NixOS on ARM/Raspberry Pi 4: Difference between revisions
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The Raspberry Pi family of devices is a series of single-board computers made by the Raspberry Pi Foundation. They are all based on Broadcom System-on-a-chip (SoCs). | The Raspberry Pi family of devices is a series of single-board computers made by the Raspberry Pi Foundation. They are all based on Broadcom System-on-a-chip (SoCs). | ||
== Status == | == Status == | ||
Line 47: | Line 47: | ||
Using <code>nixos-generate-config</code> will generate the required minimal configuration. | Using <code>nixos-generate-config</code> will generate the required minimal configuration. | ||
Raspberry Pi 4 is well-supported on modern kernels. However, if you encounter issues with GPU support or other deviceTree quirks, you may wish to add the nixos-hardware channel: | |||
<code>nix-channel --add https://github.com/NixOS/nixos-hardware/archive/master.tar.gz nixos-hardware</code> | |||
<code> | |||
nix-channel --add https://github.com/NixOS/nixos-hardware/archive/master.tar.gz nixos-hardware | |||
nix-channel --update | |||
</code> | |||
{{file|/etc/nixos/configuration.nix|nix|<nowiki> | {{file|/etc/nixos/configuration.nix|nix|<nowiki> | ||
Line 55: | Line 60: | ||
imports = | imports = | ||
[ | [ | ||
<nixos-hardware/raspberry-pi/4> | </nowiki><<nowiki>nixos-hardware/raspberry-pi/4</nowiki>><nowiki> | ||
./hardware-configuration.nix | ./hardware-configuration.nix | ||
]; | ]; | ||
Line 73: | Line 78: | ||
} | } | ||
</nowiki>}} | </nowiki>}} | ||
=== USB boot === | === USB boot === | ||
Line 82: | Line 88: | ||
</nowiki>}} | </nowiki>}} | ||
Now reboot the device so it can update the firmware from boot partition. | Now reboot the device so it can update the firmware from the boot partition. | ||
=== GPU support === | === GPU support === | ||
Line 101: | Line 107: | ||
==== With GPU ==== | ==== With GPU ==== | ||
In [https://github.com/NixOS/nixos-hardware/pull/261 nixos-hardware#261] | In [https://github.com/NixOS/nixos-hardware/pull/261 nixos-hardware#261] an option has been added to use the <code>fkms-3d</code> ([https://wiki.archlinux.org/title/Kernel_mode_setting modesetting]) overlay which uses the [https://www.raspberrypi.com/news/vc4-and-v3d-opengl-drivers-for-raspberry-pi-an-update/ V3D renderer]. This will only work with the vendor kernel, which is the default in NixOS. | ||
{{file|/etc/nixos/configuration.nix|nix|<nowiki> | {{file|/etc/nixos/configuration.nix|nix|<nowiki> | ||
Line 120: | Line 126: | ||
} | } | ||
</nowiki>}} | </nowiki>}} | ||
=== Tools === | |||
The raspberry tools are available in the <code>libraspberrypi</code> package and include commands like <code>vcgencmd</code> to measure temperature and CPU frequency. | The raspberry tools are available in the <code>libraspberrypi</code> package and include commands like <code>vcgencmd</code> to measure temperature and CPU frequency. | ||
=== Audio === | |||
In addition to the usual config, you will need to enable hardware audio support: | In addition to the usual config, you will need to enable hardware audio support: | ||
{{file|/etc/nixos/configuration.nix|nix|<nowiki> | {{file|/etc/nixos/configuration.nix|nix|<nowiki> | ||
{ | |||
# Enable audio devices | |||
boot.kernelParams = [ "snd_bcm2835.enable_hdmi=1" "snd_bcm2835.enable_headphones=1" ]; | |||
boot.loader.raspberryPi.firmwareConfig = '' | |||
dtparam=audio=on | |||
''; | |||
} | |||
</nowiki>}} | </nowiki>}} | ||
=== | If you're running headless, you can also disable HDMI audio and force use of the headphones jack by adding <code>hdmi_ignore_edid_audio=1</code> on a line below <code>dtparam=audio=on</code>. | ||
=== Networking === | |||
Ethernet and wifi interfaces should work out of the box. In addition to normal network configuration, consider disabling wifi powersaving if you experience slowness or issues with the host becoming unreachable on the network shortly after boot. For NetworkManager, the following configuration is sufficient: | |||
