Fedora on Raspberry Pi

Flo H, jtagcat, The Fedora Docs Team Version F38 Last review: 2023-12-07
The Raspberry Pi is a credit card-sized ARM based single board computer (SBC). This documentation describes how to get started

The Raspberry Pi 4 is officially supported from Fedora release 37 onwards. This includes hardware accelerated graphics, for which OSS support was previously lacking.

Support for older Raspberry Pi models (2B and 3-series of devices including the 3B, 3B+, 3A+, 3CM and 3CM+) is available since Fedora Linux 29 and later releases. But Fedora decided to cut off support for (32 bit) armv7 / armhfp.

At the end of the document you find a Frequently Asked Questions (FAQ) section about what is supported, and what is not.

前提条件
  • A supported Raspberry Pi (supported boards).

  • A power supply (details on raspberrypi.org).

    • 2B: 1.8 Amps

    • 3B and 3B+: 2.5 Amps

    • 4B: 3.0 Amps

  • HDMI-compatible Monitor or TV.

  • A USB keyboard and USB mouse.

  • If using an SD card:

    • A microSD card reader.

    • A microSD Card (16 GB or larger).

  • If using a USB flash drive, with USB boot:

    • A USB flash drive, preferrably USB 3.0 or newer (16GB or larger)

  • A computer running Microsoft Windows, macOS, or Linux.

  • A Fedora ARM aarch64 Workstation or server image from: https://fedoraproject.org/.

The procedure for installing Fedora ARM on a microSD in preparation for using Fedora on a Raspberry Pi depends on your computers' operating system (Microsoft Windows, macOS, or Linux).

For installation on Fedora Server Edition see ARM Single Board Computer (SBC) Installation and Special: Single Board Computers.

For IoT Edition see Reference Platforms

Installing Fedora on a Raspberry Pi using the Fedora ARM installer

This procedure shows Fedora users how to add Fedora ARM to a microSD for use with a Raspberry Pi using the Fedora ARM installer.

Prerequisites
  • A supported Rasbperry Pi

  • A microSD Card (16 GB or larger).

  • A computer running Fedora 28 or newer.

  • SD card reader.

  • A Fedora ARM aarch64 Workstation or server image from: https://fedoraproject.org/

Procedure
  1. Download a Fedora ARM image from the Fedora website

  2. Check the integrity of the download curl https://getfedora.org/static/fedora.gpg | gpg --import gpg --verify-files *-CHECKSUM sha256sum -c *-CHECKSUM

  3. Install the arm-image-installer:

    $ sudo dnf install -y arm-image-installer
  4. As the root user, write the Fedora ARM image to the microSD card:

    $ sudo arm-image-installer \
    --image=</path/to/fedora_image> \
    --target=<RPi_Version> \
    --media=/dev/__<sd_card_device> \
    --resizefs

    Where:

    • The </path/to/fedora_image> has the format Fedora-<spin><fedora_version>.aarch64.raw.xz.

      • For example: /home/user/Downloads/Fedora-Server-38-1.6.raw.xz.

    • <RPi_Version> is:

      • rpi2 for a Raspberry Pi 2.

      • rpi3 for a Raspberry Pi 3.

    • /dev/<sd_card_device> is the microSD card 'device' on your system, such as /dev/sdX or /dev/mmcblkX. The lsblk command may help you identify your micro-SD card.

    • --resizefs: Resize the filesystem to occupy the entire SD card

      • To see usage options for the arm-image-installer, run:

        $ arm-image-installer --help
      • For list of supported boards please check SUPPORTED-BOARDS file.

        $ cat /usr/share/doc/arm-image-installer/SUPPORTED-BOARDS

Your microSD card is ready to be used with your Raspberry Pi.

Next Steps

For information on starting and configuring Fedora on Raspberry Pi, see: Booting Fedora on a Raspberry Pi for the first time.

Additional Resources

Installing Fedora on a Raspberry Pi for Linux users

This procedure shows Linux users how to add Fedora ARM to a microSD for use with a Raspberry Pi.

Prerequisites
  • A supported Raspberry Pi

  • A microSD Card (16 GB or larger).

