RE: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

RE: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

[Marcel Romijn]

Hello Heath,

Nice writedown! I haven't made it to the end yet (lack of time), but I'm
getting there...

I noticed some issues along the way (not counting grub begin spelled as
"grug" or "gurb" ;-) )

In step 3 you write:

<snip>
# Set root password for the embedded_rootfs
chromm /embedded_rootfs
passwd
rm /embedded_rootfs/etc/passwd-
Exit
</snip>

I presume 'chromm' should have been 'chroot' ?
If it is indeed 'chroot' then you should either do "rm /etc/passwd-"
before the "exit" or the "exit" before the "rm
/embedded_rootfs/etc/passwd-".

A few lines down, you write:

<snip>
rm -R /embedded_rootfs/var/db/pkg/ *
</snip>

As a reletive newbie, doing a quick copy/paste of this command late in
the evening as root in '/', this wiped out all files, except the ones
that were firmly locked.
Fortunately, I'm going through you HowTo in VMWare, so I could restore a
previous snapshot ;-)

I presume the space before the '*' should have been omitted?

<snip>
rm -R /embedded_rootfs/var/db/pkg/*
</snip>


My aim is to create an embedded Gentoo for a Via Epia ME6000, which
reads the kernel and a ramdisk image from CF and then runs completely
from RAM.
If I'm not mistaken, you were heading for a Via Epia as well?

Regards,

Marcel Romijn


-----Original Message-----
From: Heath Holcomb [mailto:liquidcable@bulah.com] 
Sent: Monday, 08 August, 2005 4:17
To: gentoo-embedded@lists.gentoo.org
Subject: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

Version 0.07
Please add, delete, modify. Thanks!

Several fixes.  Root password now works.  Several work arounds are no
longer 
need, as the embedded Gentoo team has fixed them (I'm guess because I no

longer get those errors).  There is still one problem when "emerge -e
system" 
for groff.  Bug 98187 (http://bugs.gentoo.org/show_bug.cgi?id=98187).
Check 
out the bug report for the temp fix/work around (USE="-sandbox" emerge
-e 
system).

I've update my website with this version also.
http://www.bulah.com/embeddedgentoo.html


#-----------------------------------------------------------------------
---------
# Embedded Gentoo How-To for x86
#
# A how-to guide to setup a Gentoo embedded environment, you must be
root.
# These commands are to be run on your development system, 
# any x86 Gentoo Linux computer will do.  The system should be fast,
# to speed development.  The target can be any x86 based SBC.  I'm
# using a Geode based SBC.  Latter I'll use a Via based SBC.
#
# version 0.07
# 2005.8.7
#
# Heath Holcomb (heath at bulah.com)
# Ned Ludd (original commands posted)
# Lloyd Sargent (contributor)
# Yuri Vasilevski (contributor)
# Mike George (contributor)
# Kammi Cazze (contributor)
# Marius Schaefer (contributor)
#
# Definitions and Terms
# system_rootfs = your regular rootfs, development computer
# development_rootfs = what you use to build the embedded_rootfs
# embedded_rootfs = rootfs you deploy to the target system
# SBC = single board computer (here it's an x86 based)
#
# References
# http://www.gentoo.org/doc/en/handbook/index.xml
# http://www.epiawiki.org
# http://epia.kalf.org
# Gentoo embedded mailing list (gentoo-embedded@lists.gentoo.org)
#
#
# Overview of process (steps)
# 1 - Prepare the development_rootfs from your system_rootfs
# 2 - Build the development_rootfs
# 3 - Build the embedded_rootfs
# 4 - Build and install non-system programs to the embedded_rootfs
# 5 - Build and install a kernel to the embedded_rootfs
# 6 - Deploy embedded_rootfs to target
#
#-----------------------------------------------------------------------
---------

#----- Step 1 - Prepare the development_rootfs from your system_rootfs
-------

# You must be root.
su -

# Create the development_rootfs.
# I use i586 because of target is a Geode processor.
mkdir -p /opt/i586-gentoo-uclibc-linux/usr/portage

# Download the latest stage 1 tarball.
wget \
http://gentoo.osuosl.org/experimental/x86/embedded/stages/stage1-x86-ucl
ibc-2005.0.tar.bz2

# Untar the stage to the development_rootfs.
tar -xvjpf stage1-x86-uclibc-2005.0.tar.bz2 -C
/opt/i586-gentoo-uclibc-linux/

# Mount the proc and portage directories to your development_rootfs.
# Makes your system_rootfs's proc and portage directory available from
inside
# of your development_rootfs (after chrooting).
mount --bind /proc /opt/i586-gentoo-uclibc-linux/proc/
mount --bind /usr/portage /opt/i586-gentoo-uclibc-linux/usr/portage

