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platypush/examples/conf/config.yaml
Fabio Manganiello f9b0bc905e
Migrated websocket service.
The websocket service is no longer provided by a different service,
controlled by a different thread running on another port.

Instead, it's now exposed directly over Flask routes, using
WSGI+eventlet+simple_websocket.

Also, the SSL context options have been removed from `backend.http`, for
sake of simplicity. If you want to enable SSL, you can serve Platypush
through a reverse proxy like nginx.
2023-05-07 12:08:28 +02:00

379 lines
15 KiB
YAML

#################################################################################
# Sample platypush configuration file.
# Edit it and copy it to /etc/platypush/config.yaml for system installation or to
# ~/.config/platypush/config.yaml for user installation (recommended).
#################################################################################
# --
# include directive example
# --
#
# You can split your configuration over multiple files
# and use the include directive to import them in your configuration.
# Relative paths are also supported, and computed using the config.yaml
# installation directory as base folder. Symlinks are also supported.
#
# Using multiple files is encouraged in the case of large configurations
# that can easily end up in a messy config.yaml file, as they help you
# keep your configuration more organized.
#include:
# - include/logging.yaml
# - include/media.yaml
# - include/sensors.yaml
# platypush logs on stdout by default. You can use the logging section to specify
# an alternative file or change the logging level.
#logging:
# filename: ~/.local/log/platypush/platypush.log
# level: INFO
# The device_id is used by many components of platypush and it should uniquely
# identify a device in your network. If nothing is specified then the hostname
# will be used.
#device_id: my_device
## --
## Plugin configuration examples
## --
#
# Plugins configuration is very straightforward. Each plugin is mapped to
# a plugin class. The methods of the class with @action annotation will
# be exported as runnable actions, while the __init__ parameters are
# configuration attributes that you can initialize in your config.yaml.
# Plugin classes are documented at https://docs.platypush.tech/en/latest/plugins.html
#
# In this example we'll configure the light.hue plugin, see
# https://docs.platypush.tech/en/latest/platypush/plugins/light.hue.html
# for reference. You can easily install the required dependencies for the plugin through
# pip install 'platypush[hue]'
light.hue:
# IP address or hostname of the Hue bridge
bridge: 192.168.1.10
# Groups that will be handled by default if nothing is specified on the request
groups:
- Living Room
# Example configuration of music.mpd plugin, see
# https://docs.platypush.tech/en/latest/platypush/plugins/music.mpd.html
# You can easily install the dependencies through pip install 'platypush[mpd]'
music.mpd:
host: localhost
port: 6600
# Example configuration of media.chromecast plugin, see
# https://docs.platypush.tech/en/latest/platypush/plugins/media.chromecast.html
# You can easily install the dependencies through pip install 'platypush[chromecast]'
media.chromecast:
chromecast: Living Room TV
# Plugins with empty configuration can also be explicitly enabled by specifying
# enabled=True or disabled=False (it's a good practice if you want the
# corresponding web panel to be enabled, if available)
camera.pi:
enabled: True
# Support for calendars - in this case Google and Facebook calendars
# Installing the dependencies: pip install 'platypush[ical,google]'
calendar:
calendars:
- type: platypush.plugins.google.calendar.GoogleCalendarPlugin
- type: platypush.plugins.calendar.ical.CalendarIcalPlugin
url: https://www.facebook.com/events/ical/upcoming/?uid=your_user_id&key=your_key