The <code>extraRules</code> | {{file|/etc/nixos/configuration.nix|nix|<nowiki> | ||
{ | |||
# Basic networking | |||
networking.networkmanager.enable = true; | |||
# Prevent host becoming unreachable on wifi after some time. | |||
networking.networkmanager.wifi.powersave = false; | |||
} | |||
</nowiki>}} | |||
=== Using GPIO pins as non-root === | |||
By default, the GPIO pins are enabled, but can only be accessed by the root user. | |||
This can be addressed by adding a [https://wiki.archlinux.org/title/Udev udev] rule to your configuration that changes the ownership of <code>/dev/gpiomem</code> and the other required devices. | |||
The following code adds a group <code>gpio</code> and adds the user <code>mygpiouser</code> to that group. You probably want to put your own user name here. | |||
The <code>extraRules</code> changes the owner of <code>gpiomem</code> and all other files needed for GPIO to work to <code>root:gpio</code> and changes the permissions to <code>0660</code>. | |||
Therefore, the root user and anyone in the gpio group can now access the GPIO pins. | Therefore, the root user and anyone in the gpio group can now access the GPIO pins. | ||
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services.udev.extraRules = '' | services.udev.extraRules = '' | ||
SUBSYSTEM=="bcm2835-gpiomem", KERNEL=="gpiomem", GROUP="gpio",MODE="0660" | SUBSYSTEM=="bcm2835-gpiomem", KERNEL=="gpiomem", GROUP="gpio",MODE="0660" | ||
SUBSYSTEM=="gpio", KERNEL=="gpiochip*", ACTION=="add", RUN+="${pkgs.bash}/bin/bash -c 'chown root:gpio | SUBSYSTEM=="gpio", KERNEL=="gpiochip*", ACTION=="add", RUN+="${pkgs.bash}/bin/bash -c 'chown root:gpio /sys/class/gpio/export /sys/class/gpio/unexport ; chmod 220 /sys/class/gpio/export /sys/class/gpio/unexport'" | ||
SUBSYSTEM=="gpio", KERNEL=="gpio*", ACTION=="add",RUN+="${pkgs.bash}/bin/bash -c 'chown root:gpio /sys%p/active_low /sys%p/direction /sys%p/edge /sys%p/value ; chmod 660 /sys%p/active_low /sys%p/direction /sys%p/edge /sys%p/value'" | SUBSYSTEM=="gpio", KERNEL=="gpio*", ACTION=="add",RUN+="${pkgs.bash}/bin/bash -c 'chown root:gpio /sys%p/active_low /sys%p/direction /sys%p/edge /sys%p/value ; chmod 660 /sys%p/active_low /sys%p/direction /sys%p/edge /sys%p/value'" | ||
''; | ''; | ||
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To enable the SPI, you would normally add <code>dtparam=spi=on</code> to <code>/boot/config.txt</code>. | To enable the SPI, you would normally add <code>dtparam=spi=on</code> to <code>/boot/config.txt</code>. | ||
This is not | This is not possible on NixOS, and instead you have to apply a device tree overlay. | ||
For this we use the <code>hardware.deviceTree.overlays</code> option. | For this we use the <code>hardware.deviceTree.overlays</code> option. | ||
After applying the overlay, we add an <code>spi</code> group and change the owner of the <code>spidev</code> device to it, similarly to [[#Using GPIO pins as non root |GPIO]]. | After applying the overlay, we add an <code>spi</code> group and change the owner of the <code>spidev</code> device to it, similarly to [[#Using GPIO pins as non root |GPIO]]. | ||
< | <syntaxhighlight lang="nix"> | ||
hardware.raspberry-pi."4".apply-overlays-dtmerge.enable = true; | hardware.raspberry-pi."4".apply-overlays-dtmerge.enable = true; | ||
hardware.deviceTree = { | hardware.deviceTree = { | ||
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{ | { | ||
name = "spi"; | name = "spi"; | ||
dtboFile = ./spi0-0cs.dtbo; | |||
} | } | ||
]; | ]; | ||
Line 190: | Line 215: | ||
SUBSYSTEM=="spidev", KERNEL=="spidev0.0", GROUP="spi", MODE="0660" | SUBSYSTEM=="spidev", KERNEL=="spidev0.0", GROUP="spi", MODE="0660" | ||
''; | ''; | ||
</ | </syntaxhighlight> | ||
The the <code>spi0-0cd.dtso</code> file can be | The the <code>spi0-0cd.dtso</code> file can be downloaded [https://github.com/raspberrypi/firmware/blob/master/boot/overlays/spi0-0cs.dtbo here]. | ||
