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Funtoo Linux Installation on RPI
Install Funtoo Linux on a Raspberry Pi
Introduction
This is the updated quick and dirty HOWTO covering the automation of cross-compiling, kernel building, emulation and booting of arbitrary architectures, but specifically focused on the cross compiling the Raspeberry Pi linux kernel sources for target arm-linux-gnueabihf and booting it on Raspberry Pi boards with a funtoo stage 3. It's so quick and dirty you probably won't be able replicate the results here on your first try. But it is possible!
This is an update of Crossdev_Automation, reflecting the changes needed to accomodate the new kits structure of Funtoo, and to clean up the scripting used for automation. The document will remain available for reference purposes.
Funtoo_Linux_Installation_on_ARM is an important document as well.
Installation Overview
- Create Your Installation Settings
- Install the Stage 3 Tarball
- Install the Firmware
- Configure Your System
- Install Binary Kernel, Modules, and dtbs or Cross-Compile from Source
- Optionally Install Distcc via QEMU Chroot
- Partition and Format an SDCard
- Deploy Installation to SDCard
Get the Bash Script
Development code is available on github. The structure of the file sysroot.sh
should roughly correspond to the information contained here.
Follow the Installation Steps
Create Your Installation Settings
Confguration your installation. These variables are referencecd by the sysroot.sh
script and by this document.
config.sh
(bash source code) - Set your install configuration variablesKERNEL_WORK=/usr/src/rpi_kernel
RPI_KERN_BRANCH=rpi-4.14.y
SYSROOT_WORK=/usr/src/sysroots
STAGE_URL=http://ftp.osuosl.org/pub/funtoo/funtoo-current/arm-32bit/raspi3/stage3-latest.tar.xz
CHOST=armv7a-hardfloat-linux-gnueabi
CFLAGS="-O2 -pipe -march=armv7-a -mtune=cortex-a53 -mfpu=neon-vfpv4 -mfloat-abi=hard"
#SDCARD_DEV=mmcblk0p
SDCARD_DEV=sdb
#optional
DISTCC_REMOTE_JOBS=21
DISTCC_REMOTE_HOSTS="10.0.0.1,cpp,lzo"
Install the Stage 3 Tarball
Download the current Funtoo stage 3 build appropriate for your Raspberry Pi device. Check the Subarches#arm32 page, to see the version available for versions 1,2 and 3 of the Pi. Here we download the version for version 3 by setting the STAGE_URL variable in our configuration file.
We need to save the archive to {{{1}}}
and unpack it to {{{1}}}
. Back up or remove any previous work in that local.
root # mv -n $SYSROOT $SYSROOT.old root # mkdir -p $SYSROOT root # wget ${STAGE_URL} -O ${STAGE3_ARCHIVE} root # tar xpfv ${STAGE3_ARCHIVE} -C ${SYSROOT}
Install the Firmware
Make your work directory and clone the official firmware repo into it. Copy the appropriate boot firmware files to the sysroot, along with the video acceleration binaries. If you want to use the wireless networking function, you need the bcrm firmware as well.
root # mkdir -p ${KERNEL_WORK} root # git clone --depth 1 git://github.com/raspberrypi/firmware/ ${KERNEL_WORK}/firmware root # cp ${KERNEL_WORK}/firmware/boot/{bootcode.bin,fixup*.dat,start*.elf} ${SYSROOT}/boot root # cp -r ${KERNEL_WORK}/firmware/hardfp/opt ${SYSROOT} root # git clone --depth 1 https://github.com/RPi-Distro/firmware-nonfree ${KERNEL_WORK}/firmware-nonfree root # git --git-dir=${KERNEL_WORK}/firmware-nonfree/.git --work-tree=${KERNEL_WORK}/firmware-nonfree pull origin root # mkdir -p ${SYSROOT}/lib/firmware/brcm root # cp -r ${KERNEL_WORK}/firmware-nonfree/brcm/brcmfmac43430-sdio.{bin,txt} ${SYSROOT}/lib/firmware/brcm
Configure Your System
Here, we attempt to encapsulate the instructions from Funtoo_Linux_Installation_on_ARM. There are two ways to do this. Here we alter files and symlinks in $SYSROOT/etc
directly. We could also chroot into $SYSROOT using QEMU as described below to install No results, use rc-update
directly. However the method used here doesn't depend upon a functioning QEMU chroot, which can be slow and tricky to implement for beginners.
