doc/develop/beyond-GSG.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _beyond-gsg:

 Beyond the Getting Started Guide
 ################################

 The :ref:`getting_started` gives a straight-forward path to set up
 your Linux, macOS, or Windows environment for Zephyr development. In
 this document, we delve deeper into Zephyr development setup
 issues and alternatives.

 .. _python-pip:

 Python and pip
 **************

 Python 3 and its package manager, pip\ [#pip]_, are used extensively by Zephyr
 to install and run scripts required to compile and run Zephyr
 applications, set up and maintain the Zephyr development environment,
 and build project documentation.

 Depending on your operating system, you may need to provide the
 ``--user`` flag to the ``pip3`` command when installing new packages. This is
 documented throughout the instructions.
 See `Installing Packages`_ in the Python Packaging User Guide for more
 information about pip\ [#pip]_, including `information on -\\-user`_.

 - On Linux, make sure ``~/.local/bin`` is at the front of your :envvar:`PATH`
   :ref:`environment variable <env_vars>`, or programs installed with ``--user``
   won't be found. Installing with ``--user`` avoids conflicts between pip
   and the system package manager, and is the default on Debian-based
   distributions.

 - On macOS, `Homebrew disables -\\-user`_.

 - On Windows, see the `Installing Packages`_ information on ``--user`` if you
   require using this option.

 On all operating systems, pip's ``-U`` flag installs or updates the package if the
 package is already installed locally but a more recent version is available. It
 is good practice to use this flag if the latest version of a package is
 required.  (Check the :zephyr_file:`scripts/requirements.txt` file to
 see if a specific Python package version is expected.)

 Advanced Platform Setup
 ***********************

 Here are some alternative instructions for more advanced platform setup
 configurations for supported development platforms:

 .. toctree::
    :maxdepth: 1

    Linux setup alternatives <getting_started/installation_linux.rst>
    macOS setup alternatives <getting_started/installation_mac.rst>
    Windows setup alternatives <getting_started/installation_win.rst>

 .. _gs_toolchain:

 Install a Toolchain
 *******************

 Zephyr binaries are compiled and linked by a *toolchain* comprised of
 a cross-compiler and related tools which are different from the compiler
 and tools used for developing software that runs natively on your host
 operating system.

 You can install the :ref:`Zephyr SDK <toolchain_zephyr_sdk>` to get toolchains for all
 supported architectures, or install an :ref:`alternate toolchain <toolchains>`
 recommended by the SoC vendor or a specific board (check your specific
 :ref:`board-level documentation <boards>`).

 You can configure the Zephyr build system to use a specific toolchain by
 setting :ref:`environment variables <env_vars>` such as
 :envvar:`ZEPHYR_TOOLCHAIN_VARIANT <{TOOLCHAIN}_TOOLCHAIN_PATH>` to a supported
 value, along with additional variable(s) specific to the toolchain variant.

 .. _gs_toolchain_update:

 Updating the Zephyr SDK toolchain
 *********************************

 When updating Zephyr SDK, check whether the :envvar:`ZEPHYR_TOOLCHAIN_VARIANT`
 or :envvar:`ZEPHYR_SDK_INSTALL_DIR` environment variables are already set.

 * If the variables are not set, the latest compatible version of Zephyr SDK will be selected
   by default. Proceed to next step without making any changes.

 * If :envvar:`ZEPHYR_TOOLCHAIN_VARIANT` is set, the corresponding toolchain will be selected
   at build time. Zephyr SDK is identified by the value ``zephyr``.
   If the :envvar:`ZEPHYR_TOOLCHAIN_VARIANT` environment variable is not ``zephyr``, then either
   unset it or change its value to ``zephyr`` to make sure Zephyr SDK is selected.

 * If the :envvar:`ZEPHYR_SDK_INSTALL_DIR` environment variable is set, it will override
   the default lookup location for Zephyr SDK. If you install Zephyr SDK to one
   of the :ref:`recommended locations <toolchain_zephyr_sdk_bundle_variables>`,
   you can unset this variable. Otherwise, set it to your chosen install location.

 For more information about these environment variables in Zephyr, see :ref:`env_vars_important`.

