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This is a page about TI's Cortex-A8 based; BeagleBone.
Availability
Boards:
BeagleBone at Digi-Key
Basic Requirements
- Running a recent supported release of Debian, Fedora or Ubuntu on a x86 64bit based PC; without OS Virtualization Software.
- Many of the listed commands assume /bin/bash as the default shell.
- ARM Cross Compiler – Linaro: https://www.linaro.org
- Linaro Toolchain Binaries: https://www.linaro.org/downloads/
- Bootloader
- Das U-Boot – the Universal Boot Loader: http://www.denx.de/wiki/U-Boot
- Source: https://github.com/u-boot/u-boot/
- Linux Kernel
- Linus's Mainline tree: https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
- ARM based rootfs
- Debian: https://www.debian.org
- Ubuntu: https://www.ubuntu.com
ARM Cross Compiler: GCC
This is a pre-built (64bit) version of GCC that runs on generic linux, sorry (32bit) x86 users, it's time to upgrade...
Download/Extract:
user@localhost:~$
wget -c https://releases.linaro.org/components/toolchain/binaries/6.5-2018.12/arm-linux-gnueabihf/gcc-linaro-6.5.0-2018.12-x86_64_arm-linux-gnueabihf.tar.xz tar xf gcc-linaro-6.5.0-2018.12-x86_64_arm-linux-gnueabihf.tar.xz export CC=`pwd`/gcc-linaro-6.5.0-2018.12-x86_64_arm-linux-gnueabihf/bin/arm-linux-gnueabihf-
Test Cross Compiler:
user@localhost:~$
${CC}gcc --version
Test Output:
arm-linux-gnueabihf-gcc (Linaro GCC 6.5-2018.12) 6.5.0 Copyright (C) 2017 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
Bootloader: U-Boot
Das U-Boot – the Universal Boot Loader: http://www.denx.de/wiki/U-Boot
eewiki.net patch archive: https://github.com/eewiki/u-boot-patches
Download:
user@localhost:~$
git clone -b v2019.04 https://github.com/u-boot/u-boot --depth=1 cd u-boot/
Patches:
user@localhost:~/u-boot$
wget -c https://github.com/eewiki/u-boot-patches/raw/master/v2019.04/0001-am335x_evm-uEnv.txt-bootz-n-fixes.patch wget -c https://github.com/eewiki/u-boot-patches/raw/master/v2019.04/0002-U-Boot-BeagleBone-Cape-Manager.patch patch -p1 < 0001-am335x_evm-uEnv.txt-bootz-n-fixes.patch patch -p1 < 0002-U-Boot-BeagleBone-Cape-Manager.patch
Configure and Build:
user@localhost:~/u-boot$
make ARCH=arm CROSS_COMPILE=${CC} distclean
make ARCH=arm CROSS_COMPILE=${CC} am335x_evm_defconfig
make ARCH=arm CROSS_COMPILE=${CC}
Linux Kernel
This script will build the kernel, modules, device tree binaries and copy them to the deploy directory.
Mainline
Download:
~/
git clone https://github.com/RobertCNelson/bb-kernel cd bb-kernel/
For am33x-v4.14 (Longterm 4.14.x):
user@localhost:~/bb-kernel$
git checkout origin/am33x-v4.14 -b tmp
For am33x-rt-v4.14 (Longterm 4.14.x + Real-Time Linux):
user@localhost:~/bb-kernel$
git checkout origin/am33x-rt-v4.14 -b tmp
For am33x-v4.19 (Longterm 4.19.x):
user@localhost:~/bb-kernel$
git checkout origin/am33x-v4.19 -b tmp
For am33x-rt-v4.19 (Longterm 4.19.x + Real-Time Linux):
user@localhost:~/bb-kernel$
git checkout origin/am33x-rt-v4.19 -b tmp
For am33x-v5.4 (Longterm 5.4.x):
user@localhost:~/bb-kernel$
git checkout origin/am33x-v5.4 -b tmp
For am33x-rt-v5.4 (Longterm 5.4.x + Real-Time Linux):
user@localhost:~/bb-kernel$
git checkout origin/am33x-rt-v5.4 -b tmp
Build:
user@localhost:~/bb-kernel$
./build_kernel.sh
TI BSP
Download:
~/
git clone https://github.com/RobertCNelson/ti-linux-kernel-dev.git cd ti-linux-kernel-dev/
For TI v4.14.x:
~/ti-linux-kernel-dev/
git checkout origin/ti-linux-4.14.y -b tmp
For TI v4.14.x: Real-Time
~/ti-linux-kernel-dev/
