents into your Home Assistant's custom_components folder. This folder is usually inside your /config folder. If you are running Hass.io, use SAMBA to copy the folder over. You may need to create the custom_components folder and then copy the rpi_gpio folder and all of its contents into it.

Usage

The rpi_gpio platform will be initialized using the path to the gpio chip. When path is not in the config /dev/gpiochip[0-5] are tested for a gpiodevice having pinctrl, in sequence [0,4,1,2,3,5]. So with a raspberry pi you should be OK to leave the path empty.

Raspberry Pi GPIO Device
RPi3, RPi4 /dev/gpiochip0
RPi5 /dev/gpiochip4
# setup gpiod chip; mostly not required
rpi_gpio:
  path: '/dev/gpiochip0'

Options

Key Required Default Type Description
gpiod only for path - - gpiod platform config and initialization, only required when you need to specify a specific gpiodevice path (see path)
path no discovered string path to gpio device, if not set auto discovered

Binary Sensor

The rpi_gpio binary sensor platform allows you to read sensor values of the GPIOs of your Raspberry Pi.

Configuration

To use your Raspberry Pi's GPIO in your installation, add the following to your configuration.yaml file:

# Basic configuration.yaml entry
binary_sensor:
  - platform: rpi_gpio
    sensors:
      - port: 11
        name: "PIR Office"
      - port: 12
        name: "PIR Bedroom"
# Full configuration.yaml entry
binary_sensor:
  - platform: rpi_gpio
    sensors:
      - port: 11
        name: "PIR Office"
        unique_id: "pir_office_sensor_port_11"
        bouncetime: 80
        invert_logic: true
        pull_mode: "DOWN"
      - port: 12
        name: "PIR Bedroom"
        unique_id: "pir_bedroom_sensor_port_12"

Options

Key Required Default Type Description
sensors yes list List of sensor IO ports (BCM mode pin numbers)
name yes string The name for the binary sensor entity
port yes integer the GPIO port to be used
unique_id no string An ID that uniquely identifies the sensor. Set this to a unique value to allow customization through the UI
bouncetime no 50 integer The time in milliseconds for port debouncing
invert_logic no false (ACTIVE HIGH) boolean If true, inverts the output logic to ACTIVE LOW
pull_mode no UP string control bias setting of GPIO, used to define the electrical state of a GPIO line when not actively driven; UP set weak pull-up resistor on the line, ensuring that the line is pulled to a high level (3.3V or 5V) when not actively driven; DOWN sets weak pull-down resistor to pull to low level (0V), DISABLED remains floating, AS_IS not changed

For more details about the GPIO layout, visit the Wikipedia article about the Raspberry Pi.

Cover

The rpi_gpio cover platform allows you to use a Raspberry Pi to control your cover such as Garage doors.

It uses two pins on the Raspberry Pi.

  • The state_pin will detect if the cover is closed, and
  • the relay_pin will trigger the cover to open or close.

Although you do not need Andrews Hilliday's software controller when you run Home Assistant, he has written clear instructions on how to hook your garage door and sensors up to your Raspberry Pi, which can be found here.

Configuration

To enable Raspberry Pi Covers in your installation, add the following to your configuration.yaml file:

# Basic configuration.yaml entry
cover:
  - platform: rpi_gpio
    covers:
      - relay_pin: 10
        state_pin: 11
# Full configuration.yaml entry
cover:
  - platform: rpi_gpio
    relay_time: 0.2
    invert_relay: false
    state_pull_mode: "UP"
    invert_state: true
    covers:
      - relay_pin: 10
        state_pin: 11
        name: "Left door"
        unique_id: "left_door_cover_port_11"
      - relay_pin: 12
        state_pin: 13
        name: "Right door"
        unique_id: "right_door_cover_port_13"

Options

Key Required Default Type Description
relay_time no 0.2 float The time that the relay will be on for in seconds
invert_relay no false boolean Invert the relay pin output so that it is active-high (True)
state_pull_mode no UP string The direction the State pin is pulling. It can be UP or DOWN
invert_state no false boolean Invert the value of the State pin so that 0 means closed
covers yes list List of covers
relay_pin yes integer The pin of your Raspberry Pi where the relay is connected
state_pin yes integer The pin of your Raspberry Pi to retrieve the state
name no string The name for the cover entity
unique_id no string An ID that uniquely identifies the cover. Set this to a unique value to allow customization through the UI

Remote Raspberry Pi Cover

If you don't have Home Assistant running on your Raspberry Pi and you want to use it as a remote cover instead, there is a project called GarageQTPi that will work remotely with the MQTT Cover Component. Follow the GitHub instructions to install and configure GarageQTPi and once configured follow the Home Assistant instructions to configure the MQTT Cover.

Switch

The rpi_gpio switch platform allows you to control the GPIOs of your Raspberry Pi.

Configuration

To use your Raspberry Pi's GPIO in your installation, add the following to your configuration.yaml file:

# Basic configuration.yaml entry
switch:
  - platform: rpi_gpio
    switches:
      - port: 11
        name: "Fan Office"
      - port: 12
        name: "Light Desk"
# Full configuration.yaml entry
switch:
  - platform: rpi_gpio
    switches:
      - port: 11
        name: "Fan Office"
        unique_id: "fan_office_switch_port_11"
        persistent: true
      - port: 12
        name: "Light Desk"
        unique_id: "light_desk_switch_port_12"
        invert_logic: true

Options

Key Required Default Type Description
switches yes list List of switch IO ports (BCM mode pin numbers)
name yes string The name for the switch entity
port yes integer the GPIO port to be used
unique_id no string An ID that uniquely identifies the switch. Set this to a unique value to allow customization through the UI, auto generated when not set manually in config
invert_logic no false boolean If true, inverts the output logic to ACTIVE LOW
persistent no false boolean If true, the switch state will be persistent in HA and will be restored if HA restart / crash
pull_mode no AS_IS string Type of internal pull resistor to use: UP - pull-up resistor, DOWN - pull-down resistor, AS-IS no change
drive no PUSH_PULL string control drive configuration of the GPIO, determines how the line behaves when it is set to output mode; PUSH_PULL, GPIO line can both source and sink current, can actively drive the line to both high and low states. OPEN-DRAIN, GPPIO can only sink current (drive the line to low) and is otherwise left floating, and OPEN-SOURCE the reverse.

For more details about the GPIO layout, visit the Wikipedia article about the Raspberry Pi.

A common question is what does Port refer to, this number is the actual GPIO #, not the pin #. For example, if you have a relay connected to pin 11 its GPIO # is 17.

# Basic configuration.yaml entry
switch:
  - platform: rpi_gpio
    switches:
      - port: 17
        name: "Speaker Relay"

Reporting issues

Before reporting issues please enable debug logging as described here, check logs and report issue attaching the log file.