 Cloning the Zephyr Repositories
 *******************************

 The Zephyr project source is maintained in the `GitHub zephyr repo
 <https://github.com/zephyrproject-rtos/zephyr>`_. External modules used
 by Zephyr are found in the parent `GitHub Zephyr project
 <https://github.com/zephyrproject-rtos/>`_.  Because of these
 dependencies, it's convenient to use the Zephyr-created :ref:`west
 <west>` tool to fetch and manage the Zephyr and external module source
 code.  See :ref:`west-basics` for more details.

 Once your development tools are installed, use :ref:`west` to create,
 initialize, and download sources from the zephyr and external module
 repos.  We'll use the name ``zephyrproject``, but you can choose any
 name that does not contain a space anywhere in the path.

 .. code-block:: console

    west init zephyrproject
    cd zephyrproject
    west update

 The ``west update`` command fetches and keeps :ref:`modules` in the
 :file:`zephyrproject` folder in sync with the code in the local zephyr
 repo.

 .. warning::

    You must run ``west update`` any time the :file:`zephyr/west.yml`
    changes, caused, for example, when you pull the :file:`zephyr`
    repository, switch branches in it, or perform a ``git bisect`` inside of
    it.

 Keeping Zephyr updated
 ======================

 To update the Zephyr project source code, you need to get the latest
 changes via ``git``. Afterwards, run ``west update`` as mentioned in
 the previous paragraph.

 .. code-block:: console

    # replace zephyrproject with the path you gave west init
    cd zephyrproject/zephyr
    git pull
    west update

 Export Zephyr CMake package
 ***************************

 The :ref:`cmake_pkg` can be exported to CMake's user package registry if it has
 not already been done as part of :ref:`getting_started`.

 .. _gs-board-aliases:

 Board Aliases
 *************

 Developers who work with multiple boards may find explicit board names
 cumbersome and want to use aliases for common targets.  This is
 supported by a CMake file with content like this:

 .. code-block:: cmake

    # Variable foo_BOARD_ALIAS=bar replaces BOARD=foo with BOARD=bar and
    # sets BOARD_ALIAS=foo in the CMake cache.
    set(pca10028_BOARD_ALIAS nrf51dk_nrf51422)
    set(pca10056_BOARD_ALIAS nrf52840dk_nrf52840)
    set(k64f_BOARD_ALIAS frdm_k64f)
    set(sltb004a_BOARD_ALIAS efr32mg_sltb004a)

 and specifying its location in :envvar:`ZEPHYR_BOARD_ALIASES`.  This
 enables use of aliases ``pca10028`` in contexts like
 ``cmake -DBOARD=pca10028`` and ``west -b pca10028``.

 Build and Run an Application
 ****************************

 You can build, flash, and run Zephyr applications on real
 hardware using a supported host system. Depending on your operating system,
 you can also run it in emulation with QEMU, or as a native POSIX application.
 Additional information about building applications can be found in the
 :ref:`build_an_application` section.

 Build Blinky
 ============

 Let's build the :ref:`blinky-sample` sample application.

 Zephyr applications are built to run on specific hardware, called a
 "board"\ [#board_misnomer]_. We'll use the Phytec :ref:`reel_board
 <reel_board>` here, but you can change the ``reel_board`` build target
 to another value if you have a different board. See :ref:`boards` or run
 ``west boards`` from anywhere inside the ``zephyrproject`` directory for
 a list of supported boards.

 #. Go to the zephyr repository:

    .. code-block:: console

       cd zephyrproject/zephyr

 #. Build the blinky sample for the ``reel_board``:

    .. zephyr-app-commands::
       :app: samples/basic/blinky
       :board: reel_board
       :goals: build

 The main build products will be in :file:`build/zephyr`;
 :file:`build/zephyr/zephyr.elf` is the blinky application binary in ELF
 format. Other binary formats, disassembly, and map files may be present
 depending on your board.

 The other sample applications in the :zephyr_file:`samples` folder are
 documented in :ref:`samples-and-demos`.

 .. note:: If you want to re-use an
    existing build directory for another board or application, you need to
    add the parameter ``-p=auto`` to ``west build`` to clean out settings
    and artifacts from the previous build.

 Run the Application by Flashing to a Board
 ==========================================

 Most hardware boards supported by Zephyr can be flashed by running
 ``west flash``. This may require board-specific tool installation and
 configuration to work properly.

 See :ref:`application_run` and your specific board's documentation in
 :ref:`boards` for additional details.

