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分类: LINUX

2010-02-28 19:58:46

Tiny qemu arm system with a DirectFB interface

A tiny embedded Linux system running on the qemu arm emulator, with a DirectFB interface, everything in 2.1 MB (including the kernel)!

Overview

This demo embedded Linux system has the following features:

  • Very easy to run demo, just 1 file to download and 1 command line to type!
  • Runs on qemu (easy to get for most GNU/Linux distributions), emulating an ARM Versatile PB board.
  • Available through a single file (kernel and root filesystem), sizing only 2.1 MB!
  • DirectFB graphical user interface.
  • Demonstrates the capabilities of qemu, the Linux kernel, BusyBox, DirectFB, and
    shows the benefits of system size and boot time reduction techniques as advertised and supported
    by the .
  • License: GNU GPL for root filesystem scripts. Each software component has its own license.

How to run the demo

  • Make sure the emulator is installed on your GNU/Linux distribution. The demo works with qemu 0.8.2 and beyond, but it may also work with earlier versions.
  • Download the
    binary.
  • Run the below command:
    qemu-system-arm -M versatilepb -m 16 -kernel vmlinuz-qemu-arm-2.6.20 -append "clocksource=pit quiet rw"
  • When you reach the console prompt, you can try regular Unix commands but also the graphical demo:
    run_demo

FAQ / Troubleshooting

  • Q: I get Could not initialize SDL - exiting when I try to run qemu.

    That’s a qemu issue (qemu used the SDL library). Check that you can start graphical applications from your terminal (try xeyes or xterm for example). You may also need to check that you have name servers listed in /etc/resolv.conf. Anyway, you will find solutions for this issue on the Internet.

Screenshots

How to rebuild this demo

All the files needed to rebuild this demo are available
:

  • You can rebuild or upgrade the (Vanilla) kernel by using the given kernel configuration file.
  • The configuration file expects to find an initramfs source directory in ../rootfs, which
    you can create by extracting the contents of the archive.
  • Of course, you can make changes to this root filesystem!

Tools and optimization techniques used in this demo

Software and development tools

  • The demo was built using , a fantastic development tool that makes cross-compiling transparent!
  • The demo includes , an toolbox implementing most UNIX commands in a few hundreds of KB. In our case, BusyBox includes the most common commands (like a vi implementation), and only sizes 192 KB!
  • The root filesystem is shipped within the Linux kernel image, using the initramfs technique, which makes the kernel simpler and saves a dramatic amount of RAM (compared to an init ramdisk).
  • The demo is interfaced by example programs (version 0.9.25, with DirectFB 1.0.0-rc4), which demonstrate the amazing capabilities of this library, created to meet the needs of embedded systems.

Size optimization techniques

The below optimization techniques were used to reduce the filesystem size from 74 MB to 3.3 MB (before compression in the Linux kernel image):

  • Removing development files: C headers and manual pages copied when installing tools and libraries, .a library files, gdbserver, strace, /usr/lib/libfakeroot, /usr/local/lib/pkgconfig
  • Files not used by the demo programs: libstdc++, and any library or resource file.
  • Stripping and even super stripping (see ) executables and libraries.
  • Reducing the kernel size using CONFIG_EMBEDDED switches, mainly from the
    project.

Techniques to reduce boot time

We used the below techniques to reduce boot time:

  • Disabled console output (quiet boot option, printk support was disabled anyway), which saves time scrolling the framebuffer console.
  • Use the Preset Loops per Jiffy technique to disable delay loop calculation, by feeding the kernel with a value measured in an earlier boot (lpj setting, which you may update according to the speed of your own workstation).

All these optimization techniques and other ones we haven’t tried yet are described either on the or in our presentation.

How to re-implement this demo from scratch

You can follow Lab 4 instructions in the of our , and continue by applying
optimization techniques described above.

Future work

We plan to implement a generic tool which would apply some of these techniques in an automatic way,
to shrink an existing GNU/Linux or embedded Linux root filesystem without any loss in functionality. More in the next weeks or months!

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