doc/build/gcc.rst - u-boot - Git at Google

 Building with GCC
 =================

 Dependencies
 ------------

 For building U-Boot you need a GCC compiler for your host platform. If you
 are not building on the target platform you further need  a GCC cross compiler.

 Debian based
 ~~~~~~~~~~~~

 On Debian based systems the cross compiler packages are named
 gcc-<architecture>-linux-gnu.

 You could install GCC and the GCC cross compiler for the ARMv8 architecture with

 .. code-block:: bash

     sudo apt-get install gcc gcc-aarch64-linux-gnu

 Depending on the build targets further packages maybe needed

 .. code-block:: bash

     sudo apt-get install bc bison build-essential coccinelle \
       device-tree-compiler dfu-util efitools flex gdisk graphviz imagemagick \
       liblz4-tool libgnutls28-dev libguestfs-tools libncurses-dev \
       libpython3-dev libsdl2-dev libssl-dev lz4 lzma lzma-alone openssl \
       pkg-config python3 python3-asteval python3-coverage python3-filelock \
       python3-pkg-resources python3-pycryptodome python3-pyelftools \
       python3-pytest python3-pytest-xdist python3-sphinxcontrib.apidoc \
       python3-sphinx-rtd-theme python3-subunit python3-testtools \
       python3-virtualenv swig uuid-dev

 SUSE based
 ~~~~~~~~~~

 On suse based systems the cross compiler packages are named
 cross-<architecture>-gcc<version>.

 You could install GCC and the GCC 10 cross compiler for the ARMv8 architecture
 with

 .. code-block:: bash

     sudo zypper install gcc cross-aarch64-gcc10

 Depending on the build targets further packages maybe needed.

 .. code-block:: bash

     zypper install bc bison flex gcc libopenssl-devel libSDL2-devel make \
       ncurses-devel python3-devel python3-pytest swig

 Alpine Linux
 ~~~~~~~~~~~~

 For building U-Boot on Alpine Linux at least the following packages are needed:

 .. code-block:: bash

     apk add alpine-sdk bc bison dtc flex gnutls-dev linux-headers ncurses-dev \
       openssl-dev py3-elftools py3-setuptools python3-dev swig util-linux-dev

 Depending on the build target further packages may be needed:

 * sandbox with lcd: sdl2-dev
 * riscv64 S-mode targets: opensbi
 * some arm64 targets: arm-trusted-firmware

 Prerequisites
 -------------

 For some boards you have to build prerequisite files before you can build
 U-Boot, e.g. for the some boards you will need to build the ARM Trusted Firmware
 beforehand. Please, refer to the board specific documentation
 :doc:`../board/index`.

 Configuration
 -------------

 Directory configs/ contains the template configuration files for the maintained
 boards following the naming scheme::

     <board name>_defconfig

 These files have been stripped of default settings. So you cannot use them
 directly. Instead their name serves as a make target to generate the actual
 configuration file .config. For instance the configuration template for the
 Odroid C2 board is called odroid-c2_defconfig. The corresponding .config file
 is generated by

 .. code-block:: bash

     make odroid-c2_defconfig

 You can adjust the configuration using

 .. code-block:: bash

     make menuconfig

 Building
 --------

 When cross compiling you will have to specify the prefix of the cross-compiler.
 You can either specify the value of the CROSS_COMPILE variable on the make
 command line or export it beforehand.

 .. code-block:: bash

     CROSS_COMPILE=<compiler-prefix> make

 Assuming cross compiling on Debian for ARMv8 this would be

 .. code-block:: bash

     CROSS_COMPILE=aarch64-linux-gnu- make

 Build parameters
 ~~~~~~~~~~~~~~~~

 A list of available parameters for the make command can be obtained via

 .. code-block:: bash

     make help

 You can speed up compilation by parallelization using the -j parameter, e.g.

 .. code-block:: bash

     CROSS_COMPILE=aarch64-linux-gnu- make -j$(nproc)

 Further important build parameters are

 * O=<dir> - generate all output files in directory <dir>, including .config
 * V=1 - verbose build

 Devicetree compiler
 ~~~~~~~~~~~~~~~~~~~

 Boards that use `CONFIG_OF_CONTROL` (i.e. almost all of them) need the
 devicetree compiler (dtc). Those with `CONFIG_PYLIBFDT` need pylibfdt, a Python
 library for accessing devicetree data. Suitable versions of these are included
 in the U-Boot tree in `scripts/dtc` and built automatically as needed.

 To use the system versions of these, use the DTC parameter, for example

 .. code-block:: bash

     DTC=/usr/bin/dtc make

 In this case, dtc and pylibfdt are not built. The build checks that the version
 of dtc is new enough. It also makes sure that pylibfdt is present, if needed
 (see `scripts_dtc` in the Makefile).

 Note that the :doc:`tools` are always built with the included version of libfdt
 so it is not possible to build U-Boot tools with a system libfdt, at present.

 Link-time optimisation (LTO)
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 U-Boot supports link-time optimisation which can reduce the size of the final
 U-Boot binaries, particularly with SPL.

 At present this can be enabled by ARM boards by adding `CONFIG_LTO=y` into the
 defconfig file. Other architectures are not supported. LTO is enabled by default
 for sandbox.

 This does incur a link-time penalty of several seconds. For faster incremental
 builds during development, you can disable it by setting `NO_LTO` to `1`.

 .. code-block:: bash

     NO_LTO=1 make

 Other build targets
 ~~~~~~~~~~~~~~~~~~~

 A list of all make targets can be obtained via

 .. code-block:: bash

     make help

 Important ones are

 * clean - remove most generated files but keep the configuration
 * mrproper - remove all generated files + config + various backup files

 Installation
 ------------

 The process for installing U-Boot on the target device is device specific.
 Please, refer to the board specific documentation :doc:`../board/index`.
	Building with GCC
	=================

	Dependencies
	------------

	For building U-Boot you need a GCC compiler for your host platform. If you
	are not building on the target platform you further need a GCC cross compiler.

	Debian based
	~~~~~~~~~~~~

	On Debian based systems the cross compiler packages are named
	gcc-<architecture>-linux-gnu.

	You could install GCC and the GCC cross compiler for the ARMv8 architecture with

	.. code-block:: bash

	sudo apt-get install gcc gcc-aarch64-linux-gnu

	Depending on the build targets further packages maybe needed

	.. code-block:: bash

	sudo apt-get install bc bison build-essential coccinelle \
	device-tree-compiler dfu-util efitools flex gdisk graphviz imagemagick \
	liblz4-tool libgnutls28-dev libguestfs-tools libncurses-dev \
	libpython3-dev libsdl2-dev libssl-dev lz4 lzma lzma-alone openssl \
	pkg-config python3 python3-asteval python3-coverage python3-filelock \
	python3-pkg-resources python3-pycryptodome python3-pyelftools \
	python3-pytest python3-pytest-xdist python3-sphinxcontrib.apidoc \
	python3-sphinx-rtd-theme python3-subunit python3-testtools \
	python3-virtualenv swig uuid-dev

	SUSE based
	~~~~~~~~~~

	On suse based systems the cross compiler packages are named
	cross-<architecture>-gcc<version>.

	You could install GCC and the GCC 10 cross compiler for the ARMv8 architecture
	with

	.. code-block:: bash

	sudo zypper install gcc cross-aarch64-gcc10

	Depending on the build targets further packages maybe needed.