You might have to change the <code>compatible</code> field to "raspberrypi" in the dtbo file. | You might have to change the <code>compatible</code> field to "raspberrypi" in the dtbo file. | ||
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services.udev.extraRules = '' | services.udev.extraRules = '' | ||
# allow access to raspi cec device for video group (and optionally register it as a systemd device, used below) | # allow access to raspi cec device for video group (and optionally register it as a systemd device, used below) | ||
KERNEL=="vchiq", GROUP="video", MODE="0660", TAG+="systemd", ENV{SYSTEMD_ALIAS}="/dev/vchiq" | |||
''; | ''; | ||
# optional: attach a persisted cec-client to `/run/cec.fifo`, to avoid the CEC ~1s startup delay per command | # optional: attach a persisted cec-client to `/run/cec.fifo`, to avoid the CEC ~1s startup delay per command | ||
# scan for devices: `echo 'scan' > /run/cec.fifo ; journalctl -u cec-client.service` | # scan for devices: `echo 'scan' </nowiki>><nowiki> /run/cec.fifo ; journalctl -u cec-client.service` | ||
# set pi as active source: `echo 'as' > /run/cec.fifo` | # set pi as active source: `echo 'as' </nowiki>><nowiki> /run/cec.fifo` | ||
systemd.sockets."cec-client" = { | systemd.sockets."cec-client" = { | ||
after = [ "dev-vchiq.device" ]; | after = [ "dev-vchiq.device" ]; | ||
Line 242: | Line 267: | ||
serviceConfig = { | serviceConfig = { | ||
ExecStart = ''${pkgs.libcec}/bin/cec-client -d 1''; | ExecStart = ''${pkgs.libcec}/bin/cec-client -d 1''; | ||
ExecStop = ''/bin/sh -c "echo q > /run/cec.fifo"''; | ExecStop = ''/bin/sh -c "echo q </nowiki>><nowiki> /run/cec.fifo"''; | ||
StandardInput = "socket"; | StandardInput = "socket"; | ||
StandardOutput = "journal"; | StandardOutput = "journal"; | ||
Line 248: | Line 273: | ||
}; | }; | ||
} | } | ||
</nowiki>}} | |||
=== Enabling Bluetooth === | |||
One might get bluetooth to work with this in the configuration file: | |||
{{file|/etc/nixos/configuration.nix|nix|<nowiki> | |||
systemd.services.btattach = { | |||
before = [ "bluetooth.service" ]; | |||
after = [ "dev-ttyAMA0.device" ]; | |||
wantedBy = [ "multi-user.target" ]; | |||
serviceConfig = { | |||
ExecStart = "${pkgs.bluez}/bin/btattach -B /dev/ttyAMA0 -P bcm -S 3000000"; | |||
}; | |||
}; | |||
</nowiki>}} | </nowiki>}} | ||
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=== Audio not playing and Bluetooth: no controller available === | === Audio not playing and Bluetooth: no controller available === | ||
On the Raspberry Pi kernel, the jack may never play audio, and no Bluetooth devices may ever be found. To get this to work, it is recommended to switch to the mainline kernel. See [https://github.com/NixOS/nixpkgs/issues/123725 nixpkgs#123725] | On the Raspberry Pi kernel, the jack may never play audio, and no Bluetooth devices may ever be found. To get this to work, it is recommended to switch to the mainline kernel. See [https://github.com/NixOS/nixpkgs/issues/123725 nixpkgs#123725] for more info. | ||
< | === Touch screen not working === | ||
You have to declare this in your <code>configuration.nix</code><ref>https://discourse.nixos.org/t/cant-get-nixos-x-to-work-on-a-raspberry-pi-with-dsi-display/44532/3</ref>:<syntaxhighlight lang="nix"> | |||
hardware.raspberry-pi."4" = { | |||
touch-ft5406.enable = true; | |||
}; | |||
</syntaxhighlight> |
Latest revision as of 14:19, 8 October 2024
Raspberry Pi 4 Family | |
---|---|
Manufacturer | Raspberry Pi Foundation |
Architecture | AArch64 |
Bootloader | Custom or U-Boot |
Boot order | Configurable; SD, USB, Netboot |
Maintainer | |
Raspberry Pi 4B | |
SoC | BCM2711 |
The Raspberry Pi family of devices is a series of single-board computers made by the Raspberry Pi Foundation. They are all based on Broadcom System-on-a-chip (SoCs).
Status
The Raspberry Pi 4 Family is only supported as AArch64. Use as armv7 is community supported.
Board-specific installation notes
First follow the generic installation steps to get the installer image and install using the installation and configuration steps.