 .. _setting-udev-rules:

 Setting udev rules
 ===================

 Flashing a board requires permission to directly access the board
 hardware, usually managed by installation of the flashing tools.  On
 Linux systems, if the ``west flash`` command fails, you likely need to
 define udev rules to grant the needed access permission.

 Udev is a device manager for the Linux kernel and the udev daemon
 handles all user space events raised when a hardware device is added (or
 removed) from the system.  We can add a rules file to grant access
 permission by non-root users to certain USB-connected devices.

 The OpenOCD (On-Chip Debugger) project conveniently provides a rules
 file that defined board-specific rules for most Zephyr-supported
 arm-based boards, so we recommend installing this rules
 file by downloading it from their sourceforge repo, or if you've
 installed the Zephyr SDK there is a copy of this rules file in the SDK
 folder:

 * Either download the OpenOCD rules file and copy it to the right
   location::

      wget -O 60-openocd.rules https://sf.net/p/openocd/code/ci/master/tree/contrib/60-openocd.rules?format=raw
      sudo cp 60-openocd.rules /etc/udev/rules.d

 * or copy the rules file from the Zephyr SDK folder::

      sudo cp ${ZEPHYR_SDK_INSTALL_DIR}/sysroots/x86_64-pokysdk-linux/usr/share/openocd/contrib/60-openocd.rules /etc/udev/rules.d

 Then, in either case, ask the udev daemon to reload these rules::

    sudo udevadm control --reload

 Unplug and plug in the USB connection to your board, and you should have
 permission to access the board hardware for flashing. Check your
 board-specific documentation (:ref:`boards`) for further information if
 needed.

 Run the Application in QEMU
 ===========================

 On Linux and macOS, you can run Zephyr applications via emulation on your host
 system using `QEMU <https://www.qemu.org/>`_ when targeting either
 the x86 or ARM Cortex-M3 architectures. (QEMU is included with the Zephyr
 SDK installation.)

 For example, you can build and run the :ref:`hello_world` sample using
 the x86 emulation board configuration (``qemu_x86``), with:

 .. zephyr-app-commands::
    :zephyr-app: samples/hello_world
    :host-os: unix
    :board: qemu_x86
    :goals: build run

 To exit QEMU, type :kbd:`Ctrl-a`, then :kbd:`x`.

 Use ``qemu_cortex_m3`` to target an emulated Arm Cortex-M3 sample.

 .. _gs_posix:

 Run a Sample Application natively (POSIX OS)
 ============================================

 You can compile some samples to run as host processes
 on a POSIX OS. This is currently only tested on Linux hosts. See
 :ref:`native_posix` for more information. On 64-bit host operating systems, you
 need to install a 32-bit C library; see :ref:`native_posix_deps` for details.

 First, build Hello World for ``native_posix``.

 .. zephyr-app-commands::
    :zephyr-app: samples/hello_world
    :host-os: unix
    :board: native_posix
    :goals: build

 Next, run the application.

 .. code-block:: console

    west build -t run
    # or just run zephyr.exe directly:
    ./build/zephyr/zephyr.exe

 Press :kbd:`Ctrl-C` to exit.

 You can run ``./build/zephyr/zephyr.exe --help`` to get a list of available
 options.

 This executable can be instrumented using standard tools, such as gdb or
 valgrind.

 .. rubric:: Footnotes

 .. [#pip]

    pip is Python's package installer. Its ``install`` command first tries to
    re-use packages and package dependencies already installed on your computer.
    If that is not possible, ``pip install`` downloads them from the Python
    Package Index (PyPI) on the Internet.

    The package versions requested by Zephyr's :file:`requirements.txt` may
    conflict with other requirements on your system, in which case you may
    want to set up a virtualenv for Zephyr development.

 .. [#board_misnomer]

    This has become something of a misnomer over time. While the target can be,
    and often is, a microprocessor running on its own dedicated hardware
    board, Zephyr also supports using QEMU to run targets built for other
    architectures in emulation, targets which produce native host system
    binaries that implement Zephyr's driver interfaces with POSIX APIs, and even
    running different Zephyr-based binaries on CPU cores of differing
    architectures on the same physical chip. Each of these hardware
    configurations is called a "board," even though that doesn't always make
    perfect sense in context.