Set Up Mount Points
Alter $SYSROOT/etc/fstab
as follows. We remove the swap (for now), and alter the storage device name and parition file types. We also remove the /dev/cdrom
device.
$SYSROOT/etc/fstab
/dev/mmcblk0p1 /boot vfat noauto,noatime 1 2
/dev/mmcblk0p2 / ext4 noatime 0 1
We can use the following sed
code.
root # sed -i "s/\/dev\/sda1.*/\/dev\/mmcblk0p1 \/boot vfat defaults 0 2/" ${SYSROOT}/etc/fstab root # sed -i "s/\/dev\/sda2.*//" ${SYSROOT}/etc/fstab root # sed -i "s/\/dev\/sda3.*/\/dev\/mmcblk0p2 \/ ext4 defaults 0 1/" ${SYSROOT}/etc/fstab root # sed -i "s/\#\/dev\/cdrom.*//" ${SYSROOT}/etc/fstab
Set Up Root Password
root # sed -i "s/root\:\*/root\:`(openssl passwd -1)`/" $SYSROOT/etc/shadow
Set Up Networking
root # ln -sf /etc/init.d/dhcpcd ${SYSROOT}/etc/runlevels/default
Set Up SSH Access
root # echo "PermitRootLogin yes" >> ${SYSROOT}/etc/ssh/sshd_config root # ln -sf /etc/init.d/sshd ${SYSROOT}/etc/runlevels/default
Set Up the Software Clock
root # ln -sf /etc/init.d/swclock ${SYSROOT}/etc/runlevels/boot root # rm ${SYSROOT}/etc/runlevels/boot/hwclock root # mkdir -p ${SYSROOT}/lib/rc/cache root # touch ${SYSROOT}/lib/rc/cache/shutdowntime
Disable Serial Console Access
If you want this, set it up yourself.
root # sed -i "s/s0\:.*/\#&/" ${SYSROOT}/etc/inittab
Link to Accelerated Video Libraries
root # echo "LDPATH=\"/opt/vc/lib\"" > ${SYSROOT}/etc/env.d/99vc
Configure the Boot Parameters
root # cat > ${SYSROOT}/boot/cmdline.txt << EOF root ##i## dwc_otg.lpm_enable=0 console=tty1 root=/dev/mmcblk0p2 rootfstype=ext4 elevator=deadline fsck.repair=yes rootwait root ##i## EOF
Install Binary Kernel, Modules, and dtbs or Cross-Compile from Source
Retrieving Necessary Source Trees
Using a Local Overlay with Crossdev
No results is a wonderful script for managing cross-compiling environments on Gentoo, but it is incompatible with Funtoo's improved gcc ebuilds. There is incomplete documentation of a pure Funtoo solution, but there has been no follow up on a complete implementation.
A simple solution is to create a local overlay named "crossdev", store gentoo ebuilds and patches in it, and use a crossdev command line switch to direct it to search the overlay for the appropriate ebuilds. This has the advantage of isolating all gentoo files and resulting binaries in a single directory.~
Let's follow the directions from Local_Overlay, and remove the .git subdirectory.~
root # mkdir /var/git/overlay root # cd /var/git/overlay root # git clone https://github.com/funtoo/skeleton-overlay.git crossdev root # rm -rf /var/git/overlay/crossdev/.git root # echo "crossdev" > /var/git/overlay/crossdev/profiles/repo_name
Edit config files to match.
/etc/portage/repos.conf/crossdev.conf
- Add the crossdev overlay to portage[crossdev] location = /var/git/overlay/crossdev auto-sync = no priority = 10
Let's make a sparse checkout of the main Gentoo repo.
root # cd /var/git/overlay/crossdev root # git init root # git remote add origin git://github.com/gentoo/gentoo.git root # git config core.sparseCheckout true root # echo "sys-devel/gcc" >> .git/info/sparse-checkout root # git pull --depth=1 origin master
Install crossdev.
root # echo "sys-devel/crossdev **" >> /etc/portage/package.keywords/crossdev root # echo "=sys-devel/crossdev-99999999" >> /etc/portage/package.unmask/crossdev root # emerge crossdev