ECE497 Project: Multiple Partitions via U-boot
The goal of this project is to give the U-boot boot-loader the ability to mount different partitions on start-up. This would allow the user to dual-boot the beagle board by controlling the boot sequence with a user button or RS-232 link.
There are two principal parts to this project: finding a method to create a multiboot mmc card, and creating a command in U-Boot to simplify the process of booting multiple partitions for the user. We have successfully completed both parts in this project and have found a method create and boot from a multi-partition mmc card on the Beagle Board.
If we had more time, we would like to research further into booting from USB devices. Initially, our projects scope included booting from external USB devices, but we were not able to make any progress with this goal.
We feel that this project was successful in that we achieved the primary goals we set out to accomplish. In addition, we learned many new things about the inner workings of boot-loaders, solid state storage devices, and the way the kernel boots during startup.
These instructions will guide you through the installation of our modified U-boot boot-loader.
If you do not yet have git installed see the instruction on EBC Exercise 07.
Open a terminal on your host machine and pull our git repository:
host$ git clone firstname.lastname@example.org:albertlee5/project.git host$ cd project/
To compile the code for our project you will have to source two shell scripts that set certain environmental variables and the cross-compiler toolchain:
host$ source ~/.oe/environment-oecore host$ source ~/.oe/crossCompileEnv.sh
Before you can build our installation, you will need to configure some variables so that the make file knows exactly what platform U-boot will use. First you need to unconfigure any previous settings and then have make configure itself for the Beagle Board.
host$ make unconfig host$ make omap3_beagle_config
Now you should be able to make our project:
Next copy the resulting MLO, uboot.img, and uboot.bin to the boot partition of your mmc-card and rename the corresponding existing files so they don't interfere at startup. The beagle should now boot with our modified bootloader.
If make fails with an error such as "System not Configured" or the like, there are several commands you will have to run to fix this. This is caused because the copy on the repository may contain some temporary files that were native to the editors host machine, but will not work with your configuration. We will have to remove several files so that make will re-generate them for your machine. In the terminal type:
host:/project$ rm -rf include/autoconf.mk host:/project$ rm -rf include/autoconf.mk.dep
This removes some auto-configuration files from the include directory. We will also need to remove a number of .depend files created by make. (Note that simply typing make clean will not remove these since they were not created with your Makefile). The following commands perform a batch remove of these files, and then check to see if the removal was successful:
host:/project$ find . -name .depend | xargs rm -rf host:/project$ find . -name .depend.* | xargs rm -rf host:/project$ find . -name .depend host:/project$ find . -name .depend.*
The last two commands should return no output. Now try using make to compile U-boot.
Not yet available
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Theory of Operation
This project takes
|Create Project Page||Jan 23, 2012||Yuhas|
|Research loading multiple partitions / u-boot scripting language||Feb 6, 2012||Yuhas & Ma|
|Determine schedule for project||Feb 6, 2012||Yuhas & Ma|
|Create SD card with multiple root partitions||Feb 7, 2012||Yuhas & Ma|
|Test U-boot to multiboot using command-line||Feb 7, 2012||Ma|
Not yet available.