 .. _information on -\\-user:
  https://packaging.python.org/tutorials/installing-packages/#installing-to-the-user-site
 .. _Homebrew disables -\\-user:
  https://docs.brew.sh/Homebrew-and-Python#note-on-pip-install---user
 .. _Installing Packages:
  https://packaging.python.org/tutorials/installing-packages/
	.. _beyond-gsg:

	Beyond the Getting Started Guide
	################################

	The :ref:`getting_started` gives a straight-forward path to set up
	your Linux, macOS, or Windows environment for Zephyr development. In
	this document, we delve deeper into Zephyr development setup
	issues and alternatives.

	.. _python-pip:

	Python and pip
	**************

	Python 3 and its package manager, pip\ [#pip]_, are used extensively by Zephyr
	to install and run scripts required to compile and run Zephyr
	applications, set up and maintain the Zephyr development environment,
	and build project documentation.

	Depending on your operating system, you may need to provide the
	``--user`` flag to the ``pip3`` command when installing new packages. This is
	documented throughout the instructions.
	See `Installing Packages`_ in the Python Packaging User Guide for more
	information about pip\ [#pip]_, including `information on -\\-user`_.

	- On Linux, make sure ``~/.local/bin`` is at the front of your :envvar:`PATH`
	:ref:`environment variable <env_vars>`, or programs installed with ``--user``
	won't be found. Installing with ``--user`` avoids conflicts between pip
	and the system package manager, and is the default on Debian-based
	distributions.

	- On macOS, `Homebrew disables -\\-user`_.

	- On Windows, see the `Installing Packages`_ information on ``--user`` if you
	require using this option.

	On all operating systems, pip's ``-U`` flag installs or updates the package if the
	package is already installed locally but a more recent version is available. It
	is good practice to use this flag if the latest version of a package is
	required. (Check the :zephyr_file:`scripts/requirements.txt` file to
	see if a specific Python package version is expected.)

	Advanced Platform Setup
	***********************

	Here are some alternative instructions for more advanced platform setup
	configurations for supported development platforms:

	.. toctree::
	:maxdepth: 1

	Linux setup alternatives <getting_started/installation_linux.rst>
	macOS setup alternatives <getting_started/installation_mac.rst>
	Windows setup alternatives <getting_started/installation_win.rst>

	.. _gs_toolchain:

	Install a Toolchain
	*******************

	Zephyr binaries are compiled and linked by a toolchain comprised of
	a cross-compiler and related tools which are different from the compiler
	and tools used for developing software that runs natively on your host
	operating system.

	You can install the :ref:`Zephyr SDK <toolchain_zephyr_sdk>` to get toolchains for all
	supported architectures, or install an :ref:`alternate toolchain <toolchains>`
	recommended by the SoC vendor or a specific board (check your specific
	:ref:`board-level documentation <boards>`).

	You can configure the Zephyr build system to use a specific toolchain by
	setting :ref:`environment variables <env_vars>` such as
	:envvar:`ZEPHYR_TOOLCHAIN_VARIANT <{TOOLCHAIN}_TOOLCHAIN_PATH>` to a supported
	value, along with additional variable(s) specific to the toolchain variant.

	.. _gs_toolchain_update:

	Updating the Zephyr SDK toolchain
	*********************************

	When updating Zephyr SDK, check whether the :envvar:`ZEPHYR_TOOLCHAIN_VARIANT`
	or :envvar:`ZEPHYR_SDK_INSTALL_DIR` environment variables are already set.

	* If the variables are not set, the latest compatible version of Zephyr SDK will be selected
	by default. Proceed to next step without making any changes.

	* If :envvar:`ZEPHYR_TOOLCHAIN_VARIANT` is set, the corresponding toolchain will be selected
	at build time. Zephyr SDK is identified by the value ``zephyr``.
	If the :envvar:`ZEPHYR_TOOLCHAIN_VARIANT` environment variable is not ``zephyr``, then either
	unset it or change its value to ``zephyr`` to make sure Zephyr SDK is selected.

	* If the :envvar:`ZEPHYR_SDK_INSTALL_DIR` environment variable is set, it will override
	the default lookup location for Zephyr SDK. If you install Zephyr SDK to one
	of the :ref:`recommended locations <toolchain_zephyr_sdk_bundle_variables>`,
	you can unset this variable. Otherwise, set it to your chosen install location.

	For more information about these environment variables in Zephyr, see :ref:`env_vars_important`.

