.. _module-pw_env_setup: ------------ pw_env_setup ------------ A classic problem in the embedded space is reducing the time from git clone to having a binary executing on a device. The issue is that an entire suite of tools is needed for non-trivial production embedded projects. For example: - A C++ compiler for your target device, and also for your host - A build system or three; for example, GN, Ninja, CMake, Bazel - A code formatting program like clang-format - A debugger like OpenOCD to flash and debug your embedded device - A known Python version with known modules installed for scripting - A Go compiler for the Go-based command line tools ...and so on In the server space, container solutions like Docker or Podman solve this; however, in our experience container solutions are a mixed bag for embedded systems development where one frequently needs access to native system resources like USB devices, or must operate on Windows. ``pw_env_setup`` is our compromise solution for this problem that works on Mac, Windows, and Linux. It leverages the Chrome packaging system `CIPD`_ to bootstrap a Python installation, which in turn inflates a virtual environment. The tooling is installed into your workspace, and makes no changes to your system. This tooling is designed to be reused by any project. .. _CIPD: https://github.com/luci/luci-go/tree/master/cipd Users interact with ``pw_env_setup`` with two commands: ``. bootstrap.sh`` and ``. activate.sh``. The bootstrap command always pulls down the current versions of CIPD packages and sets up the Python virtual environment. The activate command reinitializes a previously configured environment, and if none is found, runs bootstrap. .. note:: On Windows the scripts used to set up the environment are ``bootstrap.bat`` and ``activate.bat``. For simplicity they will be referred to with the ``.sh`` endings unless the distinction is relevant. .. warning:: At this time ``pw_env_setup`` works for us, but isn’t well tested. We don’t suggest relying on it just yet. However, we are interested in experience reports; if you give it a try, please `send us a note`_ about your experience. .. _send us a note: pigweed@googlegroups.com ================================== Using pw_env_setup in your project ================================== Downstream Projects Using Pigweed's Packages ******************************************** Projects using Pigweed can leverage ``pw_env_setup`` to install Pigweed's dependencies or their own dependencies. Projects that only want to use Pigweed's dependencies without modifying them can just source Pigweed's ``bootstrap.sh`` and ``activate.sh`` scripts. An example of what your project's `bootstrap.sh` could look like is below. This assumes `bootstrap.sh` is at the top level of your repository. .. code-block:: bash # Do not include a "#!" line, this must be sourced and not executed. # This assumes the user is sourcing this file from it's parent directory. See # below for a more flexible way to handle this. PROJ_SETUP_SCRIPT_PATH="$(pwd)/bootstrap.sh" export PW_PROJECT_ROOT="$(_python_abspath "$(dirname "$PROJ_SETUP_SCRIPT_PATH")")" # You may wish to check if the user is attempting to execute this script # instead of sourcing it. See below for an example of how to handle that # situation. # Source Pigweed's bootstrap utility script. # Using '.' instead of 'source' for POSIX compatibility. Since users don't use # dash directly, using 'source' in most documentation so users don't get # confused and try to `./bootstrap.sh`. . "$PW_PROJECT_ROOT/third_party/pigweed/pw_env_setup/util.sh" pw_check_root "$PW_ROOT" _PW_ACTUAL_ENVIRONMENT_ROOT="$(pw_get_env_root)" export _PW_ACTUAL_ENVIRONMENT_ROOT SETUP_SH="$_PW_ACTUAL_ENVIRONMENT_ROOT/activate.sh" pw_bootstrap --args... # See below for details about args. pw_finalize bootstrap "$SETUP_SH" User-Friendliness ----------------- You may wish to allow sourcing `bootstrap.sh` from a different directory. In that case you'll need the following at the top of `bootstrap.sh`. .. code-block:: bash _python_abspath () { python -c "import os.path; print(os.path.abspath('$@'))" } # Use this code from Pigweed's bootstrap to find the path to this script when # sourced. This should work with common shells. PW_CHECKOUT_ROOT is only used in # presubmit tests with strange setups, and can be omitted if you're not using # Pigweed's automated testing infrastructure. if test -n "$PW_CHECKOUT_ROOT"; then PROJ_SETUP_SCRIPT_PATH="$(_python_abspath "$PW_CHECKOUT_ROOT/bootstrap.sh")" unset PW_CHECKOUT_ROOT # Shell: bash. elif test -n "$BASH"; then PROJ_SETUP_SCRIPT_PATH="$(_python_abspath "$BASH_SOURCE")" # Shell: zsh. elif test -n "$ZSH_NAME"; then PROJ_SETUP_SCRIPT_PATH="$(_python_abspath "${(%):-%N}")" # Shell: dash. elif test ${0##*/} = dash; then PROJ_SETUP_SCRIPT_PATH="$(_python_abspath \ "$(lsof -p $$ -Fn0 | tail -1 | sed 's#^[^/]*##;')")" # If everything else fails, try $0. It could work. else PROJ_SETUP_SCRIPT_PATH="$(_python_abspath "$0")" fi You may also wish to check if the user is attempting to execute `bootstrap.sh` instead of sourcing it. Executing `bootstrap.sh` would download everything required for the environment, but cannot modify the environment of the parent process. To check for this add the following. .. code-block:: bash # Check if this file is being executed or sourced. _pw_sourced=0 # If not running in Pigweed's automated testing infrastructure the # SWARMING_BOT_ID check is unnecessary. if [ -n "$SWARMING_BOT_ID" ]; then # If set we're running on swarming and don't need this check. _pw_sourced=1 elif [ -n "$ZSH_EVAL_CONTEXT" ]; then case $ZSH_EVAL_CONTEXT in *:file) _pw_sourced=1;; esac elif [ -n "$KSH_VERSION" ]; then [ "$(cd $(dirname -- $0) && pwd -P)/$(basename -- $0)" != \ "$(cd $(dirname -- ${.sh.file}) && pwd -P)/$(basename -- ${.sh.file})" ] \ && _pw_sourced=1 elif [ -n "$BASH_VERSION" ]; then (return 0 2>/dev/null) && _pw_sourced=1 else # All other shells: examine $0 for known shell binary filenames # Detects `sh` and `dash`; add additional shell filenames as needed. case ${0##*/} in sh|dash) _pw_sourced=1;; esac fi _pw_eval_sourced "$_pw_sourced" Downstream Projects Using Different Packages ******************************************** Projects depending on Pigweed but using additional or different packages should copy the Pigweed `sample project`'s ``bootstrap.sh`` and ``config.json`` and update the call to ``pw_bootstrap``. Search for "downstream" for other places that may require changes, like setting the ``PW_ROOT`` and ``PW_PROJECT_ROOT`` environment variables. Explanations of parts of ``config.json`` are described here. .. _sample project: https://pigweed.googlesource.com/pigweed/sample_project/+/master ``cipd_package_files`` CIPD package file. JSON file consisting of a list of dictionaries with "path" and "tags" keys, where "tags" is a list of strings. ``virtualenv.gn_targets`` Target for installing Python packages. Downstream projects will need to create targets to install their packages or only use Pigweed Python packages. ``virtualenv.gn_root`` The root directory of your GN build tree, relative to ``PW_PROJECT_ROOT``. This is the directory your project's ``.gn`` file is located in. If you're only installing Pigweed Python packages, use the location of the Pigweed submodule. An example of a config file is below. .. code-block:: json { "cipd_package_files": [ "pigweed/pw_env_setup/py/pw_env_setup/cipd_setup/pigweed.json", "pigweed/pw_env_setup/py/pw_env_setup/cipd_setup/luci.json" "tools/myprojectname.json" ], "virtualenv": { "gn_root": ".", "gn_targets": [ ":python.install", ] } } In case the CIPD packages need to be referenced from other scripts, variables like ``PW_${BASENAME}_CIPD_INSTALL_DIR`` point to the CIPD install directories, where ``${BASENAME}`` is "PIGWEED" for "pigweed/pw_env_setup/py/pw_env_setup/cipd_setup/pigweed.json" and "LUCI" for "pigweed/pw_env_setup/py/pw_env_setup/cipd_setup/luci.json". This example would set the following environment variables. - ``PW_LUCI_CIPD_INSTALL_DIR`` - ``PW_MYPROJECTNAME_CIPD_INSTALL_DIR`` - ``PW_PIGWEED_CIPD_INSTALL_DIR`` Environment Variables ********************* The following environment variables affect env setup behavior. Most users will never need to set these. ``CIPD_CACHE_DIR`` Location of CIPD cache dir. Defaults to ``$HOME/.cipd-cache-dir``. ``PW_ACTIVATE_SKIP_CHECKS`` If set, skip running ``pw doctor`` at end of bootstrap/activate. Intended to be used by automated tools but not interactively. ``PW_BOOTSTRAP_PYTHON`` Python executable to be used, for example "python2" or "python3". Defaults to "python". ``PW_ENVIRONMENT_ROOT`` Location to which packages are installed. Defaults to ``.environment`` folder within the checkout root. ``PW_ENVSETUP_DISABLE_SPINNER`` Disable the spinner during env setup. Intended to be used when the output is being redirected to a log. ``PW_ENVSETUP_QUIET`` Disables all non-error output. Implementation ************** The environment is set up by installing CIPD and Python packages in ``PW_ENVIRONMENT_ROOT`` or ``/.environment``, and saving modifications to environment variables in setup scripts in those directories. To support multiple operating systems this is done in an operating system-agnostic manner and then written into operating system-specific files to be sourced now and in the future when running ``activate.sh`` instead of ``bootstrap.sh``. In the future these could be extended to C shell and PowerShell. A logical mapping of high-level commands to system-specific initialization files is shown below. .. image:: doc_resources/pw_env_setup_output.png :alt: Mapping of high-level commands to system-specific commands. :align: left