esphome-docs/guides/configuration-types.rst
Oxan van Leeuwen 5e3102a123
Use lowercase true/false values (#1327)
Co-authored-by: Jesse Hills <3060199+jesserockz@users.noreply.github.com>
2021-07-29 09:56:11 +12:00

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Configuration Types
===================
.. seo::
:description: Documentation of different configuration types in ESPHome
:image: settings.png
ESPHomes configuration files have several configuration types. This
page describes them.
.. _config-id:
ID
--
Quite an important aspect of ESPHome are “IDs”. They are used to
connect components from different domains. For example, you define an
output component together with an ID and then later specify that same ID
in the light component. IDs should always be unique within a
configuration and ESPHome will warn you if you try to use the same
ID twice.
Because ESPHome converts your configuration into C++ code and the
IDs are in reality just C++ variable names, they must also adhere to
C++s naming conventions. `C++ Variable
names <https://venus.cs.qc.cuny.edu/~krishna/cs111/lectures/D3_C++_Variables.pdf>`__
- … must start with a letter and can end with numbers.
- … must not have a space in the name.
- … can not have special characters except the underscore (“_“).
- … must not be a keyword.
.. _config-pin:
Pin
---
ESPHome always uses the **chip-internal GPIO numbers**. These
internal numbers are always integers like ``16`` and can be prefixed by
``GPIO``. For example to use the pin with the **internal** GPIO number 16,
you could type ``GPIO16`` or just ``16``.
Most boards however have aliases for certain pins. For example the NodeMCU
ESP8266 uses pin names ``D0`` through ``D8`` as aliases for the internal GPIO
pin numbers. Each board (defined in :doc:`ESPHome section </components/esphome>`)
has their own aliases and so not all of them are supported yet. For example,
for the ``D0`` (as printed on the PCB silkscreen) pin on the NodeMCU ESP8266
has the internal GPIO name ``GPIO16``, but also has an alias ``D0``. So using
either one of these names in your configuration will lead to the same result.
.. code-block:: yaml
some_config_option:
pin: GPIO16
some_config_option:
# alias on the NodeMCU ESP8266:
pin: D0
.. _config-pin_schema:
Pin Schema
----------
In some places, ESPHome also supports a more advanced “pin schema”.
.. code-block:: yaml
some_config_option:
# Basic:
pin: D0
# Advanced:
pin:
number: D0
inverted: true
mode: INPUT_PULLUP
Configuration variables:
- **number** (**Required**, pin): The pin number.
- **inverted** (*Optional*, boolean): If all read and written values
should be treated as inverted. Defaults to ``false``.
- **mode** (*Optional*, string): A pin mode to set for the pin at
startup, corresponds to Arduinos ``pinMode`` call.
Available Pin Modes:
- ``INPUT``
- ``OUTPUT``
- ``OUTPUT_OPEN_DRAIN``
- ``ANALOG`` (only on ESP32)
- ``INPUT_PULLUP``
- ``INPUT_PULLDOWN`` (only on ESP32)
- ``INPUT_PULLDOWN_16`` (only on ESP8266 and only on GPIO16)
More exotic Pin Modes are also supported, but rarely used:
- ``WAKEUP_PULLUP`` (only on ESP8266)
- ``WAKEUP_PULLDOWN`` (only on ESP8266)
- ``SPECIAL``
- ``FUNCTION_0`` (only on ESP8266)
- ``FUNCTION_1``
- ``FUNCTION_2``
- ``FUNCTION_3``
- ``FUNCTION_4``
- ``FUNCTION_5`` (only on ESP32)
- ``FUNCTION_6`` (only on ESP32)
.. _config-time:
Time
----
In lots of places in ESPHome you need to define time periods.
There are several ways of doing this. See below examples to see how you can specify time periods:
.. code-block:: yaml
some_config_option:
some_time_option: 1000us # 1000 microseconds = 1ms
some_time_option: 1000ms # 1000 milliseconds
some_time_option: 1.5s # 1.5 seconds
some_time_option: 0.5min # half a minute
some_time_option: 2h # 2 hours
# Make sure you wrap these in quotes
some_time_option: '2:01' # 2 hours 1 minute
some_time_option: '2:01:30' # 2 hours 1 minute 30 seconds
# 10ms + 30s + 25min + 3h
some_time_option:
milliseconds: 10
seconds: 30
minutes: 25
hours: 3
days: 0
# for all 'update_interval' options, also
update_interval: never # never update
update_interval: 0ms # update in every loop() iteration
.. _config-substitutions:
Substitutions
-------------
Starting with version 1.10.0, ESPHome has a powerful new way to reduce repetition in configuration files:
Substitutions. With substitutions, you can have a single generic source file for all nodes of one kind and
substitute expressions in.