	Cloning the Zephyr Repositories
	*******************************

	The Zephyr project source is maintained in the `GitHub zephyr repo
	<https://github.com/zephyrproject-rtos/zephyr>`_. External modules used
	by Zephyr are found in the parent `GitHub Zephyr project
	<https://github.com/zephyrproject-rtos/>`_. Because of these
	dependencies, it's convenient to use the Zephyr-created :ref:`west
	<west>` tool to fetch and manage the Zephyr and external module source
	code. See :ref:`west-basics` for more details.

	Once your development tools are installed, use :ref:`west` to create,
	initialize, and download sources from the zephyr and external module
	repos. We'll use the name ``zephyrproject``, but you can choose any
	name that does not contain a space anywhere in the path.

	.. code-block:: console

	west init zephyrproject
	cd zephyrproject
	west update

	The ``west update`` command fetches and keeps :ref:`modules` in the
	:file:`zephyrproject` folder in sync with the code in the local zephyr
	repo.

	.. warning::

	You must run ``west update`` any time the :file:`zephyr/west.yml`
	changes, caused, for example, when you pull the :file:`zephyr`
	repository, switch branches in it, or perform a ``git bisect`` inside of
	it.

	Keeping Zephyr updated
	======================

	To update the Zephyr project source code, you need to get the latest
	changes via ``git``. Afterwards, run ``west update`` as mentioned in
	the previous paragraph.

	.. code-block:: console

	# replace zephyrproject with the path you gave west init
	cd zephyrproject/zephyr
	git pull
	west update

	Export Zephyr CMake package
	***************************

	The :ref:`cmake_pkg` can be exported to CMake's user package registry if it has
	not already been done as part of :ref:`getting_started`.

	.. _gs-board-aliases:

	Board Aliases
	*************

	Developers who work with multiple boards may find explicit board names
	cumbersome and want to use aliases for common targets. This is
	supported by a CMake file with content like this:

	.. code-block:: cmake

	# Variable foo_BOARD_ALIAS=bar replaces BOARD=foo with BOARD=bar and
	# sets BOARD_ALIAS=foo in the CMake cache.
	set(pca10028_BOARD_ALIAS nrf51dk_nrf51422)
	set(pca10056_BOARD_ALIAS nrf52840dk_nrf52840)
	set(k64f_BOARD_ALIAS frdm_k64f)
	set(sltb004a_BOARD_ALIAS efr32mg_sltb004a)

	and specifying its location in :envvar:`ZEPHYR_BOARD_ALIASES`. This
	enables use of aliases ``pca10028`` in contexts like
	``cmake -DBOARD=pca10028`` and ``west -b pca10028``.

	Build and Run an Application
	****************************

	You can build, flash, and run Zephyr applications on real
	hardware using a supported host system. Depending on your operating system,
	you can also run it in emulation with QEMU, or as a native POSIX application.
	Additional information about building applications can be found in the
	:ref:`build_an_application` section.

	Build Blinky
	============

	Let's build the :ref:`blinky-sample` sample application.

	Zephyr applications are built to run on specific hardware, called a
	"board"\ [#board_misnomer]_. We'll use the Phytec :ref:`reel_board
	<reel_board>` here, but you can change the ``reel_board`` build target
	to another value if you have a different board. See :ref:`boards` or run
	``west boards`` from anywhere inside the ``zephyrproject`` directory for
	a list of supported boards.

	#. Go to the zephyr repository:

	.. code-block:: console

	cd zephyrproject/zephyr

	#. Build the blinky sample for the ``reel_board``:

	.. zephyr-app-commands::
	:app: samples/basic/blinky
	:board: reel_board
	:goals: build

	The main build products will be in :file:`build/zephyr`;
	:file:`build/zephyr/zephyr.elf` is the blinky application binary in ELF
	format. Other binary formats, disassembly, and map files may be present
	depending on your board.

	The other sample applications in the :zephyr_file:`samples` folder are
	documented in :ref:`samples-and-demos`.

	.. note:: If you want to re-use an
	existing build directory for another board or application, you need to
	add the parameter ``-p=auto`` to ``west build`` to clean out settings
	and artifacts from the previous build.

	Run the Application by Flashing to a Board
	==========================================

	Most hardware boards supported by Zephyr can be flashed by running
	``west flash``. This may require board-specific tool installation and
	configuration to work properly.

	See :ref:`application_run` and your specific board's documentation in
	:ref:`boards` for additional details.

