EBC Exercise 08 Installing Development Tools

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thumb‎ Embedded Linux Class by Mark A. Yoder

3.8 Kernel

See EBC Exercise 08 Installing Development Tools 3.2 if you are working with the 3.2 kernel.

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.

The 3.8 Kernel

3.8 Kernel

Make sure you installed the cross compiler (EBC Exercise 08a Cross-Compiling) before doing this exercise.

Getting the 3.8 Kernel

These notes taken from Beaglebone: Adding USB Wi-Fi & Building a Linux Kernel starting around 4 minutes and ending around 21 minutes. Uses kernel from Robert C. Nelson's BeagleBone Black page.

host$ git clone git://github.com/RobertCNelson/linux-dev.git
host$ cd linux-dev.git
host$ git checkout origin/am33x-v3.8 -b am33x-v3.8
host$ time git clone git://git.kernel.org/pub/scm/linux/kernel/git/stable/linux-stable.git  (21 minutes)
host$ cp system.sh.sample system.sh
host$ diff system.sh*
< CC=arm-linux-gnueabi-
> #CC=arm-linux-gnueabi-
< LINUX_GIT=~/BeagleBoard/linux-stable/
> #LINUX_GIT=/home/user/linux-stable/
< ZRELADDR=0x80008000
> #ZRELADDR=0x80008000

Now build the kernel.

host$ ./build_kernel.sh
+ Detected build host [Ubuntu 12.04.3 LTS]
+ host: [x86_64]
+ git HEAD commit: [6a8557f75f5b35a79729308379adc13b43535806]
Debian/Ubuntu/Mint: missing dependicies, please install:
sudo apt-get update
sudo apt-get install build-essential device-tree-compiler fakeroot lzma lzop u-boot-tools libncurses5-dev ia32-libs 
* Failed dependency check

The build script is telling you what you need to install. Do the installs and rerun the build command.

host$ ./build_kernel.sh
+ Detected build host [Ubuntu 12.04.2 LTS]
Debian/Ubuntu/Mint: missing dependicies, please install:
sudo apt-get update
sudo apt-get install libncurses5-dev 
* Failed dependency check

If you don't get this error, move to the next step. I fixed this error by editing linux-dev/tools/host_det.sh and commenting out the line:

#	dpkg -l | grep libncurses5-dev | grep ${deb_arch} >/dev/null || deb_pkgs="${deb_pkgs}libncurses5-dev "

It was looking for amd64 in the dpkg -l listing and it wasn't appearing.

Building the 3.8 Kernel

Rerun the kernel build

host$ ./build_kernel.sh

At some point you will see KernelConfiguration.png Go back to the video above and forward to 13:30. Here you will see how to configure the kernel. Once you've exited the configuration tool the kernel will start compiling. If you have a multicore machine you will see all the core busy. It's only a few more minutes before it is done.

Installing the 3.8 Kernel on Your Black Bone

Booting off the SD card

So far you'be been running everything off the onboard 2G flash. You can continue to do so, but when installing a new kernel there is a good chance you mess up your image and it will be another 45 minutes to reflash it. Instead go back to EBC_Exercise_03_Installing_a_Beagle_OS an instead of installing the eMMC flasher image from [1], install the BeagleBone (Runs on BeagleBone Black as well without flashing the eMMC) image (first list).

This time when you plug in the SD and boot the bone will boot from the SD card (rather than copying a new image to the 2G builting flash). I suggest programming 2 or 3 SD cards with this image. That way if you really mess up one you can always switch to a another card and keep going.

Also, if you are booting from the SD and mess up something, you can plug the messed up card into your host computer and fix things and try it again.

Copying to the SD Card

Now install by inserting the SD to be installed on into your host machine and run:

host$ ./tools/install_kernel.sh

Mine failed because there wasn't enough space on the VFAT partition for uImage, however uImage isn't needed there, so I just editted install_kernel.sh and commented out line 160

#			mmc_partition_discover

This keeps it from installing on the VFAT partition.

Updating and running off the eMMC

EBC_Exercise_23_Configuring_the_Kernel#Making_and_Installing_the_kernel has instructions for copying the correct files to the eMMC to update the kernel.

Minimal Ubuntu Build

(The video says rcn-ee.net/deb/rootfs/oneiric, but it isn't there.)

host$ wget http://rcn-ee.net/deb/rootfs/raring/ubuntu-raring-console-armhf-2013-03-28.tar.xz
host$ xz -d ubuntu-raring-console-armhf-2013-03-28.tar.xz
host$ tar -xf ubuntu-raring-console-armhf-2013-03-28.tar

Put the SD card in a reader for your host and...

host$ ./setup_sdcard.sh --mmc /dev/sdc --uboot bone

Ian's Notes: The builds are being updated constantly, so go to http://rcn-ee.net/deb/rootfs/raring/ and find the latest build, if the one above does not work.

DAS U-boot

These instructions came from Robert C Nelson's eewiki.net.


While we're at it, let's get the boot loader we'll be using. It takes some 40 seconds.

host$ cd ~/BeagleBoard
host$ git clone git://git.denx.de/u-boot.git
host$ cd u-boot/
host$ git checkout v2013.04 -b tmp

U-Boot Patches

host$ wget https://raw.github.com/eewiki/u-boot-patches/master/v2013.04/0001-am335x_evm-uEnv.txt-bootz-n-fixes.patch
host$ patch -p1 < 0001-am335x_evm-uEnv.txt-bootz-n-fixes.patch


Now configure and build. The first time takes some 1.5 minutes. After that it's only 5 seconds or so.

host$ source ~/crossCompileEnv.sh 
host$ make distclean
host$ make am335x_evm_config
host$ make


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.

thumb‎ Embedded Linux Class by Mark A. Yoder