Installing Gentoo with LiveCD

Table of Contents

• Introduction
• Prerequisites
• Installation
  • Step 1: Set up Asahi Linux Minimal
  • Step 2: Clone asahi-gentoosupport
  • Step 3: Acquire the latest LiveCD
  • Step 4: Prepare the system for booting the Gentoo LiveCD
  • Step 5: Reboot into the Live Image
  • Step 6: Install Asahi support files
  • Step 7: Have fun!
• Maintenance
  • Updating U-Boot and m1n1
  • Upgrading the kernel
  • Syncing the Asahi overlay

Introduction

Installing Gentoo on Apple Silicon is not that different to doing so on a bog-standard amd64 machine. We leverage the Asahi installer and the Asahi Linux Minimal environment to bootstrap a secret sauce version of the Gentoo LiveCD image, which allows us to follow the Handbook pretty closely.

The only major deviation from the Handbook is using chadmed's asahi-gentoosupport package to automate the installation of the kernel, GRUB, overlay, m1n1, and U-Boot. You are of course welcome to attempt installing these manually, however it will take you longer than bootstrapping the rest of the system combined.

This guide will assume that you are familiar withe the Asahi Linux installer and will not walk you through using it.

If you've never used a Portage overlay before, take a few minutes to read the final section on maintaining the system. Failure to do so properly may result in you missing critical system updates or leaving your machine in an unbootable state.

Important prerequisite information

• When upgrading the kernel, you must pass --all-ramdisk-modules to genkernel for building the initramfs. Since we have some required softdeps for booting, failing to put all modules in the initramfs will leave your system in an unbootable state. Of course, this only applies if you actually use an initramfs.

• If you are using the asahi-audio package, PipeWire must be compiled with extra and gstreamer USE flags. Failing to do so will stop PipeWire from being linked against libsndfile, which will stop the FIRs from loading.

• If you are switching your toolchain to clang/LLVM, be sure to force kmod to be built with gcc. Your system will be unbootable if you try building with clang!

Step 1: Set up Asahi Linux Minimal

Install Asahi Linux Minimal (with more than the minimal disk space, 12GB worked) and set up networking. The environment comes with iwd and NetworkManager for setting up WiFi. Ethernet connections should be handled automatically at boot.

Switch to the asahi-dev repo by changing [asahi] to [asahi-dev] in /etc/pacman.conf.

Update the system by running pacman -Syu as root (or sudo pacman -Syu when you installed AsahiLinux Desktop). Reboot into Asahi Linux.

Install Git by running pacman -S git/sudo pacman -S git..

Step 2: Clone asahi-gentoosupport

This repo automates setting up the LiveCD for booting on Apple Silicon. Clone it somewhere and enter the directory.

Step 3: Acquire the latest LiveCD

Get the latest install-arm64-minimal image from the Gentoo site. It's probably easiest to do this by installing a text based web browser such as links. Save this image to the directory you cloned asahi-gentoosupport to as install.iso. It must be called install.iso.

Step 4: Prepare the system for booting the Gentoo LiveCD

Run ./genstrap.sh inside the asahi-gentoosupport directory. This will automatically prepare the system and LiveCD image for booting by

• Extracting the SquashFS from the LiveCD
• Injecting the linux-asahi kernel modules and firmware into it
• Wrapping the SquashFS in an initramfs
• Adding a GRUB menu entry for the installer

Step 5: Reboot into the Live Image

Reboot the machine. When the GRUB menu appears, select Gentoo Live Install Environment. This will boot you to the standard LiveCD. From here, install Gentoo as you normally would, stopping when it's time to install the kernel and bootloader.

Note: It is absolutely imperative that you DO NOT alter any other partition on the system, including the EFI System Partition set up by Asahi Linux. You are free to do anything you wish to the partition that was previously your Asahi Linux root filesystem, such as shrinking it to add some swap space, but never, ever delete any APFS partition or the Asahi EFI System partition. You have been warned...

Step 6: Install Asahi support files

Merge Git by running emerge -av dev-vcs/git, then clone asahi-gentoosupport again. Run ./install.sh and follow the prompts. This will

• Install the Asahi Overlay, which provides the kernel, boot tooling and (possibly) patched packages
• Install the boot tooling and firmware required for Apple Silicon machines to function correctly
• Merge the Asahi Linux kernel sources as asahi-sources, replacing the standard gentoo-sources package
• Copy the running kernel's config to /usr/src/linux/.config
• Automate building the kernel

Kbuild may ask you about certain Kconfig options. Just accept its defaults for now.

This allows you to skip setting up GRUB, the kernel, and the boot tooling yourself which can be a bit of a hassle on these machines and may leave you with an unbootable Linux setup.

Step 7: Have fun!

Finish off the rest of your usual Gentoo install procedure, reboot, and have fun! It's a good idea to customise the kernel as you see fit since the running config will be based on Arch/Asahi Linux. Remember to save the running kernel and initramfs as a fallback so you can easily boot it from GRUB should anything go wrong.

Maintenance

Getting and applying system updates is a little more involved than a totally vanilla Gentoo installation. You need to keep the Asahi overlay synced and make sure that system firmware is updated correctly.

Updating U-Boot and m1n1

When you update the U-Boot or m1n1 packages, Portage will only install the resultant binaries to /usr/lib/asahi-boot/. This is both a security and a reliability measure. m1n1 ships with a script, update-m1n1, which must be run as root every time you update the kernel, U-Boot, or m1n1 itself. This script is responsible for collecting the m1n1, U-Boot and Devicetree blobs, packaging them up into a single binary object, and installing it on the EFI System Partition. For more information on how this works and why it must work this way, consult Open OS ecosystem on Apple Silicon Macs

Upgrading the kernel

When you are running through a kernel upgrade, it is extremely important that you update the Stage 2 m1n1 payload at the same time. m1n1 Stage 2 contains the Devicetree blobs required for the kernel to find the hardware, probe it properly, and boot the system. Devicetrees are not stable, and a kernel upgrade with new DTs may result in an unbootable system, loss of function, or missing out on a newly enabled feature. To make sure this does not occur, it is imperative that you run

root# update-m1n1

after every kernel upgrade.

Syncing the Asahi overlay

In order to receive Asahi-specific updates, you must ensure that the Asahi overlay remains synchronised. By default, Portage will not do this for you. In addition to emerge --sync or emerge-webrsync, you must also run

root# emaint -r asahi sync

before trying to update. No other steps are necessary to make sure that packages are updated, just update your system like you normally would at this point.