  • A computer running Linux.

  • Root user access (via su or sudo).

  • SD card reader.

  • A Fedora ARM aarch64 Workstation or server image from: https://fedoraproject.org/.

Procedure
  1. Download a Fedora ARM image from the Fedora website.

  2. Run the following command to extract the .raw image and write the image to your microSD card:

    The location of your microSD card will be /dev/sdX or /dev/mmcblkX depending on your computer hardware.
    $ xzcat Fedora-IMAGE-NAME.aarch64.raw.xz | sudo dd status=progress bs=4M of=/dev/XXX
  3. To resize the main partition, run parted and select the device.

    (parted) select /dev/sdX
  4. Inspect the amount of unallocated space at the end and resize the root partition.

    (parted) print free
    (parted) resizepart <partition_number> <target_size>
  5. Resize the LVM physical volume so it takes up all the available space. For this to work you must deactivate any logical volumes within.

    # pvresize /dev/sdaX
  6. Then extend the logical volume that corresponds to the root directory (/dev/fedora_fedora/root in this example).

    # lvextend -l +100%FREE /dev/fedora_fedora/root
  7. Finally, resize the XFS filesystem in the logical volume (/dev/mapper/fedora_fedora-root in this example).

    # xfs_growfs -d /dev/mapper/fedora_fedora-root
  8. Alternatively, you can use gparted to resize the Root Partition on the microSD:

    $ gparted /dev/XXX

    For information on using gparted resize a partition, see: GNOME Partition Editor: GParted Manual - Resizing a Partition.

    The root partition is shrunk to the smallest size possible to ensure a small download. You currently need to resize it manually. Ideally we would like this to happen automatically (great community project idea!).

Your microSD card is ready to be used with your Raspberry Pi.

Next steps

For information on starting and configuring Fedora on Raspberry Pi, see: Booting Fedora on a Raspberry Pi for the first time.

其他资源

Installing Fedora on a Raspberry Pi for Microsoft Windows users

This procedure shows Microsoft Windows users how to add Fedora ARM to a microSD for use with a Raspberry Pi.

Prerequisites
  • A supported Raspberry Pi

  • A microSD Card (16 GB or larger).

  • A computer running Microsoft Windows.

  • SD card reader.

  • A Fedora ARM image from: https://arm.fedoraproject.org/.

  • File-decompression software (such as 7zip).

Procedure
  1. Download a Fedora ARM image from the Fedora ARM website.

  2. Extract the .raw file from the Fedora ARM image using file-decompression software (such as 7zip).

    For example:

    > "C:\Program Files\7-Zip\7z.exe" x -y "C:\Users\admin\Downloads\Fedora-Server-38-1.6.aarch64.raw.xz"
  3. Follow the instructions provided by the Raspberry Pi foundation for writing an image to a microSD card from Microsoft Windows: Raspberry Pi Foundation: Installing operating system images using Windows.

    The .img and .raw extensions are used interchangeably for RAW file. Where the instructions indicate an input file with the .img extension, use the Fedora ARM image '.raw'.

Your microSD card is ready to be used with your Raspberry Pi.

Next Steps

For information on starting and configuring Fedora on Raspberry Pi, see: Booting Fedora on a Raspberry Pi for the first time.

Additional Resources

Installing Fedora on a Raspberry Pi for macOS users

This procedure shows macOS users how to add Fedora ARM to a microSD for use with a Raspberry Pi.

Prerequisites
Procedure
  1. Download a Fedora ARM image from the Fedora ARM website.

  2. Extract the .raw file from the Fedora ARM image using file-decompression software (such as The Unarchiver)

    For example:

    $ unrar Fedora-Server-38-1.6.aarch64.raw.xz
  3. Follow the instructions provided by the Raspberry Pi foundation for writing an image to a microSD card from macOS: Raspberry Pi Foundation: Installing operating system images on Mac OS.

    The .img and .raw extensions are used interchangeably for RAW file. Where the instructions indicate an input file with the .img extension, use the Fedora ARM image '.raw'.

Your microSD card is ready to be used with your Raspberry Pi.