	.. _setting-udev-rules:

	Setting udev rules
	===================

	Flashing a board requires permission to directly access the board
	hardware, usually managed by installation of the flashing tools. On
	Linux systems, if the ``west flash`` command fails, you likely need to
	define udev rules to grant the needed access permission.

	Udev is a device manager for the Linux kernel and the udev daemon
	handles all user space events raised when a hardware device is added (or
	removed) from the system. We can add a rules file to grant access
	permission by non-root users to certain USB-connected devices.

	The OpenOCD (On-Chip Debugger) project conveniently provides a rules
	file that defined board-specific rules for most Zephyr-supported
	arm-based boards, so we recommend installing this rules
	file by downloading it from their sourceforge repo, or if you've
	installed the Zephyr SDK there is a copy of this rules file in the SDK
	folder:

	* Either download the OpenOCD rules file and copy it to the right
	location::

	wget -O 60-openocd.rules https://sf.net/p/openocd/code/ci/master/tree/contrib/60-openocd.rules?format=raw
	sudo cp 60-openocd.rules /etc/udev/rules.d

	* or copy the rules file from the Zephyr SDK folder::

	sudo cp ${ZEPHYR_SDK_INSTALL_DIR}/sysroots/x86_64-pokysdk-linux/usr/share/openocd/contrib/60-openocd.rules /etc/udev/rules.d

	Then, in either case, ask the udev daemon to reload these rules::

	sudo udevadm control --reload

	Unplug and plug in the USB connection to your board, and you should have
	permission to access the board hardware for flashing. Check your
	board-specific documentation (:ref:`boards`) for further information if
	needed.

	Run the Application in QEMU
	===========================

	On Linux and macOS, you can run Zephyr applications via emulation on your host
	system using `QEMU <https://www.qemu.org/>`_ when targeting either
	the x86 or ARM Cortex-M3 architectures. (QEMU is included with the Zephyr
	SDK installation.)

	For example, you can build and run the :ref:`hello_world` sample using
	the x86 emulation board configuration (``qemu_x86``), with:

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:host-os: unix
	:board: qemu_x86
	:goals: build run

	To exit QEMU, type :kbd:`Ctrl-a`, then :kbd:`x`.

	Use ``qemu_cortex_m3`` to target an emulated Arm Cortex-M3 sample.

	.. _gs_posix:

	Run a Sample Application natively (POSIX OS)
	============================================

	You can compile some samples to run as host processes
	on a POSIX OS. This is currently only tested on Linux hosts. See
	:ref:`native_posix` for more information. On 64-bit host operating systems, you
	need to install a 32-bit C library; see :ref:`native_posix_deps` for details.

	First, build Hello World for ``native_posix``.

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:host-os: unix
	:board: native_posix
	:goals: build

	Next, run the application.

	.. code-block:: console

	west build -t run
	# or just run zephyr.exe directly:
	./build/zephyr/zephyr.exe

	Press :kbd:`Ctrl-C` to exit.

	You can run ``./build/zephyr/zephyr.exe --help`` to get a list of available
	options.

	This executable can be instrumented using standard tools, such as gdb or
	valgrind.

	.. rubric:: Footnotes

	.. [#pip]

	pip is Python's package installer. Its ``install`` command first tries to
	re-use packages and package dependencies already installed on your computer.
	If that is not possible, ``pip install`` downloads them from the Python
	Package Index (PyPI) on the Internet.

	The package versions requested by Zephyr's :file:`requirements.txt` may
	conflict with other requirements on your system, in which case you may
	want to set up a virtualenv for Zephyr development.

	.. [#board_misnomer]

	This has become something of a misnomer over time. While the target can be,
	and often is, a microprocessor running on its own dedicated hardware
	board, Zephyr also supports using QEMU to run targets built for other
	architectures in emulation, targets which produce native host system
	binaries that implement Zephyr's driver interfaces with POSIX APIs, and even
	running different Zephyr-based binaries on CPU cores of differing
	architectures on the same physical chip. Each of these hardware
	configurations is called a "board," even though that doesn't always make
	perfect sense in context.

	.. _information on -\\-user:
	https://packaging.python.org/tutorials/installing-packages/#installing-to-the-user-site
	.. _Homebrew disables -\\-user:
	https://docs.brew.sh/Homebrew-and-Python#note-on-pip-install---user
	.. _Installing Packages:
	https://packaging.python.org/tutorials/installing-packages/