The Raspberry Pi 4B works with the generic SD image.
Sample instructions for installing NixOS on a Raspberry Pi are available at nix.dev.
Configuration
Using nixos-generate-config
will generate the required minimal configuration.
Raspberry Pi 4 is well-supported on modern kernels. However, if you encounter issues with GPU support or other deviceTree quirks, you may wish to add the nixos-hardware channel:
nix-channel --add https://github.com/NixOS/nixos-hardware/archive/master.tar.gz nixos-hardware
nix-channel --update
/etc/nixos/configuration.nix
{ config, pkgs, lib, ... }:
{
imports =
[
<nixos-hardware/raspberry-pi/4>
./hardware-configuration.nix
];
hardware = {
raspberry-pi."4".apply-overlays-dtmerge.enable = true;
deviceTree = {
enable = true;
filter = "*rpi-4-*.dtb";
};
};
console.enable = false;
environment.systemPackages = with pkgs; [
libraspberrypi
raspberrypi-eeprom
];
system.stateVersion = "23.11";
}
USB boot
For USB booting to work properly, a firmware update might be needed:
$ nix-shell -p raspberrypi-eeprom $ rpi-eeprom-update -d -a
Now reboot the device so it can update the firmware from the boot partition.
GPU support
The following configuration samples are built on the assumption that they are added to an already working configuration. They are not complete configurations.
Without GPU
/etc/nixos/configuration.nix
{
services.xserver = {
enable = true;
displayManager.lightdm.enable = true;
desktopManager.gnome.enable = true;
videoDrivers = [ "fbdev" ];
};
}
With GPU
In nixos-hardware#261 an option has been added to use the fkms-3d
(modesetting) overlay which uses the V3D renderer. This will only work with the vendor kernel, which is the default in NixOS.
/etc/nixos/configuration.nix
{ pkgs, ... }:
{
imports = [
.../nixos-hardware/raspberry-pi/4
];
hardware.raspberry-pi."4".fkms-3d.enable = true;
services.xserver = {
enable = true;
displayManager.lightdm.enable = true;
desktopManager.gnome.enable = true;
};
}
Tools
The raspberry tools are available in the libraspberrypi
package and include commands like vcgencmd
to measure temperature and CPU frequency.
Audio
In addition to the usual config, you will need to enable hardware audio support:
/etc/nixos/configuration.nix
{
# Enable audio devices
boot.kernelParams = [ "snd_bcm2835.enable_hdmi=1" "snd_bcm2835.enable_headphones=1" ];
boot.loader.raspberryPi.firmwareConfig = ''
dtparam=audio=on
'';
}
If you're running headless, you can also disable HDMI audio and force use of the headphones jack by adding hdmi_ignore_edid_audio=1
on a line below dtparam=audio=on
.
Networking
Ethernet and wifi interfaces should work out of the box. In addition to normal network configuration, consider disabling wifi powersaving if you experience slowness or issues with the host becoming unreachable on the network shortly after boot. For NetworkManager, the following configuration is sufficient:
/etc/nixos/configuration.nix
{
# Basic networking
networking.networkmanager.enable = true;
# Prevent host becoming unreachable on wifi after some time.
networking.networkmanager.wifi.powersave = false;
}
Using GPIO pins as non-root
By default, the GPIO pins are enabled, but can only be accessed by the root user.
This can be addressed by adding a udev rule to your configuration that changes the ownership of /dev/gpiomem
and the other required devices.
The following code adds a group gpio
and adds the user mygpiouser
to that group. You probably want to put your own user name here.
The extraRules
changes the owner of gpiomem
and all other files needed for GPIO to work to root:gpio
and changes the permissions to 0660
.
Therefore, the root user and anyone in the gpio group can now access the GPIO pins.
# Create gpio group
users.groups.gpio = {};
# Change permissions gpio devices
services.udev.extraRules = ''
SUBSYSTEM=="bcm2835-gpiomem", KERNEL=="gpiomem", GROUP="gpio",MODE="0660"
SUBSYSTEM=="gpio", KERNEL=="gpiochip*", ACTION=="add", RUN+="${pkgs.bash}/bin/bash -c 'chown root:gpio /sys/class/gpio/export /sys/class/gpio/unexport ; chmod 220 /sys/class/gpio/export /sys/class/gpio/unexport'"
SUBSYSTEM=="gpio", KERNEL=="gpio*", ACTION=="add",RUN+="${pkgs.bash}/bin/bash -c 'chown root:gpio /sys%p/active_low /sys%p/direction /sys%p/edge /sys%p/value ; chmod 660 /sys%p/active_low /sys%p/direction /sys%p/edge /sys%p/value'"
'';
# Add user to group
users = {
users.mygpiouser = {
extraGroups = [ "gpio" ... ];
....
