--- title: Build GNU Boot binaries ... This guide documents how to compile GNU Boot binaries from the available source code. At the time of writing users wanting to build binaries need to download the [GNU Boot source code](https://git.savannah.gnu.org/cgit/gnuboot.git/) with git. Supported distributions for building GNU Boot binaries: ======================================================= GNU Boot is currently based on the latest version of Libreboot that doesn't ship nonfree software, and it also uses an older version of Coreboot to support certain computers that are not supported anymore in Coreboot. Because of that the versions of various software that GNU Boot builds are old and cannot be built anymore on recent distributions. While there is work to fix that by both updating that software to more recent versions and to also also allow to build older versions on newer distributions, in the meantime we need to workaround this issue by using specific distributions to build GNU Boot. People managed to build GNU Boot with the following distributions: * PureOS 10 (byzantium) * Trisquel 10 (nabia) * Trisquel 11 (aramo) And these cannot build GNU Boot yet: * Guix: The issue is documented in the [Bug #66188](https://savannah.gnu.org/bugs/index.php?66188) If you don't use PureOS 10 (byzantium) or Trisquel 10 (nabia), there are many ways to run them on top of other GNU/Linux distributions. If you run Guix (either as an operating system or on top of another distribution), Parabola, Trisquel 10 (nabia), Trisquel 11 (aramo), you can use debootstrap to create a chroot of Trisquel 10 (nabia) or PureOS 10 (byzantium). Here are the packages you need to install depending on your distribution: +----------------+-----------------------+-------------------------------------+ | Host distro | Chroot distro | Required packages | +----------------+-----------------------+-------------------------------------+ | Guix | PureOS 10 (byzantium) | debootstrap | +----------------+-----------------------+-------------------------------------+ | Guix | Trisquel 10 (nabia) | debootstrap | +----------------+-----------------------+-------------------------------------+ | Parabola | PureOS 10 (byzantium) | debootstrap, pureos-archive-keyring | +----------------+-----------------------+-------------------------------------+ | Parabola | Trisquel 10 (nabia) | debootstrap, trisquel-keyring | +----------------+-----------------------+-------------------------------------+ | Trisquel >= 10 | Trisquel 10 (nabia) | debootstrap, trisquel-keyring | +----------------+-----------------------+-------------------------------------+ Once you have a chroot, you can either configure it and chroot inside or convert it to run inside container engines like LXC, LXD, Docker (with debuerreotype if your distribution has a package for it), etc. It is also possible to install Trisquel 10 (nabia) or PureOS in a virtual machine. Note that PureOS doesn't sign its releases so we copied the official PureOS checksums found in several subdirectories in https://downloads.puri.sm/byzantium in resources/distros/pureos/20230614/ in the GNU Boot repository. The commits of GNU Boot are usually signed by its maintainers, so it's also possible to have a full chain of trust. PureOS also has docker images on Docker Hub, and it also [has one for PureOS byzantium](https://hub.docker.com/r/pureos/byzantium). On Docker Hub, The PureOS images made by Puri.sm are the only images that follow the [Free Distro Guidelines](https://www.gnu.org/distros/). Also note that it is not possible to easily check the integrity of images coming from docker hub so by using them you blindly trust Docker Hub. The only way to check the images is to create your own image and compare it with the one hosted on docker hub. Guix ==== While GNU Boot doesn't build yet on top of Guix, it started using some Guix packages to build part of GNU Boot. While this provides many benefits, you will need to install Guix on top of a supported distribution to build GNU Boot binaries. There are many ways to install Guix, and they are well documented in the [Guix manual](https://guix.gnu.org/en/manual/) especially in the [Installation](https://guix.gnu.org/en/manual/en/html_node/Installation.html) chapter. It is also a good idea to "enable substitutes" not to have to build every packages and dependencies from source. If the installation instructions you followed don't mention that, you can still find documentation on it in the [Substitutes chapter](https://guix.gnu.org/en/manual/en/guix.html#Substitutes) in the Guix manual. Once Guix is installed, users are advised to update it with guix pull as explained in the [Invoking guix pull](https://guix.gnu.org/en/manual/en/html_node/Invoking-guix-pull.html) manual section to avoid any potential security issues. In some cases (especially if you don't enable substitutes, and that you have many CPU cores and not enough RAM per cores), building with Guix can fail. At the time of writing, Guix can use about 2GiB per core for updates. Building packages can also use some RAM but the types of packages that GNU Boot will build are unlikely to require that much RAM per core. If even with substitutes enabled the build still fails due to the lack of RAM, or if you don't want to enable substitutes, it is also possible to limit the amount of RAM used by limiting the number of cores used by Guix by passing --with-guix-build-cores=1 to the GNU boot ./configure script. This will pass the '-c 1' and '-M 1' options to guix build. Finally Guix keeps the files it downloads or builds (in /gnu/store) in order to speed up things, but if you use Guix extensively, at some point it might use too much storage space. Guix users are able to to decide when to free up space by running the 'guix gc' command manually, but they can also control what to remove with various criteria. The [Invoking guix gc Guix manual section](https://guix.gnu.org/en/manual/devel/en/html_node/Invoking-guix-gc.html) has more details on how to do that. Building GNU Boot binaries ========================== The GNU Boot build system has some configuration options. While the defaults are good for most users, the way it is implemented requires you to run the following command first: ./autogen.sh And if you don't need to change the defaults, you can then run the following command: ./configure If you want to look at which settings can be changed you can use the