## --
## Backends configuration examples
## --
#
# Backends are basically threads that run in the background and listen for something
# to happen and either trigger events or provide additional services on top of platypush.
# Just like plugins, backends are classes whose configuration matches one-to-one the
# supported parameters on the __init__ methods. You can check the documentation for the
# available backends here: https://docs.platypush.tech/en/latest/backends.html.
# Moreover, most of the backends will generate events that you can react to through custom
# event hooks. Check here for the events documentation:
# https://docs.platypush.tech/en/latest/events.html
#
# You may usually want to enable the HTTP backend, as it provides many useful features on
# top of platypush. Among those:
#
# - Expose the /execute endpoint, that allows you to send requests to platypush through a
# JSON-RPC interface.
# - Web panel, one of the key additiona features of platypush. Many plugins will expose web
# panel tabs for e.g. accessing and controlling lights, music, media and sensors.
# - Dashboard: platypush can be configured to show a custom dashboard on your screens with
# e.g. music platypush and weather info, news, upcoming calendar events and photo carousel.
# - Streaming support - the HTTP backend makes it possible to stream local media to other
# devices - e.g. Chromecasts and external browsers.
#
# To install the HTTP backend dependencies simply run 'pip install "platypush[http]"'
backend.http:
# Listening port
port: 8008
# Through resource_dirs you can specify external folders whose content can be accessed on
# the web server through a custom URL. In the case below we have a Dropbox folder containing
# our pictures and we mount it to the '/carousel' endpoint.
resource_dirs:
carousel: /mnt/hd/photos/carousel
# The HTTP poll backend is a versatile backend that can monitor for HTTP-based resources and
# trigger events whenever new entries are available. In the example below we show how to use
# the backend to listen for changes on a set of RSS feeds. New content will be stored by default
# on a SQLite database under ~/.local/share/platypush/feeds/rss.db.
# Install the required dependencies through 'pip install "platypush[rss,db]"'
backend.http.poll:
requests:
- type: platypush.backend.http.request.rss.RssUpdates # HTTP poll type (RSS)
# Remote URL
url: http://www.theguardian.com/rss/world
# Custom title
title: The Guardian - World News
# How often we should check for changes
poll_seconds: 600
# Maximum number of new entries to be processed
max_entries: 10
- type: platypush.backend.http.request.rss.RssUpdates
url: http://www.physorg.com/rss-feed
title: Phys.org
poll_seconds: 600
max_entries: 10
- type: platypush.backend.http.request.rss.RssUpdates
url: http://feeds.feedburner.com/Techcrunch
title: Tech Crunch
poll_seconds: 600
max_entries: 10
- type: platypush.backend.http.request.rss.RssUpdates
url: http://www.nytimes.com/services/xml/rss/nyt/HomePage.xml
title: The New York Times
poll_seconds: 300
max_entries: 10
# MQTT backend. Installed required dependencies through 'pip install "platypush[mqtt]"'
backend.mqtt:
# Remote MQTT server IP or hostname
host: mqtt-server
# By default the backend will listen for messages on the platypush_bus_mq/device_id
# topic, but you can change the prefix using the topic attribute
# topic: MyBus
# Raw TCP socket backend. It can run commands sent as JSON over telnet or netcat
#backend.tcp:
# port: 3333
## --
## Assistant configuration examples
## --
#
# Both Google Assistant and Alexa voice assistant interfaces are supported by platypush.
# You can easily make your custom voice assistant with a RaspberryPi and a USB microphone,
# or on your laptop. Note however that the Alexa integration is still experimental
# (mostly because of glitches and bugs on the avs package provided by Amazon), while the
# Google Assistant support should be more robust. The recommended way of triggering a
# hotword ('OK Google', 'Alexa' or any custom hotword you like) is through the snowboy
# backend (install it through 'pip install "platypush[hotword]"'). You can download custom
# voice model files (.umdl) from https://snowboy.kitt.ai.
backend.assistant.snowboy:
# Microphone audio gain
audio_gain: 1.1
models:
# "Computer" hotword model
computer:
# UMDL file path
voice_model_file: ~/.local/share/snowboy/models/computer.umdl
# Plugin to use (Google Assistant)
assistant_plugin: assistant.google.pushtotalk
# Language assistant (Italian)
assistant_language: it-IT
# Sound to play when the hotword is detected
detect_sound: ~/.local/share/sounds/hotword.wav
# Model sensitivity
sensitivity: 0.4
# "OK Google" hotword model
ok_google:
voice_model_file: ~/.local/share/snowboy/models/OK Google.pmdl
assistant_plugin: assistant.google.pushtotalk
assistant_language: en-US
detect_sound: ~/.local/share/sounds/sci-fi/PremiumBeat_0013_cursor_selection_16.wav
sensitivity: 0.4
# "Alexa" voice model
alexa:
voice_model_file: ~/.local/share/snowboy/models/Alexa.pmdl
assistant_plugin: assistant.echo
assistant_language: en-US
detect_sound: ~/.local/share/sounds/sci-fi/PremiumBeat_0013_cursor_selection_16.wav
sensitivity: 0.5
# Install Alexa dependencies with 'pip install "platypush[alexa]"'
assistant.echo:
audio_player: mplayer
# Install Google Assistant dependencies with 'pip install "platypush[google-assistant-legacy]"'
assistant.google:
enabled: True
backend.assistant.google:
enabled: True
## --
## Procedure examples
## --
#
# Procedures are lists of actions that can be executed synchronously (default) or in parallel
# (procedure.async. prefix). Basic flow control operators (if/else/for) are also available.
# You can also access Python variables and evaluate Python expressions by using the ${} expressions.
# The 'context' special variable is a name->value dictionary containing the items returned from
# previous actions - for example if an action returned '{"status": "ok", "temperature":21.5}' then
# the following actions can access those variables through ${status} and ${temperature} respectively,
# and you can also add things like '- if ${temperature > 20.0}' or '- for ${temp in temperature_values}'.
# Alternatively, you can access those variable also through ${context.get('status')} or ${context.get('temperature')}.
# Other special variables that you can use in your procedures:
#
# - output: Will contain the parsed output of the previous action
# - errors: Will contain the errors of the previous action
# - event: If the procedure is executed within an event hook, it contains the event that triggered the hook
#
# An example procedure that can be called when you arrive home. You can run this procedure by sending a JSON
# message like this on whichever backend you like (HTTP, websocket, TCP, Redis, MQTT, Node-RED, Pushbullet...)
# {"type":"request", "action":"procedure.at_home"}
# You can for instance install Tasker+AutoLocation on your mobile and send this message whenever you enter
# your home area.
procedure.at_home:
# Set the db variable HOME to 1
- action: variable.set
args:
HOME: 1
# Check the luminosity level from a connected LTR559 sensor
- action: gpio.sensor.ltr559.get_data
# If it's below a certain threshold turn on the lights
- if ${int(light or 0) < 110}:
- action: light.hue.on
# Say a welcome home message. Install dependencies through 'pip install "platypush[google-tts]"'
- action: tts.google.say
args:
text: Welcome home
# Start the music
- action: music.mpd.play
# Procedure that will be execute when you're outside of home
procedure.outside_home:
# Unset the db variable HOME
- action: variable.unset
args:
name: HOME
# Stop the music
- action: music.mpd.stop
# Turn off the lights
- action: light.hue.off
# Start the camera streaming. Install the Pi Camera dependencies through
# 'pip install "platypush[picamera]"'
- action: camera.pi.start_streaming
args:
listen_port: 2222
# Procedures can also take optional arguments. The example below show a
# generic procedure to send a request to another platypush host over MQTT
# given target, action and args
procedure.send_request(target, action, args):
- action: mqtt.send_message
args:
topic: platypush_bus_mq/${target}
host: mqtt-server
port: 1883
msg:
type: request
target: ${target}
action: ${action}
args: ${args}
## --
## Event hook examples
## --
#
# Event hooks are procedures that are run when a certain condition is met.
# Check the documentation of the backends to see which events they can trigger.
# An event hook consists of two parts: an 'if' field that specifies on which
# event the hook will be triggered (type and attributes content), and a 'then'
# field that uses the same syntax as procedures to specify a list of actions to
# execute when the event is matched.
#
# The example below plays the music on mpd/mopidy when your voice assistant
# triggers a speech recognized event with "play the music" content.
event.hook.PlayMusicAssistantCommand:
if:
type: platypush.message.event.assistant.SpeechRecognizedEvent
# Note that basic regexes are supported, so the hook will be triggered
# both if you say "play the music" and "play music"
phrase: "play (the)? music"
then:
- action: music.mpd.play
# This will turn on the lights when you say "turn on the lights"
event.hook.TurnOnLightsCommand:
if:
type: platypush.message.event.assistant.SpeechRecognizedEvent
phrase: "turn on (the)? lights?"
then:
- action: light.hue.on
# This will play a song by a specified artist
event.hook.SearchSongVoiceCommand:
if:
type: platypush.message.event.assistant.SpeechRecognizedEvent
# Note that you can use the ${} operator in event matching to
# extract part of the matched string into context variables that
# can be accessed in your event hook.
phrase: "play ${title} by ${artist}"
then:
- action: music.mpd.clear
- action: music.mpd.search
args:
filter:
artist: ${artist}
title: ${title}
# Play the first search result
- action: music.mpd.play
args:
resource: ${output[0]['file']}
# This event will scrobble newly listened tracks on mpd/mopidy to last.fm
event.hook.ScrobbleNewTrack:
if:
type: platypush.message.event.music.NewPlayingTrackEvent
then:
- action: lastfm.scrobble
args:
artist: ${track['artist']}
title: ${track['title']}
- action: lastfm.update_now_playing
args:
artist: ${track['artist']}
title: ${track['title']}
## --
## Cron examples
## --
#
# Cronjobs allow you to execute procedures at periodic intervals.
# Standard UNIX cron syntax is supported, plus an optional 6th indicator
# at the end of the expression to run jobs with second granularity.
# The example below executes a script at intervals of 1 minute.
cron.TestCron:
cron_expression: '* * * * *'
actions:
- action: shell.exec
args:
cmd: ~/bin/myscript.sh