.. code-block:: yaml
substitutions:
devicename: livingroom
upper_devicename: Livingroom
esphome:
name: $devicename
# ...
sensor:
- platform: dht
# ...
temperature:
name: ${upper_devicename} Temperature
humidity:
name: ${upper_devicename} Humidity
In the top-level ``substitutions`` section, you can put as many key-value pairs as you want. Before
validating your configuration, ESPHome will automatically replace all occurrences of substitutions
by their value. The syntax for a substitution is based on bash and is case-sensitive: ``$substitution_key`` or
``${substitution_key}`` (same).
Additionally, you can use the YAML ``<<`` syntax to create a single YAML file from which a number
of nodes inherit:
.. code-block:: yaml
# In common.yaml
esphome:
name: $devicename
# ...
sensor:
- platform: dht
# ...
temperature:
name: ${upper_devicename} Temperature
humidity:
name: ${upper_devicename} Humidity
.. code-block:: yaml
# In nodemcu1.yaml
substitutions:
devicename: nodemcu1
upper_devicename: NodeMCU 1
<<: !include common.yaml
.. tip::
To hide these base files from the dashboard, you can
- Place them in a subdirectory (dashboard only shows files in top-level directory)
- Prepend a dot to the filename, like ``.base.yaml``
.. _command-line-substitutions:
Command line substitutions
**************************
You can define or override substitutions from the command line by adding e.g. ``-s KEY VALUE``
which overrides substitution KEY and gives it value VALUE. This can be issued multiple times,
so e.g. with the following ``example.yaml`` file:
.. code-block:: yaml
substitutions:
name: default
platform: ESP8266
esphome:
name: $name
platform: $platform
board: $board
and the following command:
.. code-block:: bash
esphome -s name device01 -s board esp01_1m example.yaml config
You will get something like the following output (please note the unchanged ``platform``,
added ``board``, and overridden ``name`` substitutions):
.. code-block:: yaml
substitutions:
name: device01
platform: ESP8266
board: esp01_1m
esphome:
name: device01
platform: ESP8266
board: esp01_1m
includes: []
libraries: []
esp8266_restore_from_flash: false
build_path: device01
platformio_options: {}
arduino_version: espressif8266@2.2.3
We can observe here that command line substitutions take precedence over the ones in
your configuration file. This can be used to create generic 'template' configuration
files (like the ``example.yaml`` above) which can be used for multiple devices,
using substitutions which are provided on the command line.
.. _config-packages:
Packages
--------
Another way to modularize and reuse your configuration is to use packages. This feature allows
you to put common pieces of configuration in separate files and keep only unique pieces of your
config in the main yaml file. All definitions from packages will be merged with your main
config in non-destructive way so you could always override some bits and pieces of package
configuration.
Consider the following example where the author put common pieces of configuration like WiFi and
I²C into base files and extends it with some device specific configurations in the main config.
Note how the piece of configuration describing ``api`` component in ``device_base.yaml`` gets
merged with the services definitions from main config file.
.. code-block:: yaml
# In config.yaml
substitutions:
node_name: mydevice
device_verbose_name: "My Device"
packages:
wifi: !include common/wifi.yaml
device_base: !include common/device_base.yaml
api:
services:
- service: start_laundry
then:
- switch.turn_on: relay
- delay: 3h
- switch.turn_off: relay
sensor:
- platform: mhz19
co2:
name: "CO2"
temperature:
name: "Temperature"
update_interval: 60s
automatic_baseline_calibration: false
.. code-block:: yaml
# In wifi.yaml
wifi:
ssid: "your_ssid"
password: !secret wifi_password
domain: .yourdomain.lan
fast_connect: true
.. code-block:: yaml
# In device_base.yaml
esphome:
name: ${node_name}
platform: ESP32
board: wemos_d1_mini32
build_path: ./build/${node_name}
# I²C Bus
i2c:
sda: GPIO21
scl: GPIO22
scan: true
frequency: 100kHz
# Enable logging
logger:
level: ${log_level}
api:
password: !secret hass_api_key
reboot_timeout: 1h
sensor:
- <<: !include common/sensor/uptime.config.yaml
- <<: !include common/sensor/wifi_signal.config.yaml
binary_sensor:
- <<: !include common/binary_sensor/connection_status.config.yaml
switch:
- !include common/switch/restart_switch.config.yaml
See Also
--------
- :doc:`ESPHome index </index>`
- :doc:`getting_started_command_line`
- :doc:`faq`
- :ghedit:`Edit`