following command which explains various options and how to do that: ./configure --help Once this is done, you can either use the `Makefile` or some shell scripts to build GNU Boot. The `Makefile` is much more simple to use but offers less flexibility (for instance there is a single command to build all images but no way to build an image for a specific computer). To build GNU Boot you must first ensure that all build dependencies are installed. If you are running Trisquel 10 (nabia) you can run the following command as it takes care of installing all the required dependencies for you: sudo make install-dependencies-ubuntu If instead you use PureOS 10 (byzantium) you can use the following command instead: sudo make install-dependencies-pureos-10 You can then build everything with this command: make release When the compilation ends this should have created images for all the computers supported by GNU Boot in release/roms/. For instance if you are building GNU Boot 0.1 RC1 the image for the Thinkpad X60 will be in release/roms/gnuboot-0.1-rc1_x60.tar.xz. It will also create an archive of all the upstream source code used to build GNU Boot but without any nonfree software in it. For GNU Boot 0.1 RC1 the archive will be in release/gnuboot-0.1-rc1_src.tar.xz. If you use git revisions that are not releases you might instead end up with something like '0.2-10-g1234abcdefg' instead of '0.1-rc1' inside the file names. For the curious, that part of the filename is computed with the 'git describe HEAD' command. If instead you only want to build all the images and not build an archive of the source code you can use this command: make If you only wish to build a limited set of images, you can use the build script directly: ./build boot roms x200_8mb You can specify more than one argument: ./build boot roms x200_8mb x60 ROM images appear under the newly created `bin/` directory in the build system. For other commands, simply read the `Makefile` in your favourite text editor. The `Makefile` is simple, because each commands run a simple script, so it's very easy to know what commands are available by simply reading it. Standard `clean` command available (cleans all modules except `crossgcc`): make clean To clean your `crossgcc` builds: make crossgcc-clean Build without using GNU Make ============================ The `Makefile` is included just for *compatibility*, so that someone who instictively types `make` will get a result. Actual development/testing is always done using the build, download, update or modify scripts directly, and this includes when building from source. Here are some instructions to get you started: First, install build dependencies --------------------------------- GNU Boot includes a script that automatically installs dependencies in Trisquel 10 (nabia): sudo ./build dependencies trisquel and for PureOS 10 (byzantium): sudo ./build dependencies pureos-10 The build script automatically runs all necessary commands; for example `./build payload grub` will automatically run `./build module grub` if the required utilities for GRUB are not built, to produce payloads. As a result, you can now (after installing the correct build dependencies) run just a single command, from a fresh Git clone, to build the ROM images: ./build boot roms or even just build specific ROM images, e.g.: ./build boot roms x60 If you wish to build payloads, you can also do that. For example: ./build payload grub ./build payload seabios Previous steps will be performed automatically. However, you can *still* run individual parts of the build system manually, if you choose. This may be beneficial when you're making changes, and you wish to test a specific part of GNU Boot. Therefore, if you only want to build ROM images, just do the above. Otherwise, please continue reading! Second, download all of the required software components -------------------------------------------------------- If you didn't simply run `./build boot roms` (with or without extra arguments), you can still perform the rest of the build process manually. It's as simple as that: ./download all The above command downloads all modules defined in the GNU Boot build system. However, you can download modules individually. This command shows you the list of available modules: ./download list Example of downloading an individual module: ./download coreboot ./download seabios ./download grub ./download i945-thinkpads-install-utilities Third, build all of the modules: -------------------------------- Building a module means that it needs to have already been downloaded. Currently, the build system does not automatically do pre-requisite steps such as this, so you must verify this yourself. Again, very simple: ./build module all This builds every module defined in the Libreboot build system, but you can build modules individually. The following command lists available modules: ./build module list Example of building specific modules: ./build module grub ./build module seabios ./build module i945-thinkpads-install-utilities Commands are available to *clean* a module, which basically runs make-clean. You can list these commands: ./build clean list Clean all modules like so: ./build clean all Example of cleaning specific modules: ./build clean grub ./build clean cbutils Fourth, build all of the payloads: --------------------------------- Very straight forward: ./build payload all You can list available payloads like so: ./build payload list Example of building specific payloads: ./build payload grub ./build payload seabios The build-payload command is is a prerequsite for building ROM images. Fifth, build the ROMs! ---------------------- Run this command: ./build boot roms Each board has its own configuration under `resources/coreboot/` which specifies which payloads are supported. By default, all ROM images are built, for all boards. If you wish to build just a specific board, you can specify the board name based on the directory name for it under `resources/coreboot/`. For example: ./build boot roms x60 Board names, like above, are the same as the directory names for each board, under `resources/coreboot/` in the build system. That's it! If all went well, ROM images should be available to you under bin/ See also: ========= If you want to contribute to the website instead, see the [website/README](https://git.savannah.gnu.org/cgit/gnuboot.git/tree/website/README) in the source code of GNU Boot.