Next Steps

For information on starting and configuring Fedora on Raspberry Pi, see: Booting Fedora on a Raspberry Pi for the first time..

Additional Resources

Booting Fedora on a Raspberry Pi for the first time

Follow these steps to boot Fedora ARM on your Raspberry Pi. If your MicroSD card does not have enough room, you need to resize the main partition after the initial setup. See Resizing the main partition of the microSD card after setup (if required).

Prerequisites
  • Raspberry Pi Model B, version 2 or 3.

  • A power supply (details here).

    • Minimum 2 Amps for Raspberry Pi Model B, version 2.

    • Minimum 2.5 Amps for the Raspberry Pi Model B, version 3.

  • HDMI-compatible Monitor or TV.

  • A USB keyboard and USB mouse.

Procedure
  1. Insert the SD card into the Raspberry Pi.

  2. Connect a keyboard, mouse, network cable, and monitor.

  3. Plug the Raspberry Pi into the power source. The "Initial setup wizard" should appear after Fedora loads.

  4. Follow the wizard to set your language, timezone and to create users.

The system displays a login prompt or getting started guide (depending on your Desktop/SPIN).

Resizing the main partition of the microSD card after setup (if required)

Follow these steps to resize the partitions for Fedora ARM on Raspberry Pi:

  1. Enlarge the 4th partition (this example uses mmcblk0).

    $ growpart /dev/mmcblk0p4
  2. Resize root partition for the server image (which uses xfs).

    $ xfs_growfs -d /
Additional Resources

Fedora on Raspberry Pi: Frequently Asked Questions

Frequently asked questions regarding what is supported.

Why do I get a rainbow display when I try and power on my Raspberry Pi?

Common causes of the rainbow display include:

What desktop environments are supported?

All desktops as shipped in Fedora should work and both 2D and 3D graphics work out of the box. There is an open source fully accelerated driver for the Video Core IV GPU.

Will there be more enhancements to the hardware support?

Yes. New enhancements will be delivered by the standard Fedora updates mechanism. New, significant features will be announced by the Fedora Magazine or the Fedora Planet.

What about support for the Raspberry Pi Models A/A+, B/B+ (generation 1), Zero/ZeroW and Compute Module?

These Raspberry Pi models are not supported.

Fedora is not supported on ARMv6 processors. There’s been a number of attempts to support these over the years. The current best effort is Pignus based on Fedora 23. More information can be found at the Pignus site.

Fedora DOES support the Compute Module 3 based on the same SoC as the Raspberry Pi 3, but as the previous generation Compute Modules are based on ARMv6 architecture, they are not supported.

What USB devices are supported on the Raspberry Pi?

Most USB-2 compatible devices that are supported in Fedora on other devices. There are some limitations to the USB bus of the Raspberry Pi hardware as documented here.

Is the onboard Wi-Fi supported on the Raspberry Pi 3?

Wifi on the Raspberry Pi 3-series devices works out of the box with Fedora 29.

Using Wi-Fi on CLI

To use Wi-Fi on minimal and server images you can configure the device using command line:

  • To list available networks:

    $ nmcli device wifi list
  • To connect to a network:

    nmcli device wifi connect $SSID --ask

    Where: $SSID is the network identifier (or name).

Is the onboard Bluetooth supported on the Raspberry Pi 3?

Bluetooth works and is stable. The device sometimes has a generic bluetooth address but should work without any configuration.

Does sound work?

HDMI audio output is included with Fedora, however, the analog port is not yet supported. Audio output using a USB audio interface should work.

Does the add-on camera work?

Not at this time. There is still ongoing work to support this upstream and to add the appropriated media acceleration support.

Does accelerated media decode work?

No. The upstream kernel does not support the kernel subsystems required for accelerated media decoding.

Does HDMI-CEC work?

Yes. Yes. It’s supported using the new upstream CEC support. There’s a /dev/cec0 character device, it can be accessed using any application that supports the IR remote using the rc-cec keymap in the v4l-utils package, there’s also a cec-ctl utility for use on the command line.

Is the Raspberry Pi Touch Display supported?

