One week ago, the BeagleBone I ordered from eventually landed on my desk. As you may know, it’s an ARMv7a OMAP device with 256Mb RAM, USB 2.0 and FastEthernet 10/100. The board doesn’t come with HDMI output but daughter boards are expected to be shipped soon it seems.

It ships with Angstrom Linux, an embedded distribution that is no way close to Gentoo, at least in my opinion. I found it kinda broken and slow. opkg, the package manager, is a nightmare. I had no choice, that thing had to be dumped ASAP. And that’s what I did.

First thing I did was copycating the Angstrom kernel configuration by copying /proc/config.gz in a safe place and starting to merge the Beagleboard kernel tree into my Linux 3.1 branch. This of course means that the AM335x is not yet supported by the vanilla kernel. Last I heard is that there are plans to merge the patches during the 3.3 merge window… You can find two ebuilds in the “sabayon-distro” overlay: sys-kernel/beagleboard-sources and sys-kernel/linux-beagleboard, providing sources and binaries respectively.
Introducing ARM support in sabayon-kernel.eclass (the eclass that builds kernel binaries using genkernel) was quite straightforward, it now builds uImages directly!

The boot strategy works like this: u-boot.img searches /boot/uImage into the root filesystem (ext4 doesn’t seem to work with my image). In our case, /boot/uImage is a symlink pointing to a versioned file (the one installed by sys-kernel/linux-beagleboard). You can manage the symlink using eselect-uimage, from the “sabayon” overlay and shipped with the Sabayon images already. This means that you can change the boot kernel at runtime without even touching the boot partition!

The second thing was setting up a chroot, both Entropy build chroot (for pushing out binary packages to the armv7l repo) and “image” chroot (the one from where images are generated) using qemu-user to emulate armv7l. In order to be able to prepare disk images using loop devices, I also completely rewrote the famous “mkcard.txt” script, dropping bc dependency (hey, bash can do math already!!). You can find it here, as well as molecules that we use to build the ARMv7a images for Beagle{Bone,Board}.

If you are interested in knowing more about how I managed to get Sabayon on ARM, have a look at the “Hitchhikers Guide to the BeagleBone” on our wiki.

I uploaded the Sabayon ARMv7 images on our mirrors this morning, under the iso/daily directory, in different sizes (depending on your MMC card size): 4GB, 8GB, 16GB.

a75fd2a7d9cae17762034c5c049a08fc Sabayon_Linux_DAILY_armv7a_Base_16GB.img.xz

0e17081050fa19c7f769318e3235ebaa Sabayon_Linux_DAILY_armv7a_Base_4GB.img.xz

56606bc906715cdebce02611ae03285c Sabayon_Linux_DAILY_armv7a_Base_8GB.img.xz

Installing them onto your MMC card is as easy as running:

xzcat <image file>.xz > /dev/sdX

Where /dev/sdX is your memory card device (might be mmcblk0).
They come in different sizes, make sure to match the advertised image size with your MMC device one.

If you have 32GB or 64GB MMCs you have two choices: either use the 16GB version and create a separate partition later or take the bootfs and rootfs images (they come in different sizes but the content is the same) from the same dir:

93960b28cde8dde51f2d29cc0c76f6bb Sabayon_Linux_DAILY_armv7a_Base_16GB.img.bootfs.tar.xz

e85fe8d344dacf79eec94562a59c6750 Sabayon_Linux_DAILY_armv7a_Base_16GB.img.rootfs.tar.xz

93960b28cde8dde51f2d29cc0c76f6bb Sabayon_Linux_DAILY_armv7a_Base_4GB.img.bootfs.tar.xz

1a6bce6f585d52f2b50806bd2bd69578 Sabayon_Linux_DAILY_armv7a_Base_4GB.img.rootfs.tar.xz

93960b28cde8dde51f2d29cc0c76f6bb Sabayon_Linux_DAILY_armv7a_Base_8GB.img.bootfs.tar.xz

13b2a47a88c55c8692ce61fc2fd42022 Sabayon_Linux_DAILY_armv7a_Base_8GB.img.rootfs.tar.xz

This way you can create your own partition layout and then unpack the content into the respective partitions. So easy. No grub nor MBR nightmare!
If you are as lazy as me, here is the download link to the directory (using the GARR mirror). But you are encouraged to use our download page to find the mirror closest to you.

The root password is: root. The OS is set to automatically boot and start eth0 and sshd (so you can connect to it via ssh). During the first boot, there is a script that configures some stuff and reboots your device automatically (so on the first boot it will just reboot). If you want to change the locale, edit /etc/env.d/02locale and run locale-gen !. The System is already configured to allow serial login (at least this works on the BeagleBone out of the box).

That’s it. You have a great distro (Gentoo) with a great Package Manager, Entropy (Sabayon) in a credit-card sized device.
If you appreciate our efforts towards the ARM architecture, please consider to donate us either hardware or MONEY to buy it! (yeah, we can’t just handle money, we always need money!).
If you’re a developer and interested in ARM stuff, why don’t you join us? We can improve both Gentoo and Sabayon together!

Please note: I only have a BeagleBone for now thus I wasn’t able to test out the images on the BeagleBoard. Moreover, the boot partition contains Beagle* related boot binaries that won’t work on other OMAP devices out of the box (but still, we provide split boot and root filesystem images).

Please note 2: I consider this a tech preview because at the time of writing, we only have 400 binary packages available for install. You can browse them using


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