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221 lines
7.8 KiB
ReStructuredText
221 lines
7.8 KiB
ReStructuredText
Getting Started with the ESPHome Command Line
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=============================================
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.. seo::
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:description: Getting Started guide for installing ESPHome using the command line and creating a basic configuration.
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:image: console.svg
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ESPHome is the perfect solution for creating custom firmwares for
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your ESP8266/ESP32 boards. In this guide we’ll go through how to set up a
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basic “node” in a few simple steps.
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Installation
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------------
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See :doc:`installing_esphome`.
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If you're familiar with Docker, you can use that instead!
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Note that on macOS Docker `can not pass USB devices through <https://github.com/moby/hyperkit/issues/149>`__.
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You will not be able to flash ESP devices through USB on Mac, all other features will work. Flashing with web dashboard is still possible.
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Our image supports AMD64, ARM and ARM64 (AARCH64), and can be downloaded with:
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.. code-block:: bash
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docker pull esphome/esphome
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If you want to use `docker-compose` instead, here's a sample file:
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.. code-block:: yaml
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version: '3'
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services:
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esphome:
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container_name: esphome
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image: esphome/esphome
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volumes:
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- /path/to/esphome/config:/config
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- /etc/localtime:/etc/localtime:ro
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restart: always
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privileged: true
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network_mode: host
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Connecting the ESP Device
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-------------------------
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Follow the instructions in :doc:`physical_device_connection` to connect to your
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ESP device.
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.. note::
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The most difficult part of setting up a new ESPHome device is the initial
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installation. Installation requires that your ESP device is connected with
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a cable to a computer. Later updates can be installed wirelessly.
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Creating a Project
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------------------
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Now let’s setup a configuration file. Fortunately, ESPHome has a
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friendly setup wizard that will guide you through creating your first
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configuration file. For example, if you want to create a configuration
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file called ``livingroom.yaml``:
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.. code-block:: bash
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esphome wizard livingroom.yaml
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# On Docker:
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docker run --rm -v "${PWD}":/config -it esphome/esphome wizard livingroom.yaml
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At the end of this step, you will have your first YAML configuration
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file ready. It doesn't do much yet and only makes your device connect to
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the WiFi network, but still it’s a first step.
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Adding some features
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--------------------
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So now you should have a file called ``livingroom.yaml`` (or similar).
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Go open that file in an editor of your choice and let’s add a :doc:`simple
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GPIO switch </components/switch/gpio>` to our app.
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.. code-block:: yaml
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switch:
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- platform: gpio
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name: "Living Room Dehumidifier"
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pin: 5
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The configuration format should hopefully immediately seem similar to
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you. ESPHome has tried to keep it as close to Home Assistant’s
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``configuration.yaml`` schema as possible. In the above example, we’re
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simply adding a switch that’s called “Living Room Dehumidifier” (could control
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anything really, for example lights) and is connected to pin ``GPIO5``.
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The nice thing about ESPHome is that it will automatically also try
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to translate pin numbers for you based on the board. For example in the
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above configuration, if using a NodeMCU board, you could have just as
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well set ``D1`` as the ``pin:`` option.
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First uploading
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---------------
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Now you can go ahead and add some more components. Once you feel like
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you have something you want to upload to your ESP board, simply plug in
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the device via USB and type the following command (replacing
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``livingroom.yaml`` with your configuration file):
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.. code-block:: bash
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esphome run livingroom.yaml
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You should see ESPHome validating the configuration and telling you
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about potential problems. Then ESPHome will proceed to compile and
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upload the custom firmware. You will also see that ESPHome created a
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new folder with the name of your node. This is a new PlatformIO project
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that you can modify afterwards and play around with.
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If you are running docker on Linux you can add ``--device=/dev/ttyUSB0``
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to your docker command to map a local USB device. Docker on Mac will not be able to access host USB devices.
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.. code-block:: bash
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docker run --rm -v "${PWD}":/config --device=/dev/ttyUSB0 -it esphome/esphome run livingroom.yaml
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Now when you go to the Home Assistant "Integrations" screen (under "Configuration" panel), you
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should see the ESPHome device show up in the discovered section (although this can take up to 5 minutes).
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Alternatively, you can manually add the device by clicking "CONFIGURE" on the ESPHome integration
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and entering "<NODE_NAME>.local" as the host.
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.. figure:: /components/switch/images/gpio-ui.png
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:align: center
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After the first upload, you will probably never need to use the USB
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cable again, as all features of ESPHome are enabled remotely as well.
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No more opening hidden boxes stowed in places hard to reach. Yay!
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Adding A Binary Sensor
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----------------------
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Next, we’re going to add a very simple binary sensor that periodically
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checks if a particular GPIO pin is pulled high or low - the :doc:`GPIO Binary
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Sensor </components/binary_sensor/gpio>`.
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.. code-block:: yaml
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binary_sensor:
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- platform: gpio
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name: "Living Room Window"
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pin:
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number: 16
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inverted: true
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mode:
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input: true
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pullup: true
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This is an advanced feature of ESPHome. Almost all pins can
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optionally have a more complicated configuration schema with options for
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inversion and pinMode - the :ref:`Pin Schema <config-pin_schema>`.
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This time when uploading, you don’t need to have the device plugged in
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through USB again. The upload will magically happen “over the air”.
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Using ESPHome directly, this is the same as from a USB cable, but
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for docker you need to supply an additional parameter:
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.. code-block:: bash
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esphome livingroom.yaml run
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# On docker
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docker run --rm -v "${PWD}":/config -it esphome/esphome run livingroom.yaml
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.. figure:: /components/binary_sensor/images/gpio-ui.png
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Where To Go Next
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----------------
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Great 🎉! You’ve now successfully set up your first ESPHome project
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and uploaded your first ESPHome custom firmware to your node. You’ve
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also learned how to enable some basic components via the configuration
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file.
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So now is a great time to go take a look at the :doc:`Components Index </index>`.
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Hopefully you’ll find all sensors/outputs/etc. you’ll need in there. If you’re having any problems or
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want new features, please either create a new issue on the `GitHub issue
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tracker <https://github.com/esphome/issues/issues>`__ or find us on the
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`Discord chat <https://discord.gg/KhAMKrd>`__ (also make sure to read the :doc:`FAQ <faq>`).
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Bonus: ESPHome dashboard
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------------------------
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ESPHome features a dashboard that you can use to easily manage your nodes
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from a nice web interface. It was primarily designed for
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:doc:`the Home Assistant add-on <getting_started_hassio>`, but also works with a simple command on
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\*nix machines (sorry, no windows).
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To start the ESPHome dashboard, simply start ESPHome with the following command
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(with ``config/`` pointing to a directory where you want to store your configurations)
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.. code-block:: bash
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# Install dashboard dependencies
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pip install tornado esptool
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esphome dashboard config/
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# On Docker, host networking mode is required for online status indicators
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docker run --rm --net=host -v "${PWD}":/config -it esphome/esphome
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# On Docker with MacOS, the host networking option doesn't work as expected. An
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# alternative is to use the following command if you are a MacOS user.
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docker run --rm -p 6052:6052 -e ESPHOME_DASHBOARD_USE_PING=true -v "${PWD}":/config -it esphome/esphome
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After that, you will be able to access the dashboard through ``localhost:6052``.
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.. figure:: images/dashboard_states.png
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See Also
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--------
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- :doc:`cli`
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- :doc:`ESPHome index </index>`
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- :doc:`getting_started_hassio`
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- :ghedit:`Edit`
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