git checkout origin/ti-linux-rt-4.14.y -b tmp
For TI v4.19.x:
~/ti-linux-kernel-dev/
git checkout origin/ti-linux-4.19.y -b tmp
For TI v4.19.x: Real-Time
~/ti-linux-kernel-dev/
git checkout origin/ti-linux-rt-4.19.y -b tmp
For TI v5.4.x:
~/ti-linux-kernel-dev/
git checkout origin/ti-linux-5.4.y -b tmp
For TI v5.4.x: Real-Time
~/ti-linux-kernel-dev/
git checkout origin/ti-linux-rt-5.4.y -b tmp
Build:
user@localhost:~/ti-linux-kernel-dev$
./build_kernel.sh
Root File System
Debian 10
User |
Password |
|---|---|
debian |
temppwd |
root |
root |
Download:
user@localhost:~$
wget -c https://rcn-ee.com/rootfs/eewiki/minfs/debian-10.4-minimal-armhf-2020-05-10.tar.xz
Verify:
user@localhost:~$
sha256sum debian-10.4-minimal-armhf-2020-05-10.tar.xz
sha256sum output:
cd598e42850cbef87602bf15ee343abfbf0d8c6ba81028c741672b5f24263534 debian-10.4-minimal-armhf-2020-05-10.tar.xz
Extract:
user@localhost:~$
tar xf debian-10.4-minimal-armhf-2020-05-10.tar.xz
Ubuntu 20.04 LTS
User |
Password |
|---|---|
ubuntu |
temppwd |
Download:
user@localhost:~$
wget -c https://rcn-ee.com/rootfs/eewiki/minfs/ubuntu-20.04-minimal-armhf-2020-05-10.tar.xz
Verify:
user@localhost:~$
sha256sum ubuntu-20.04-minimal-armhf-2020-05-10.tar.xz
sha256sum output:
de0177ac9259fdbcc626ee239f4258b64070c0921dbc38c45fab6925a5becaa1 ubuntu-20.04-minimal-armhf-2020-05-10.tar.xz
Extract:
user@localhost:~$
tar xf ubuntu-20.04-minimal-armhf-2020-05-10.tar.xz
Setup microSD card
We need to access the External Drive to be utilized by the target device. Run lsblk to help figure out what linux device has been reserved for your External Drive.
Example: for DISK=/dev/sdX
lsblk NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT sda 8:0 0 465.8G 0 disk ├─sda1 8:1 0 512M 0 part /boot/efi └─sda2 8:2 0 465.3G 0 part / <- Development Machine Root Partition sdb 8:16 1 962M 0 disk <- microSD/USB Storage Device └─sdb1 8:17 1 961M 0 part <- microSD/USB Storage Partition
Thus you would use:
export DISK=/dev/sdb
Example: for DISK=/dev/mmcblkX
lsblk NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT sda 8:0 0 465.8G 0 disk ├─sda1 8:1 0 512M 0 part /boot/efi └─sda2 8:2 0 465.3G 0 part / <- Development Machine Root Partition mmcblk0 179:0 0 962M 0 disk <- microSD/USB Storage Device └─mmcblk0p1 179:1 0 961M 0 part <- microSD/USB Storage Partition
Thus you would use:
export DISK=/dev/mmcblk0
Erase partition table/labels on microSD card:
sudo dd if=/dev/zero of=${DISK} bs=1M count=10
Install Bootloader:
user@localhost:~$
sudo dd if=./u-boot/MLO of=${DISK} count=1 seek=1 bs=128k
sudo dd if=./u-boot/u-boot.img of=${DISK} count=2 seek=1 bs=384k
Create Partition Layout:
With util-linux v2.26, sfdisk was rewritten and is now based on libfdisk.
Check the version of sfdisk installed on your pc
sudo sfdisk --version
Example Output
sfdisk from util-linux 2.27.1
sfdisk >= 2.26.x
sudo sfdisk ${DISK} <<-__EOF__
4M,,L,*
__EOF__
sfdisk <= 2.25.x
sudo sfdisk --unit M ${DISK} <<-__EOF__
4,,L,*
__EOF__
Format Partition:
for: DISK=/dev/mmcblkX
sudo mkfs.ext4 -L rootfs ${DISK}p1
for: DISK=/dev/sdX
sudo mkfs.ext4 -L rootfs ${DISK}1
Mount Partition:
On most systems these partitions may be auto-mounted...
sudo mkdir -p /media/rootfs/
for: DISK=/dev/mmcblkX
sudo mount ${DISK}p1 /media/rootfs/
for: DISK=/dev/sdX
sudo mount ${DISK}1 /media/rootfs/
Install Kernel and Root File System
To help new users, since the kernel version can change on a daily basis. The kernel building scripts listed on this page will now give you a hint of what kernel version was built.
----------------------------- Script Complete eewiki.net: [user@localhost:~$ export kernel_version=5.X.Y-Z] -----------------------------
Copy and paste that "export kernel_version=5.X.Y-Z" exactly as shown in your own build/desktop environment and hit enter to create an environment variable to be used later.
export kernel_version=5.X.Y-Z
Copy Root File System
user@localhost:~$
sudo tar xfvp ./*-*-*-armhf-*/armhf-rootfs-*.tar -C /media/rootfs/ sync sudo chown root:root /media/rootfs/ sudo chmod 755 /media/rootfs/
Set uname_r in /boot/uEnv.txt
user@localhost:~$
sudo sh -c "echo 'uname_r=${kernel_version}' >> /media/rootfs/boot/uEnv.txt"
Copy Kernel Image
Kernel Image:
user@localhost:~$
sudo cp -v ./bb-kernel/deploy/${kernel_version}.zImage /media/rootfs/boot/vmlinuz-${kernel_version}
Copy Kernel Device Tree Binaries
user@localhost:~$
sudo mkdir -p /media/rootfs/boot/dtbs/${kernel_version}/
sudo tar xfv ./bb-kernel/deploy/${kernel_version}-dtbs.tar.gz -C /media/rootfs/boot/dtbs/${kernel_version}/
Copy Kernel Modules
user@localhost:~$
sudo tar xfv ./bb-kernel/deploy/${kernel_version}-modules.tar.gz -C /media/rootfs/
File Systems Table (/etc/fstab)
user@localhost:~/$
sudo sh -c "echo '/dev/mmcblk0p1 / auto errors=remount-ro 0 1' >> /media/rootfs/etc/fstab"
Networking
Edit: /etc/network/interfaces
sudo nano /media/rootfs/etc/network/interfaces
Add:
/etc/network/interfaces
auto lo iface lo inet loopback auto eth0 iface eth0 inet dhcp
Networking: Using a shared SD card with Multiple BeagleBone
To always enable the Ethernet interface as eth0.
Edit: /etc/udev/rules.d/70-persistent-net.rules
sudo nano /media/rootfs/etc/udev/rules.d/70-persistent-net.rules
Add:
/etc/udev/rules.d/70-persistent-net.rules
# BeagleBone: net device ()
SUBSYSTEM=="net", ACTION=="add", DRIVERS=="?*", ATTR{dev_id}=="0x0", ATTR{type}=="1", KERNEL=="eth*", NAME="eth0"
Remove microSD/SD card
sync sudo umount /media/rootfs
U-Boot Overlays
Full Documentation: readme
Any issues:
Any issues run:
sudo /opt/scripts/tools/version.sh
Enable:
/boot/uEnv.txt
enable_uboot_overlays=1
To Disable: BB-ADC:
/boot/uEnv.txt
disable_uboot_overlay_adc=1
U-Boot: override detected capes
/boot/uEnv.txt
uboot_overlay_addr0=/lib/firmware/<file0>.dtbo uboot_overlay_addr1=/lib/firmware/<file1>.dtbo uboot_overlay_addr2=/lib/firmware/<file2>.dtbo uboot_overlay_addr3=/lib/firmware/<file3>.dtbo
U-Boot: disable auto-loading of detected capes
/boot/uEnv.txt
disable_uboot_overlay_addr0=1 disable_uboot_overlay_addr1=1 disable_uboot_overlay_addr2=1 disable_uboot_overlay_addr3=1
U-Boot: load 4 more un-detected capes
/boot/uEnv.txt
uboot_overlay_addr4=/lib/firmware/<file4>.dtbo uboot_overlay_addr5=/lib/firmware/<file5>.dtbo uboot_overlay_addr6=/lib/firmware/<file6>.dtbo uboot_overlay_addr7=/lib/firmware/<file7>.dtbo
U-Boot: PRU Options (v4.14.x-ti)
/boot/uEnv.txt
uboot_overlay_pru=/lib/firmware/AM335X-PRU-RPROC-4-14-TI-00A0.dtbo
U-Boot: PRU Options (v4.19.x-ti)
/boot/uEnv.txt
uboot_overlay_pru=/lib/firmware/AM335X-PRU-RPROC-4-19-TI-00A0.dtbo
U-Boot: PRU Options
/boot/uEnv.txt
uboot_overlay_pru=/lib/firmware/AM335X-PRU-UIO-00A0.dtbo
U-Boot: Cape Universal
/boot/uEnv.txt
enable_uboot_cape_universal=1
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