**************** IDF Docker Image **************** .. When changing this page, please keep tools/docker/README.md in sync. .. highlight:: bash IDF Docker image (``espressif/idf``) is intended for building applications and libraries with specific versions of ESP-IDF, when doing automated builds. The image contains: - Common utilities such as git, wget, curl, zip. - Python 3.7 or newer. - A copy of a specific version of ESP-IDF (see below for information about versions). ``IDF_PATH`` environment variable is set, and points to ESP-IDF location in the container. - All the build tools required for the specific version of ESP-IDF: CMake, ninja, cross-compiler toolchains, etc. - All Python packages required by ESP-IDF are installed in a virtual environment. The image entrypoint sets up ``PATH`` environment variable to point to the correct version of tools, and activates the Python virtual environment. As a result, the environment is ready to use the ESP-IDF build system. The image can also be used as a base for custom images, if additional utilities are required. Tags ==== Multiple tags of this image are maintained: - ``latest``: tracks ``master`` branch of ESP-IDF - ``vX.Y``: corresponds to ESP-IDF release ``vX.Y`` - ``release-vX.Y``: tracks ``release/vX.Y`` branch of ESP-IDF .. note:: Versions of ESP-IDF released before this feature was introduced do not have corresponding Docker image versions. You can check the up-to-date list of available tags at https://hub.docker.com/r/espressif/idf/tags. Usage ===== Setting up Docker ~~~~~~~~~~~~~~~~~ Before using the ``espressif/idf`` Docker image locally, make sure you have Docker installed. Follow the instructions at https://docs.docker.com/install/, if it is not installed yet. If using the image in CI environment, consult the documentation of your CI service on how to specify the image used for the build process. Building a project with CMake ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ In the project directory, run:: docker run --rm -v $PWD:/project -w /project espressif/idf idf.py build The above command explained: - ``docker run``: runs a Docker image. It is a shorter form of the command ``docker container run``. - ``--rm``: removes the container when the build is finished - ``-v $PWD:/project``: mounts the current directory on the host (``$PWD``) as ``/project`` directory in the container - ``espressif/idf``: uses Docker image ``espressif/idf`` with tag ``latest`` (implicitly added by Docker when no tag is specified) - ``idf.py build``: runs this command inside the container To build with a specific Docker image tag, specify it as ``espressif/idf:TAG``, for example:: docker run --rm -v $PWD:/project -w /project espressif/idf:release-v4.4 idf.py build You can check the up-to-date list of available tags at https://hub.docker.com/r/espressif/idf/tags. Using the image interactively ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ It is also possible to do builds interactively, to debug build issues or test the automated build scripts. Start the container with `-i -t` flags:: docker run --rm -v $PWD:/project -w /project -it espressif/idf Then inside the container, use ``idf.py`` as usual:: idf.py menuconfig idf.py build .. note:: Commands which communicate with the development board, such as ``idf.py flash`` and ``idf.py monitor`` will not work in the container unless the serial port is passed through into the container. This can be done with Docker for Linux with the `device option`_. However currently this is not possible with Docker for Windows (https://github.com/docker/for-win/issues/1018) and Docker for Mac (https://github.com/docker/for-mac/issues/900). This limitation may be overcome by using `remote serial ports`_. An example how to do this can be found in the following `using remote serial port`_ section. .. _using remote serial port: Using remote serial port ~~~~~~~~~~~~~~~~~~~~~~~~ The `RFC2217`_ (Telnet) protocol can be used to remotely connect to a serial port. For more information please see the `remote serial ports`_ documentation in the esptool project. This method can also be used to access the serial port inside a Docker container if it cannot be accessed directly. Following is an example how to use the flash command from within a Docker container. On host install and start ``esp_rfc2217_server``: * On Windows, package is available as a one-file bundled executable created by pyinstaller and it can be downloaded from the `esptool releases`_ page in a zip archive along with other esptool utilities:: esp_rfc2217_server -v -p 4000 COM3 * On Linux/MacOS, package is available as part of `esptool` which can be found in ESP-IDF environment or by installing using pip:: pip install esptool And then starting the server by executing:: esp_rfc2217_server.py -v -p 4000 /dev/ttyUSB0 Now the device attached to the host can be flashed from inside a Docker container by using:: docker run --rm -v :/ -w / espressif/idf idf.py --port 'rfc2217://host.docker.internal:4000?ign_set_control' flash Please make sure that ```` is properly set to your project path on the host and ```` is set as a working directory inside the container with the ``-w`` option. The ``host.docker.internal`` is a special Docker DNS name to access the host. This can be replaced with host IP if necessary. Building custom images ====================== The Dockerfile in ESP-IDF repository provides several build arguments which can be used to customize the Docker image: - ``IDF_CLONE_URL``: URL of the repository to clone ESP-IDF from. Can be set to a custom URL when working with a fork of ESP-IDF. Default is ``https://github.com/espressif/esp-idf.git``. - ``IDF_CLONE_BRANCH_OR_TAG``: Name of a git branch or tag use when cloning ESP-IDF. This value is passed to ``git clone`` command using the ``--branch`` argument. Default is ``master``. - ``IDF_CHECKOUT_REF``: If this argument is set to a non-empty value, ``git checkout $IDF_CHECKOUT_REF`` command will be performed after cloning. This argument can be set to the SHA of the specific commit to check out, for example if some specific commit on a release branch is desired. - ``IDF_CLONE_SHALLOW``: If this argument is set to a non-empty value, ``--depth=1 --shallow-submodules`` arguments will be used when performing ``git clone``. This significantly reduces the amount of data downloaded and the size of the resulting Docker image. However, if switching to a different branch in such a "shallow" repository is necessary, an additional ``git fetch origin `` command must be executed first. - ``IDF_INSTALL_TARGETS``: Comma-separated list of IDF targets to install toolchains for, or ``all`` to install toolchains for all targets. Selecting specific targets reduces the amount of data downloaded and the size of the resulting Docker image. Default is ``all``. To use these arguments, pass them via the ``--build-arg`` command line option. For example, the following command will build a Docker image with a shallow clone of ESP-IDF v4.4.1 and tools for ESP32-C3, only:: docker build -t idf-custom:v4.4.1-esp32c3 \ --build-arg IDF_CLONE_BRANCH_OR_TAG=v4.4.1 \ --build-arg IDF_CLONE_SHALLOW=1 \ --build-arg IDF_INSTALL_TARGETS=esp32c3 \ tools/docker .. _remote serial ports: https://docs.espressif.com/projects/esptool/en/latest/esptool/remote-serial-ports.html .. _RFC2217: http://www.ietf.org/rfc/rfc2217.txt .. _esptool releases: https://github.com/espressif/esptool/releases .. _device option: https://docs.docker.com/engine/reference/run/#runtime-privilege-and-linux-capabilities