hass-virtual

Virtual Components for Home Assistant

Virtual components for testing Home Assistant systems.

Version 0.8?

This documentation is for the 0.9.x version, you can find the 0.8.x version here.

New Features in 0.9.0

Config Flow

Finally. After sitting on it for far too long I decided to do the work I needed to, this integration now acts much like every integration, splitting down by entity, device and integration.

This means a lot of this documentation is now out of date, I will upgrade it when all the changes have been finalised, for now I will just add a quick note inline.

What pieces are done

• upgrade; the code will upgrade a 0.8 build to the config flow system. Your current configuration will be moved into 1 file, virtual.yaml. This file contains all your virtual devices. Edit this file to add any type of device.
• configuration; the settings are still available you only need to edit them in one place, virtual.yaml. The layout should be obvious after the upgrade.
• multiple integration instances; you can group virtual devices, each group will use a different configuration file
• services; they follow the Home Assistant standard
• device groupings; for example, a motion detector can have a motion detection entity and a battery entity, upgraded devices will have a one to one relationship. For example, the following will create a motion device with 2 entities. If you don't provide a name for an entity the system will provide a default.

  Mezzanine Motion:
    - platform: binary_sensor
      initial_value: 'off'
      class: motion
    - platform: sensor
      initial_value: 98
      class: battery

What you need to be wary of

• device trackers; the upgrade process is a little more complicated if you have device trackers, because of the way virtual created the old devices you will end up with duplicates entries, you can fix it by running the following steps
  1. do the upgrade
  2. comment out device virtual device trackers from device_trackers.yaml and known_devices.yaml
  3. restart Home Assistant
  4. delete the virtual integration
  5. add back the virtual integration in accepting the defaults

What pieces need doing

• reload/reconfigure; this somewhat works, but I need to deal with orphans when devices are turned off
• _documentation; the configuration is handled differently now

What if it goes wrong?

For now I recommend leaving your old configuration in place so you can revert back to a 0.8 release if you encounter an issue. Home Assistant will complain about the config but it's ok to ignore it.

If you do encounter and issue if you can turn on debug an create an issue that would be great.

Version 0.9

Table Of Contents

1. Notes
2. Thanks
3. Installation
4. Component Configuration
   1. Naming
   2. Availability
   3. Peristence
   4. The Components...

Notes

Wherever you see /config in this README it refers to your home-assistant configuration directory. For me, for example, it's /home/steve/ha that is mapped to /config inside my docker container.

Thanks

Many thanks to:

• JetBrains for the excellent PyCharm IDE and providing me with an open source licence to speed up the project development.

  

• Icon from iconscout by twitter-inc

Installation

HACS

Virtual is part of the default HACS store. If you're not interested in development branches this is the easiest way to install.

Component Configuration

All component configuration is done through a yaml file. There is a single file per integration instance. The default file, created on upgrade, is /config/virtual.yaml. An empty file looks like this:

version: 1
devices: {}

• version; this is expected and is currently 1
• devices; this is a list of devices and entities associated with that device

This is a small example of an imported file:

version: 1
devices: 
 Living Room Sensor:
  - platform: binary_sensor
    name: Living Room Motion
    initial_value: 'off'
    class: motion
 Back Door Sensor:
  - platform: binary_sensor
    name: Back Door
    initial_value: 'off'
    class: door

Note that these entities have explicit names, this is because these entities were imported and the integration will re-create the same entity and unique IDs as previous version. You do not need to assign a name on new entries, the system will provide a default suffix based on device class. But, you can also choose to provide names if you wish.

This is the same file without the names:

version: 1
devices: 
  Living Room Sensor:
  - platform: binary_sensor
    initial_value: 'off'
    class: motion
  Back Door Sensor:
  - platform: binary_sensor
    initial_value: 'off'
    class: door

In this case it will create 2 entities, one called Living Room Sensor motion and Back Door Sensor door. The default naming can get a little hairy but you can alter it from the Integration settings.