	.. code-block:: bash

	zypper install bc bison flex gcc libopenssl-devel libSDL2-devel make \
	ncurses-devel python3-devel python3-pytest swig

	Alpine Linux
	~~~~~~~~~~~~

	For building U-Boot on Alpine Linux at least the following packages are needed:

	.. code-block:: bash

	apk add alpine-sdk bc bison dtc flex gnutls-dev linux-headers ncurses-dev \
	openssl-dev py3-elftools py3-setuptools python3-dev swig util-linux-dev

	Depending on the build target further packages may be needed:

	* sandbox with lcd: sdl2-dev
	* riscv64 S-mode targets: opensbi
	* some arm64 targets: arm-trusted-firmware

	Prerequisites
	-------------

	For some boards you have to build prerequisite files before you can build
	U-Boot, e.g. for the some boards you will need to build the ARM Trusted Firmware
	beforehand. Please, refer to the board specific documentation
	:doc:`../board/index`.

	Configuration
	-------------

	Directory configs/ contains the template configuration files for the maintained
	boards following the naming scheme::

	<board name>_defconfig

	These files have been stripped of default settings. So you cannot use them
	directly. Instead their name serves as a make target to generate the actual
	configuration file .config. For instance the configuration template for the
	Odroid C2 board is called odroid-c2_defconfig. The corresponding .config file
	is generated by

	.. code-block:: bash

	make odroid-c2_defconfig

	You can adjust the configuration using

	.. code-block:: bash

	make menuconfig

	Building
	--------

	When cross compiling you will have to specify the prefix of the cross-compiler.
	You can either specify the value of the CROSS_COMPILE variable on the make
	command line or export it beforehand.

	.. code-block:: bash

	CROSS_COMPILE=<compiler-prefix> make

	Assuming cross compiling on Debian for ARMv8 this would be

	.. code-block:: bash

	CROSS_COMPILE=aarch64-linux-gnu- make

	Build parameters
	~~~~~~~~~~~~~~~~

	A list of available parameters for the make command can be obtained via

	.. code-block:: bash

	make help

	You can speed up compilation by parallelization using the -j parameter, e.g.

	.. code-block:: bash

	CROSS_COMPILE=aarch64-linux-gnu- make -j$(nproc)

	Further important build parameters are

	* O=<dir> - generate all output files in directory <dir>, including .config
	* V=1 - verbose build

	Devicetree compiler
	~~~~~~~~~~~~~~~~~~~

	Boards that use `CONFIG_OF_CONTROL` (i.e. almost all of them) need the
	devicetree compiler (dtc). Those with `CONFIG_PYLIBFDT` need pylibfdt, a Python
	library for accessing devicetree data. Suitable versions of these are included
	in the U-Boot tree in `scripts/dtc` and built automatically as needed.

	To use the system versions of these, use the DTC parameter, for example

	.. code-block:: bash

	DTC=/usr/bin/dtc make

	In this case, dtc and pylibfdt are not built. The build checks that the version
	of dtc is new enough. It also makes sure that pylibfdt is present, if needed
	(see `scripts_dtc` in the Makefile).

	Note that the :doc:`tools` are always built with the included version of libfdt
	so it is not possible to build U-Boot tools with a system libfdt, at present.

	Link-time optimisation (LTO)
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	U-Boot supports link-time optimisation which can reduce the size of the final
	U-Boot binaries, particularly with SPL.

	At present this can be enabled by ARM boards by adding `CONFIG_LTO=y` into the
	defconfig file. Other architectures are not supported. LTO is enabled by default
	for sandbox.

	This does incur a link-time penalty of several seconds. For faster incremental
	builds during development, you can disable it by setting `NO_LTO` to `1`.

	.. code-block:: bash

	NO_LTO=1 make

	Other build targets
	~~~~~~~~~~~~~~~~~~~

	A list of all make targets can be obtained via

	.. code-block:: bash

	make help

	Important ones are

	* clean - remove most generated files but keep the configuration
	* mrproper - remove all generated files + config + various backup files

	Installation
	------------

	The process for installing U-Boot on the target device is device specific.
	Please, refer to the board specific documentation :doc:`../board/index`.