OTA Update Component ==================== .. seo:: :description: Instructions for setting up Over-The-Air (OTA) updates for ESPs to upload firmwares remotely. :image: system-update.png :keywords: Xiaomi, Mi Flora, BLE, Bluetooth With the OTA (Over The Air) update component you can upload your firmware binaries to your node without having to use a USB cable for uploads. ESPHome natively supports this through its ``run`` and ``upload`` helper scripts. ESPHome also has an "OTA safe mode". If for some reason your node gets into a boot loop, ESPHome will automatically try to detect this and will go over into a safe mode after the configured unsuccessful boot attempts (Defaults to ``10``). In that mode, all components are disabled and only Serial Logging+WiFi+OTA are initialized, so that you can upload a new binary. .. code-block:: yaml # Example configuration entry ota: safe_mode: True password: VERYSECURE Configuration variables: ------------------------ - **safe_mode** (*Optional*, boolean): Whether to enable safe mode. Defaults to ``True``. - **password** (*Optional*, string): The password to use for updates. - **port** (*Optional*, int): The port to use for OTA updates. Defaults to ``3232`` for the ESP32 and ``8266`` for the ESP8266. - **id** (*Optional*, :ref:`config-id`): Manually specify the ID used for code generation. - **reboot_timeout** (*Optional*, :ref:`time `): The amount of time to wait before rebooting when in safe mode. Defaults to ``5min``. - **num_attempts** (*Optional*, int): The number of attempts to wait before entering safe mode. Defaults to ``10``. - **on_begin** (*Optional*, :ref:`Automation`): An action to be performed when an OTA update is started. See :ref:`ota-on_begin`. - **on_progress** (*Optional*, :ref:`Automation`): An action to be performed (multiple times) during an OTA update. See :ref:`ota-on_progress`. - **on_end** (*Optional*, :ref:`Automation`): An action to be performed after a successful OTA update. See :ref:`ota-on_end`. - **on_error** (*Optional*, :ref:`Automation`): An action to be performed after a failed OTA update. See :ref:`ota-on_error`. - **on_state_change** (*Optional*, :ref:`Automation`): An action to be performed when an OTA update state change happens. See :ref:`ota-on_state_change`. .. note:: Please be aware that ESP8266 modules must be reset after a serial upload before OTA can work. When you are trying to conduct an OTA update and receive an error message ``Bad Answer: ERR: ERROR[11]: Invalid bootstrapping`` the reason is very likely that power-cycling the ESP module is required once after the serial upload. OTA Automation -------------- The OTA component provides various automations that can be used to provide feedback during an OTA update. There are a few things to consider when making use of the provided automation triggers: - An OTA update blocks the main loop during its operation. This means that you won't be able to represent state changes using components that update their output only from within their ``loop()`` method. Explained differently: if you try to display the OTA progress using component X, but the update only appears after the OTA update finished, then component X cannot be used for providing OTA update feedback. - Make sure that your automation actions do not take too much time, to prevent them from blocking the OTA update code for too long. .. _ota-on_begin: ``on_begin`` ************ This automation will be triggered when an OTA update is started. .. code-block:: yaml ota: on_begin: then: - logger.log: "OTA start" .. _ota-on_progress: ``on_progress`` *************** Using this automation, it is possible to report on the OTA update progress. It will be triggered multiple times during the OTA update. You can get the actual progress percentage (a value between 0 and 100) from the trigger with variable ``x``. .. code-block:: yaml ota: on_progress: then: - logger.log: format: "OTA progress %0.1f%%" args: ["x"] .. _ota-on_end: ``on_end`` ********** This automation will be triggered when an OTA update has completed sucessfully, right before the device is rebooted. Because the update has completed, you can safely use an automation action that takes some time to complete. This can for example be useful if you want to flash a LED or so, in which case a pause would be required to make the LED light up for long enough, before the reboot turns it off. .. code-block:: yaml ota: on_end: then: - logger.log: "OTA end" .. _ota-on_error: ``on_error`` ************ This automation will be triggered when an OTA update has failed. You can get the internal error code with variable ``x``. Just like for :ref:`ota-on_end`, you can safely use an automation that takes some time to complete, because the OTA update is no longer busy. .. code-block:: yaml ota: on_error: then: - logger.log: format: "OTA update error %d" args: ["x"] .. _ota-on_state_change: ``on_state_change`` ******************* This automation will be triggered on every state change. You can get the actual state with variable ``state``, which will contain one of values for the OTAState enum. These values are: - ``ota::OTA_STARTED`` - ``ota::OTA_IN_PROGRESS`` (will be called multiple times during the update) - ``ota::OTA_COMPLETED`` - ``ota::OTA_ERROR`` .. code-block:: yaml ota: on_state_change: then: - if: condition: lambda: return state == ota::OTA_STARTED then: - logger.log: "OTA start" Updating the password: ---------------------- Since the password is used both for compiling and uploading the regular ``esphome run`` won't work of course. This issue can be worked around by executing the operations separately through an ``on_boot`` trigger: .. code-block:: yaml esphome: on_boot: - lambda: |- id(my_ota).set_auth_password("New password"); ota: password: "Old password" id: my_ota See Also -------- - :apiref:`ota/ota_component.h` - :ghedit:`Edit`