From now on I will exclude the version and devices keys.

You can also define virtual multi sensors. In this example a multi sensor devices provides 2 entities.

  Living Room Multi Sensor:
  - platform: binary_sensor
    initial_value: 'off'
    class: motion
  - platform: sensor
    initial_value: '20'
    class: temperature

Availability

By default, all devices are market as available. As shown below in each domain, adding initial_availability: false to configuration can override default and set as unavailable on HA start. Availability can by set by using the virtual.set_available with value true or false.

This is fully optional and initial_availability is not required to be set.

Persistence

By default, all device states are persistent. You can change this behaviour with the persistent configuration option.

If you have set an initial_value it will only be used if the device state is not restored. The following switch will always start on.

  Test Switch:
  - platform: virtual
    name: Switch 1
    persistent: False
    initial_value: on

Switches

To add a virtual switch use the following:

  Test Switch:
  - platform: switch

Binary Sensors

To add a virtual binary_sensor use the following. It supports all standard classes.

  Test Binary Sensor:
  - platform: binary_sensor
    initial_value: 'on'
    class: presence

Use the virtual.turn_on, virtual.turn_off and virtual.toggle services to manipulate the binary sensors.

Sensors

To add a virtual sensor use the following:

  Test Sensor:
  - platform: sensor
    class: temperature
    initial_value: 37
    unit_of_measurement: 'F'

Use the virtual.set service to manipulate the sensor value.

Setting unit_of_measurement can override default unit for selected sensor class. This is optional ans any string is accepted. List of standard units can be found here: Sensor Entity

Lights

To add a virtual light use the following:

  Test Lights:
  - platform: light
    initial_value: 'on'
    support_brightness: true
    initial_brightness: 100
    support_color: true
    initial_color: [0,255]
    support_color_temp: true
    initial_color_temp: 255
    support_white_value: true
    initial_white_value: 240

Only name is required.

• support_*; this allows the light to have colour and temperature properties
• initial_*; this is to set the initial values. initial_color is [hue (0-360), saturation (0-100)]

Note; *white_value is deprecated and will be removed in future releases.

Locks

To add a virtual lock use the following:

  Test Lock:
  - platform: lock
    name: Front Door Lock
    initial_value: locked
    locking_time: 5
    jamming_test: 5

• Persistent Configuration
  • initial_value: optional, default locked; any other value will result in the lock being unlocked at start up
• Per Run Configuration
  • locking_time: optional, default 0 seconds; any positive value will result in a locking or unlocking phase that lasts locking_time seconds
  • jamming_test: optional, default 0 tries; any positive value will result in a jamming failure approximately once per jamming_test tries

Fans

To add a virtual fan use the following:

  Test Fan:
  - platform: fan
    speed: True
    speed_count: 5
    direction: True
    oscillate: True

You only need one of speed or speed_count.

• speed; if True then fan can be set to low, medium and high speeds
• speed_count; number of speeds to allow, these will be broken down into percentages. 4 speeds = 25, 50, 75 and 100%.
• direction; if True then fan can run in 2 directions
• oscillate; if True then fan can be set to oscillate

Covers

To add a virtual cover use the following:

  Test Cover:
  - platform: cover
    initial_value: 'closed'
    open_close_duration: 10
    open_close_tick: 1

Supports open, close, stop and set_position. Opening and closing of the cover is emulated with timed events, and the timing can be controlled with

• open_close_duration: The time it take to go from fully open to fully closed, or back
• open_close_tick: The update interval when opening and closing

Device Tracking

To add a virtual device tracker use the following:

  Test Device_Tracker:
  - platform: device_tracker
    initial_value: home

• persistent: default True; if True then entity location is remembered across restarts otherwise entity always starts at location
• location: default home; this sets the device location when it is created or if the device is not persistent

Use the virtual.move service to change device locations.