};
};
Enabling the SPI
To enable the SPI, you would normally add dtparam=spi=on
to /boot/config.txt
.
This is not possible on NixOS, and instead you have to apply a device tree overlay.
For this we use the hardware.deviceTree.overlays
option.
After applying the overlay, we add an spi
group and change the owner of the spidev
device to it, similarly to GPIO.
hardware.raspberry-pi."4".apply-overlays-dtmerge.enable = true;
hardware.deviceTree = {
enable = true;
filter = "*-rpi-*.dtb";
overlays = [
{
name = "spi";
dtboFile = ./spi0-0cs.dtbo;
}
];
};
users.groups.spi = {};
services.udev.extraRules = ''
SUBSYSTEM=="spidev", KERNEL=="spidev0.0", GROUP="spi", MODE="0660"
'';
The the spi0-0cd.dtso
file can be downloaded here.
You might have to change the compatible
field to "raspberrypi" in the dtbo file.
HDMI-CEC
A few bits and pieces for using HDMI-CEC on the Pi4:
/etc/nixos/configuration.nix
{ pkgs, ... }:
{
# an overlay to enable raspberrypi support in libcec, and thus cec-client
nixpkgs.overlays = [
# nixos-22.05
# (self: super: { libcec = super.libcec.override { inherit (self) libraspberrypi; }; })
# nixos-22.11
(self: super: { libcec = super.libcec.override { withLibraspberrypi = true; }; })
];
# install libcec, which includes cec-client (requires root or "video" group, see udev rule below)
# scan for devices: `echo 'scan' | cec-client -s -d 1`
# set pi as active source: `echo 'as' | cec-client -s -d 1`
environment.systemPackages = with pkgs; [
libcec
];
services.udev.extraRules = ''
# allow access to raspi cec device for video group (and optionally register it as a systemd device, used below)
KERNEL=="vchiq", GROUP="video", MODE="0660", TAG+="systemd", ENV{SYSTEMD_ALIAS}="/dev/vchiq"
'';
# optional: attach a persisted cec-client to `/run/cec.fifo`, to avoid the CEC ~1s startup delay per command
# scan for devices: `echo 'scan' > /run/cec.fifo ; journalctl -u cec-client.service`
# set pi as active source: `echo 'as' > /run/cec.fifo`
systemd.sockets."cec-client" = {
after = [ "dev-vchiq.device" ];
bindsTo = [ "dev-vchiq.device" ];
wantedBy = [ "sockets.target" ];
socketConfig = {
ListenFIFO = "/run/cec.fifo";
SocketGroup = "video";
SocketMode = "0660";
};
};
systemd.services."cec-client" = {
after = [ "dev-vchiq.device" ];
bindsTo = [ "dev-vchiq.device" ];
wantedBy = [ "multi-user.target" ];
serviceConfig = {
ExecStart = ''${pkgs.libcec}/bin/cec-client -d 1'';
ExecStop = ''/bin/sh -c "echo q > /run/cec.fifo"'';
StandardInput = "socket";
StandardOutput = "journal";
Restart="no";
};
}
Enabling Bluetooth
One might get bluetooth to work with this in the configuration file:
/etc/nixos/configuration.nix
systemd.services.btattach = {
before = [ "bluetooth.service" ];
after = [ "dev-ttyAMA0.device" ];
wantedBy = [ "multi-user.target" ];
serviceConfig = {
ExecStart = "${pkgs.bluez}/bin/btattach -B /dev/ttyAMA0 -P bcm -S 3000000";
};
};
Notes about the boot process
Unless using an extremely early WIP image, the Raspberry Pi 4B boots using the U-Boot platform firmware.
Updating U-Boot/Firmware
$ nix-shell -p raspberrypi-eeprom $ sudo mount /dev/disk/by-label/FIRMWARE /mnt $ sudo BOOTFS=/mnt FIRMWARE_RELEASE_STATUS=stable rpi-eeprom-update -d -a
Troubleshooting
Audio not playing and Bluetooth: no controller available
On the Raspberry Pi kernel, the jack may never play audio, and no Bluetooth devices may ever be found. To get this to work, it is recommended to switch to the mainline kernel. See nixpkgs#123725 for more info.
Touch screen not working
You have to declare this in your configuration.nix
[1]:
hardware.raspberry-pi."4" = {
touch-ft5406.enable = true;
};