Work on the official Raspberry Pi Touch Display is ongoing upstream and initial support is provided in the 4.10 kernel, see: GitHub: raspberrypi/linux issues - 7" LCD touchscreen not supported. Fedora will review any missing pieces for support soon. The touchscreen driver isn’t yet released upstream. Support for other displays is not currently planned.

Is the composite TV out supported?

The composite TV out is not currently supported in a stable Fedora release but the core support is in the 4.10 kernel. There is some missing enabling patches which will be added to the Fedora kernel soon.

Are the expansion HATs supported?

The the expansion HATs are not currently supported.

The long answer is a lot more complex. Most of the hardware interfaces that are exposed by the 40 pin HAT connector are supported with drivers shipped with Fedora.

Drivers for the hardware contained on a lot of the common HATs are also enabled and supported in Fedora. The core means of supporting the HAT add-on boards require the use of device tree overlays. The kernel and the u-boot 2016.09 boot-loader supports the loading over overlays manually. Currently there is no upstream consensus on the means of autoloading these overlays by means of an "overlay manager" (also known as Cape Manager and by numerous other names) by reading the EEPROM ID and loading the appropriate overlay automatically.

There’s also no consensus on the extensions to the dtc (Device Tree Compiler) to build the binary blob overlays, and no consensus of the exact format of the overlay file. There is now a group of people working to resolve this issue which enable Fedora to better support HATs (Raspberry Pi), Capes (BeagleBone), DIPs (C.H.I.P) and Mezzanine (96boards) before long.

The first focus HAT to support will be the official Raspberry Pi Sense HAT. This will be documented using the manual process to build and load the overlay to provide access to the onboard devices as a means of demonstrating how this process works for those wishing to use this manual method in the interim. The link to this documentation will be added here once that is complete.

The use of config.txt

The config.txt is only used for basic configuration at the moment. Because of the use of the opensource vc4 GPU driver, most of the video configuration is done by Linux.

The configuration of HATs using config.txt is unsupported but is being actively developed.

Are Device Tree Overlays supported?

There’s basic support for overlays in u-boot and the Linux kernel but an overlay manager is not supported upstream.

Is GPIO supported?

GPIO is supported with the use of libgpiod and associated bindings and utilities.

RPI.GPIO is not currently supported.

Is SPI supported?

Yes, basic SPI is supported.

Is I2C supported?

Yes, basic I2C is supported.

Is there Raspberry Pi 3 aarch64 support?

Yes! You can download the aarch64 disk images for the Raspberry Pi 3 here.

How do I use a serial console?

The serial console is disabled by default on the Raspberry Pi 2 and 3 because it requires the device to run at significantly slower speeds.

To wire up the USB to TTL adapter follow this guide from Adafruit. You’ll need a 3.3 volt USB to TTL Serial Cable like this one from Adafruit.

To enable the serial console follow the specific steps for the Raspberry Pi 2 or 3 as they both differ slightly:

Raspberry Pi 2:

  1. Insert the microSD card into a PC

  2. On the VFAT partition edit the config.txt file and uncomment the enable_uart line:

    $ enable_uart=1
  3. On the boot partition edit the extlinux/extlinux.conf file adding console=tty0 console=ttyAMA0,115200 to the end of the append line so it looks similar to:

    $ append ro root=UUID="LARGE UUID STRING OF TEXT" console=tty0 console=ttyAMA0,115200
  4. Safely unmount the microSD card

  5. Insert microSD into Raspberry Pi, connect serial console, power on

Raspberry Pi 3:

  1. Insert the microSD card into a PC

  2. On the VFAT partition edit the config.txt file and uncomment the enable_uart line:

    $ enable_uart=1
  3. On the boot partition edit the extlinux/extlinux.conf file adding: console=tty0 console=ttyS0,115200 to the end of the append line so it looks similar to:

    $ append ro root=UUID="LARGE UUID STRING OF TEXT" console=tty0 console=ttyS0,115200
  4. Safely unmount the microSD card

  5. Insert microSD into Raspberry Pi, connect serial console, power on

其他资源