NixOS на ARM/UEFI
This section of the NixOS on ARM documentation aims to document as much as possible about booting any ARM boards using UEFI. This will be written with a heavy bias about Single Board Computers (SBCs), as this is where booting is seen as complicated, cumbersome, when not described as impossible.
The Basics First
Target Support
Некоторые вещи не будут специфичны для UEFI. Например, поддержка плат используемым ядром. Это написано в предположении, что основной Linux работает на целевой системе настолько, что вы можете установить его из общего образа iso.
Just as you could on x86_64 if your platform required it, you can build a customized iso image. Explaining this is out of scope for this article. The same pitfalls apply. For example, the generated configuration will not take into account configuring the customized kernel.
Platform Firmware
Let's define what a Platform Firmware is. It is a generic term I'm using to describe the first thing the CPU starts at boot time. On your typical x86_64 system, it would be what was previously called the BIOS. Now often diminutively called by the name EFI. This is what initializes enough of the hardware so that the operating system can start. Additionally, it often provides facilities for the user to do basic configuration, and manage boot options.
In the ARM with SBCs landscape, U-Boot is the de facto solution for the Platform Firmware. Though U-Boot is confusingly, but rightly, often referred to as a Boot Loader. U-Boot plays double duties often. It is tasked with initializing the hardware, and often also used to handle loading and booting the operating system.
UEFI
The Unified Extensible Firmware Interface it not in itself a tangible thing. Wrongly abstracted, it is a specification used to provide an interface to describe a standard boot process, including an environment before the operating system starts, and protocols for operating systems.
There are multiple implementations of UEFI. Vendors like American Megatrends, Phoenix Technologies and Insyde Software may have produced the one on your personal x86_64 machine. TianoCore is the reference UEFI implementation, and Open Source. Luckily enough, U-Boot implements enough (and a bit more) of the UEFI spec.
SBBR? EBBR?
Other than letter salads, they are Server Base Boot Requirements and Embedded Base Boot Requirements. Two specifications for ARM. If your target is in compliance with either, booting with UEFI should already be supported. With the minimal UEFI support in U-Boot, targets that were not made to be EBBR compliant can be made compliant, or be close enough for what it matters.
UEFI, on my SBC???
Believe me or not, it's more likely that you can, if your SBC is well supported by mainline U-Boot. U-Boot provides enough UEFI to comply with EBBR, which in turn is enough to allow us to boot the AArch64 UEFI NixOS iso, and with almost no differences compared to the x86_64 guide, simply follow the installation instruction to boot into an installed system.
Getting a Platform Firmware
As an opinionated example, you can get started with Tow-Boot, a U-Boot distribution, which is intended to make the initial setup a bit easier by abstracting the platform differences so that they do not matter.
Any other UEFI compliant Platform Firmware can be used.
Получение установочного ISO-образа
Choose one of the images (in rough order of preference):
- NixOS unstable, new kernel – rolling release, latest mainline kernel, does not build with ZFS as it would often lag behind.
- NixOS unstable, LTS kernel – may be less compatible with specific hardware, but tracks a more recent Nixpkgs
- NixOS stable – release branch, LTS kernel, generally not recommended unless you are confident your hardware is well-supported upstream
Графические ISO также доступны в оболочках GNOME и KDE.
Этот образ установщика должен быть записан на USB-накопитель, как обычно. В крайнем случае, его можно записать и на SD-образ, если прошивка целевой платформы не требует записи на этот же SD-образ
Установка
Following the usual installation steps for UEFI is almost enough. Here's what you need to be mindful about.
If your Platform Firmware lives on the target installation storage, e.g. written to an SD card and you install to the same SD card, you will need need to make sure that:
- You are not overwriting the firmware, if it is not protected by a partition.
- The partition table is not rewritten from scratch / zero.
- To not delete required existing firmware partitions.
В противном случае вы можете поступить как обычно: создать раздел ESP, FAT32, который будет монтироваться по адресу /boot/
, предпочтительный раздел rootfs, своп, если хотите, и т. д.
Настройка загрузчика
Know if your Platform Firmware's UEFI implementation has writable EFI vars. This is not true for all UEFI implementations on ARM, but is something to be mindful about. If it does not, boot.loader.efi.canTouchEfiVariables
has to be set to false
.
/etc/nixos/configuration.nix
{
boot.loader.efi.canTouchEfiVariables = false;
}
This sample uses GRUB2, but systemd-boot was also verified to work. Since EFI variables cannot be manipulated, using efiInstallAsRemovable
handles installing GRUB2 to the default fallback location.
/etc/nixos/configuration.nix
{
boot.loader.grub.enable = true;
boot.loader.grub.efiSupport = true;
boot.loader.grub.efiInstallAsRemovable = true;
boot.loader.grub.device = "nodev";
}
Основные Советы
Использование последней версии ядра, вероятно, является хорошей идеей. Аппаратная поддержка платформ ARM постоянно улучшается, и использование последней версии ядра, а не "последней LTS", может быть достаточно, чтобы сломать или сделать его.
/etc/nixos/configuration.nix
{
boot.kernelPackages = pkgs.linuxPackages_latest;
}
Известные проблемы
Device Trees
As of right now, there is no consensus within Linux distros about the topic of managing device trees for the boot process with UEFI.
This current setup relies on the platform firmware providing an appropriate device tree for the kernel that will run.
With U-Boot, it is possible to make it load a device tree, for example a more up-to-date one, by placing the dtb folder from a kernel build output at the /dtb
location in the ESP. U-Boot will automatically load a device tree according to heuristics, which should be the right one.
Неизвестно, насколько это актуально на практике.