PC Engines
PC Engines is a swiss hardware manufacturer for embedded x86 devices.
apu2c4
This document describes how to install Arch Linux to the SSD via an SD card or USB flash drive.
Hardware
CPU: AMD Embedded G series GX-412TC, 1 GHz quad Jaguar core with 64 bit
RAM: 4GB DRAM with ECC
Assemble the device with care and read the guide for the cooling system!
Setup preperations
- You need a serial (RS-232) connection to the apu to control it.
- Add your user to uucp
- Install picocom or something similar, see Working with the serial console#Making Connections
- Download and verify the arch-dualboot.iso
Boot the system
To see the BIOS use this command
LANG=C picocom --baud 115200 /dev/ttyUSB0
If your device does not boot from the SD card or USB flash drive, press F10 during boot to bring up a boot menu. Then close picocom with "Ctl+A" "Ctl+Q"
Reconnect to the ArchIso Grub:
LANG=C picocom --baud 38400 /dev/ttyUSB0
Enter cli mode by pressing "Tab", prompt should look like this:
linux boot/x86_64/vmlinuz-linux archisobasedir=arch archisolabel=ARCH_202010 initrd=boot/intel-ucode.img,initrd=boot/amd-ucode.img,boot/x86_64/initramfs-linux.img
add the following with a leading space
console=ttyS0,115200
and press "Enter"
Now exit picocom and reconnect with the first command again to switch to the higher baud rate of 115200. Finally wait for about 30 seconds and you will get a colorful boot prompt.
Install the system
The most comfortable way to install Arch now is to start the sshd and use Install guide
You may need to get a new IP with dhclient and start sshd
systemctl start sshd.service
One possible layout of the SSD maybe looking like this:
/dev/sda1 2048 264191 262144 128M 83 Linux /dev/sda2 264192 25430015 25165824 12G 83 Linux /dev/sda3 25430016 31277231 5847216 2.8G 82 Linux swap / Solaris
It is a good idea to use a MBR layout with GRUB:
grub-install --target=i386-pc /dev/sda grub-mkconfig -o /boot/grub/grub.cfg
If using Syslinux, make sure to provide a console
option in the boot menu:
/boot/syslinux/syslinux.cfg
LABEL arch MENU LABEL Arch Linux LINUX ../vmlinuz-linux APPEND root=UUID=1ef5a2eb-1908-4929-9b91-f6c4183695ac rw console=ttyS0,115200 INITRD ../initramfs-linux.img
Also you should read Working with the serial console#Configure console access on the target machine
Remember to remove the SD card or USB flash drive after you finished your setup.
LED Control
While there are 2 mainline kernel drivers (leds-apu
and pcengines-apuv2
) that can control the LEDs on various APU models, if you are running mainline PC Engines firmware it is advised to let ACPI handle LED control. In conjunction with the ledtrig_netdev
module, the APU LEDs can be controlled through the following sysfs entries:
/sys/class/leds/apu2:green:led1 /sys/class/leds/apu2:green:led2 /sys/class/leds/apu2:green:led3
Module Handling
You'll have to manually load ledtrig_netdev
. You also want to blacklist both leds_apu
and pcengines-apuv2
.
Example Configuration
A common use case is to use the APU as a wireless router. In this scenario, one wired NIC (wan0) is connected upstream to an ISP and the remaining wired & wireless NICs are bridged (br0) together as the LAN. A typical LED configuration using the netdev trigger might be:
LED1: power on / power off indicator LED2: upstream network (wan0) traffic indicator LED3: local network (br0) traffic indicator
To enable this setup:
echo "1" > /sys/class/leds/apu2:green:led1/brightness echo "netdev" > /sys/class/leds/apu2:green:led2/trigger echo "wan0" > /sys/class/leds/apu2:green:led2/device_name echo "1" > /sys/class/leds/apu2:green:led2/tx echo "1" > /sys/class/leds/apu2:green:led2/rx echo "netdev" > /sys/class/leds/apu2:green:led3/trigger echo "br0" > /sys/class/leds/apu2:green:led3/device_name echo "1" > /sys/class/leds/apu2:green:led3/tx echo "1" > /sys/class/leds/apu2:green:led3/rx
trigger
sysfs entry must be done first as this is what enables the device_name
, tx
rx
entries.cat /sys/class/leds/apu2:green:led1/trigger
./lib/modules/$(uname -r)/kernel/drivers/leds/trigger
.Persist Configuration
Systemd automatic module loading and tmpfiles.d can be used to persist this configuration across restarts.
/etc/modules-load.d/ledtrig-netdev.conf
ledtrig_netdev
/etc/tmpfiles.d/leds.conf
#Power on/off w /sys/class/leds/apu2:green:led1/brightness - - - - 1 #WAN activity w /sys/class/leds/apu2:green:led2/trigger - - - - netdev w /sys/class/leds/apu2:green:led2/device_name - - - - wan0 w /sys/class/leds/apu2:green:led2/tx - - - - 1 w /sys/class/leds/apu2:green:led2/rx - - - - 1 #LAN activity w /sys/class/leds/apu2:green:led3/trigger - - - - netdev w /sys/class/leds/apu2:green:led3/device_name - - - - br0 w /sys/class/leds/apu2:green:led3/tx - - - - 1 w /sys/class/leds/apu2:green:led3/rx - - - - 1
firmware
The APUx devices use coreboot firmware, not UEFI. To update the firmware on APU2/3/4/5 devices, use flashrom:
# flashrom --programmer internal --read old.rom --output read-old.txt # flashrom --programmer internal --write new.rom --output write-new.txt # systemctl poweroff # unplug and replug
If a full reboot is impossible, e.g. because firmware is being updated remotely, workarounds are available. For details, see: