EBC Exercise 08 Installing Development Tools 3.8
Embedded Linux Class by Mark A. Yoder
Early in the class most of the exercises we will do will all run on the BeagleBoard. You'll be able to edit (gedit), compile (gcc) and run all on the Beagle. Later, when we start compiling the kernel  or the boot loader, (U-boot) you will need to cross compile on a Linux machine and copy the results to the Beagle.
The purpose of this exercise is to install all the tools needed for compiling on your host so they will be ready when you need them.
Instructions for building Ångström are given here; however there are a few changes you have to make. Here's what I did.
Tip: Run this exercise using a wired connection if you can. The Ubuntu wireless driver can be finicky, and if it stops working you'll have to restart some of this.
These instructions have been tested for the 3.2.25 kernel.
These are notes are based on Beagleboard kernel git site.
First download the tools needed to compile the kernel. This took about 25 seconds.
host$ sudo apt-get install -y git lzop gcc-arm-linux-gnueabi uboot-mkimage
Next download the tools to get the kernel and the patches needed to make it run on the beagle. (2.5 seconds)
host$ cd ~/BeagleBoard host$ git clone git://github.com/beagleboard/kernel.git host$ git checkout 6a7c4284a16fed3dae87f4aef78b59c902e4da84 -b beaglebone-3.2
Next download the kernel and the patches. Before running ./patch/sh, take a look at it. Can you figure out what it's doing? Also look at patch_script.sh, it's where the details are. The downloading/patching process takes some 39 minutes.
host$ less patch.sh patch_script.sh host$ ./patch.sh host$ cp patches/beaglebone/defconfig kernel/arch/arm/configs/beaglebone_defconfig host$ wget http://arago-project.org/git/projects/?p=am33x-cm3.git\;a=blob_plain\;f=bin/am335x-pm-firmware.bin\;hb=HEAD -O kernel/firmware/am335x-pm-firmware.bin host$ md5sum kernel/firmware/am335x-pm-firmware.bin 17d6a4c24d3cb720aa9ed4522cb891fc kernel/firmware/am335x-pm-firmware.bin
Once patched you are ready to compile the kernel. The first time takes a while. Mine tool 4 minutes, but I was running on 8 cores. Set the -jX to match the number of cores you have. uImage is the kernel!
host$ cd kernel host$ make beaglebone_defconfig
Do the above once.
host$ export ARCH=arm host$ export CROSS_COMPILE=arm-linux-gnueabi-
Do the above once per terminal session.
host$ make -j9 host$ make uImage
Do the above every time you recompile the kernel
You also need all the kernel modules. Here we create a directory to install them in. (a few seconds)
host$ mkdir ../rootfs host$ make INSTALL_MOD_PATH=../rootfs modules_install
Copy the kernel and the modules to the Beagle. (a minute or so)
host$ cd .. host$ scp kernel/arch/arm/boot/uImage root@beagle:/boot/uImage-3.2.25+ host$ cd rootfs host$ find -H -depth | cpio -o -H crc | ssh root@beagle 'cd /; cpio -id'
Now log into the beagle and move some things around.
host$ ssh root@beagle
This will copy the kernel to the ext4 partition.
beagle$ cd /boot beagle$ rm uImage beagle$ ln -s uImage-3.2.25+ uImage
This will copy to the FAT partition.
beagle$ mkdir /media/mmcblk0p1 beagle$ mount /dev/mmcblk0p1 /media/mmcblk0p1 beagle$ cp /boot/uImage-3.2.25+ /media/uImage
Make sure screen is running on your host so you can see the shutdown and boot processes.
host$ sudo screen /dev/ttyUSB0 115200
Then restart you beagle
beagle$ shutdown -r now
If all goes well you will boot into your new kernel.
beagle$ uname -a Linux beaglebone 3.2.25+ #1 Fri Oct 19 11:05:28 EDT 2012 armv7l GNU/Linux
These instructions came from eewiki.
While we're at it, let's get the boot loader we'll be using. It takes some 3 minutes.
host$ cd ~/BeagleBoard host$ git clone git://git.denx.de/u-boot.git host$ cd u-boot/ host$ git checkout v2012.10-rc2 -b tmp
Now configure and build. The first time takes some 4 minutes. After that it's only 5 seconds or so. (Replace am335x_evm_config with omap3_beagle_config if you are compiling for the xM.)
host$ make ARCH=arm CROSS_COMPILE=arm-linux-gnueabi- am335x_evm_config host$ make ARCH=arm CROSS_COMPILE=arm-linux-gnueabi-
host$ scp u-boot.img root@beagle:. beagle$ mkdir /media/mmcblk0p1 beagle$ mount /dev/mmcblk0p1 /media/mmcblk0p1 beagle$ cd /media/mmcblk0p1 beagle$ mv u-boot.img u-boot.img.orig # Save the working u-boot beagle$ cp ~/u-boot.img u-boot.img.new beagle$ cp u-boot.img.new u-boot.img
Once installed you are ready for u-boot work.
Embedded Linux Class by Mark A. Yoder