Native API Component ==================== .. seo:: :description: Instructions for setting up the native ESPHome API for communication with Home Assistant. :image: server-network.svg :keywords: Native API, ESPHome, Home Assistant The ESPHome native API is used to communicate with clients directly, with a highly-optimized network protocol. Currently, only the ESPHome tool, Home Assistant and ioBroker use this native API. After adding an ``api:`` line to your ESPHome configuration you can go to the Home Assistant web interface and navigate to the "Integrations" screen in the "Configuration" panel. Then wait for the ESPHome device to show up under the discovered section (can take up to 5 minutes) or add the device manually by choosing "ESPHome" from the integration overview and entering ".local" or the IP address of the unit in the "Host" field. The ESPHome native API is based on a custom TCP protocol using protocol buffers. You can find the protocol data structure definitions here: `api.proto `__ A Python library that implements this protocol is `aioesphomeapi `__. .. code-block:: yaml # Example configuration entry api: Configuration variables: ------------------------ - **port** (*Optional*, int): The port to run the API Server on. Defaults to ``6053``. - **encryption** (*Optional*): Enable transport encryption of the API layer. - **key** (**Required**, string): The pre-shared key for the encryption. This is a 32-byte base64 encoded string. Below you can copy a key randomly generated in your browser: .. raw:: html - **actions** (*Optional*, list): A list of user-defined actions. See :ref:`api-device-actions`. - **reboot_timeout** (*Optional*, :ref:`config-time`): The amount of time to wait before rebooting when no client connects to the API. This is needed because sometimes the low level ESP functions report that the ESP is connected to the network, when in fact it is not - only a full reboot fixes it. Can be disabled by setting this to ``0s``. Defaults to ``15min``. - **id** (*Optional*, :ref:`config-id`): Manually specify the ID used for code generation. - **password** (*Optional*, **Deprecated**, string): The password to protect the API Server with. Defaults to no password. It is recommended to use the ``encryption`` -> ``key`` above instead of the the ``password``. - **on_client_connected** (*Optional*, :ref:`Action `): An automation to perform when a client connects to the API. See :ref:`api-on_client_connected_trigger`. - **on_client_disconnected** (*Optional*, :ref:`Action `): An automation to perform when a client disconnects from the API. See :ref:`api-on_client_disconnected_trigger`. .. _api-actions: Actions ------- Before using any of the actions below, you'll need to tell Home Assistant to allow your device to perform actions. Open the ESPHome integration page on your Home Assistant instance: .. raw:: html Open your Home Assistant instance and show an integration. Then: #. Find your device in the device list #. Click the "configure" button next to it #. Check the "Allow the device to perform Home Assistant actions" box #. Then click "submit". .. _api-homeassistant_event_action: ``homeassistant.event`` Action ****************************** .. note:: Be sure to :ref:`follow the instructions above ` to tell Home Assistant to allow your device to perform actions. When using the native API with Home Assistant, you can create events in the Home Assistant event bus straight from ESPHome :ref:`Automations `. .. code-block:: yaml # In some trigger on_...: # Simple - homeassistant.event: event: esphome.button_pressed data: message: Button was pressed Configuration variables: ```````````````````````` - **event** (**Required**, string): The event to create - must begin with ``esphome.`` - **data** (*Optional*, mapping): Optional *static* data to pass along with the event. - **data_template** (*Optional*, mapping): Optional template data to pass along with the event. This is evaluated on the Home Assistant side with Home Assistant's templating engine. - **variables** (*Optional*, mapping): Optional variables that can be used in the ``data_template``. Values are :ref:`lambdas ` and will be evaluated before sending the request. .. _api-homeassistant_action-action: ``homeassistant.action`` Action ******************************** .. note:: Be sure to :ref:`follow the instructions above ` to tell Home Assistant to allow your device to perform actions. When using the native API with Home Assistant, you can perform Home Assistant actions straight from ESPHome :ref:`Automations `. .. code-block:: yaml # In some trigger on_...: # Simple - homeassistant.action: action: notify.html5 data: message: Button was pressed # With templates and variables - homeassistant.action: action: notify.html5 data: title: New Humidity data_template: message: The humidity is {{ my_variable }}%. variables: my_variable: |- return id(my_sensor).state; Configuration variables: ```````````````````````` - **action** (**Required**, string): The Home Assistant `Action `__ to perform. - **data** (*Optional*, mapping): Optional *static* data to perform the action with. - **data_template** (*Optional*, mapping): Optional template data to perform the action with. This is evaluated on the Home Assistant side with Home Assistant's templating engine. - **variables** (*Optional*, mapping): Optional variables that can be used in the ``data_template``. Values are :ref:`lambdas ` and will be evaluated before sending the request. Data structures are not possible, but you can create a script in Home Assistant and call with all the parameters in plain format. .. code-block:: yaml # Home Assistant Configuration script: ... set_light_rgb: alias: 'ESPHome RGB light set' sequence: - action: light.turn_on data_template: entity_id: '{{ light_name }}' rgb_color: - '{{ red }}' - '{{ green }}' - '{{ blue }}' Then, in ESPHome: .. code-block:: yaml # In some trigger on_...: - homeassistant.action: action: script.set_light_rgb data: light_name: 'my_light' red: '255' green: '199' blue: '71' .. _api-homeassistant_tag_scanned_action: ``homeassistant.tag_scanned`` Action ************************************ .. note:: Be sure to :ref:`follow the instructions above ` to tell Home Assistant to allow your device to make action calls. When using the native API with Home Assistant, you can push tag_scanned to Home Assistant straight from ESPHome :ref:`Automations `. .. code-block:: yaml # In some trigger on_...: # Simple - homeassistant.tag_scanned: some-tag Configuration variables: ```````````````````````` - **tag** (**Required**, :ref:`templatable `, string): The id of the scanned tag Triggers -------- .. _api-on_client_connected_trigger: ``on_client_connected`` Trigger ******************************* This trigger is activated each time a client connects to the API. Two variables of type ``std::string`` are available for use by actions called from within this trigger: - ``client_address``: the IP address of the client that connected - ``client_info``: the name of the client that connected .. code-block:: yaml api: # ... on_client_connected: - logger.log: format: "Client %s connected to API with IP %s" args: ["client_info.c_str()", "client_address.c_str()"] .. _api-on_client_disconnected_trigger: ``on_client_disconnected`` Trigger ********************************** This trigger is activated each time the API disconnects from the API. Two variables of type ``std::string`` are available for use by actions called from within this trigger: - ``client_address``: the IP address of the client that disconnected - ``client_info``: the name of the client that disconnected .. code-block:: yaml api: # ... on_client_disconnected: - logger.log: "API client disconnected!" .. _api-connected_condition: ``api.connected`` Condition --------------------------- This :ref:`Condition ` checks if at least one client is connected to the ESPHome native API. Please note client not only includes Home Assistant, but also ESPHome's OTA log output if logs are shown remotely. .. code-block:: yaml on_...: if: condition: api.connected: then: - logger.log: API is connected! .. _api-device-actions: User-defined Actions -------------------- It is also possible to get data from Home Assistant to ESPHome with user-defined actions. When you declare actions in your ESPHome YAML file, they will automatically show up in Home Assistant and you can call them directly. .. code-block:: yaml # Example configuration entry api: actions: - action: start_laundry then: - switch.turn_on: relay - delay: 3h - switch.turn_off: relay For example with the configuration seen above, after uploading you will see an action called ``esphome.livingroom_start_laundry`` (livingroom is the node name) which you can then call. Additionally, you can also transmit data from Home Assistant to ESPHome with this method: .. code-block:: yaml # Example configuration entry api: actions: - action: start_effect variables: my_brightness: int my_effect: string then: - light.turn_on: id: my_light brightness: !lambda 'return my_brightness;' effect: !lambda 'return my_effect;' Using the ``variables`` key you can tell ESPHome which variables to expect from Home Assistant. For example the action seen above would be executed with something like this: .. code-block:: yaml # Example Home Assistant Action action: esphome.livingroom_start_effect data_template: my_brightness: "{{ states.brightness.state }}" my_effect: "Rainbow" Then each variable you define in the ``variables`` section is accessible in the automation triggered by the user-defined action through the name you gave it in the variables section (note: this is a local variable, so do not wrap it in ``id(...)`` to access it). There are currently 4 types of variables: - bool: A boolean (ON/OFF). C++ type: ``bool`` - int: An integer. C++ type: ``int``/``int32_t`` - float: A floating point number. C++ type: ``float`` - string: A string. C++ type: ``std::string`` Each of these also exist in array form: - bool[]: An array of boolean values. C++ type: ``std::vector`` - ... - Same for other types. Advantages over MQTT -------------------- The ESPHome native API has many advantages over using MQTT for communication with Home Automation software (currently only Home Assistant and ioBroker). But MQTT is a great protocol and will never be removed. Features of native API (vs. MQTT): - **Much more efficient:** ESPHome encodes all messages in a highly optimized format with protocol buffers - for example binary sensor state messages are about 1/10 of the size. - **One-click configuration:** ESPHome just needs one click to set up in Home Assistant - no more messing around with retained MQTT discovery messages and alike. - **One less single point of failure:** In the ESPHome native API each ESP is its own server. With MQTT, when the broker shuts off nothing can communicate anymore. - **Stability:** Since ESPHome has far more control over the protocol than with MQTT, it's really easy for us to roll out stability improvements. - **Low Latency:** The native API is optimized for very low latency, usually this is only a couple of milliseconds and far less than can be noticed by the eye. See Also -------- - :apiref:`api/api_server.h` - :ghedit:`Edit`