# Copy over DNS information to the development_rootfs.
cp /etc/resolv.conf /opt/i586-gentoo-uclibc-linux/etc/resolv.conf

# Chroot into the development_rootfs.
chroot /opt/i586-gentoo-uclibc-linux /bin/bash --login


#----- Step 2 - Build the development_rootfs
---------------------------------

# Create new environment and load variables into memory.
env-update
source /etc/profile

# Modify make.conf file to your liking/needs.
nano -w /etc/make.conf
# This is for my target, Geode x86 processor.
/*
USE="bitmap-fonts minimal truetype-fonts mmx"
CHOST="i586-gentoo-linux-uclibc"
CFLAGS="-march=i586 -Os -pipe -fomit-frame-pointer -mmmx"
CXXFLAGS="${CFLAGS}"
FEATURES="buildpkg"

VIDEO_CARDS="chips"
UCLIBC_CPU="586MMX"
*/

# Set profile to use 2.6 kernel.
# The current stage uses 2.4 by default, and for most cases you are
going
# to want a 2.6.x kernel.
cd /etc/
unlink make.profile
ln -s ../usr/portage/profiles/uclibc/x86 make.profile

# Start the bootstrap script.
cd /usr/portage/scripts
./bootstrap.sh -p -v
./bootstrap.sh

# Emerge the system ebuild for the development_rootfs.
emerge -e system

#----- Step 3 - Build the embedded_rootfs
------------------------------------

# Create the embedded_rootfs directory.
mkdir /embedded_rootfs

# Emerge baselayout-lite into embedded_rootfs.
# This gives your system a basic file structure.
# 1.0_pre1 is the only one that is stable, right?
cd /usr/portage/sys-apps/baselayout-lite/
ROOT=/embedded_rootfs emerge baselayout-lite-1.0_pre1.ebuild

# Workaround 1
# Baselayout-lite is still beta, so a few fixes are needed.
# There needs to be a directory "log" in /var.
# Inittab calls for /usr/bin/tail, but it needs to /usr/bin.
mkdir /embedded_rootfs/var/log
nano -w /embedded_rootfs/etc/inittab
/*
#tty3::respawn:/usr/bin/tail -f /var/log/messages
tty3::respawn:/bin/tail -f /var/log/messages
*/

# Emerge uclibc into the embedded_rootfs.
# Use the -K option because we don't get the extra files created by the
# build/emerge process into our embedded rootfs which needs to be as 
# small as possible.
ROOT=/embedded_rootfs emerge -K uclibc

# Emerge busybox into the embedded_rootfs.
# First you must emerge it into your development_rootfs.
# This does not create the symlinks in our development embedded rootfs.
emerge busybox
ROOT=/embedded_rootfs emerge -K busybox

# Create the symlinks for busybox in the embedded_rootfs.
mkdir /embedded_rootfs/proc
mount -o bind /proc/ /embedded_rootfs/proc/
chroot /embedded_rootfs /bin/busybox --install -s
umount /embedded_rootfs/proc

# Set time zone in your embedded_rootfs.
# See http://leaf.sourceforge.net/doc/guide/buci-tz.html for details.
# For central standard time in the US, use "CST6CDT".
nano -w /embedded_rootfs/etc/TZ
/*
CST6CDT
*/

# Install a boot loader (usually grug or lilo).
# Once you copy/deploy your embedded_rootfs to your target SBC you will 
# have to run grub on the command line to write to the master boot
record
# (MBR).
# For some reason not all of /boot/grub is copied over to the 
# embedded_rootfs, so a extra manual copy step is needed.
# The --nodeps gets rip of the run time need of ncurses.
emerge --nodeps grub
ROOT=/embedded_rootfs emerge -K --nodeps grub
cp -R /boot/grub /embedded_rootfs/boot/

# Modify your boot configure file.
# The example below is for a gurb, for a boot partition on /dev/hda1 and
only
# one partition on the target SBC system.
nano -w /embedded_rootfs/boot/grub/grub.conf
/*
default 0
timeout 10
splashimage=(hd0,0)/boot/grub/splash.xpm.gz

title=Linux 2.6.x
root (hd0,0)
kernel /vmlinuz-2.6.x root=/dev/hda1 vga=792
*/

# Set root password for the embedded_rootfs
chromm /embedded_rootfs
passwd
rm /embedded_rootfs/etc/passwd-
exit

# Modify fstab.
# Below is mine, yours may vary.
nano -w /embedded_rootfs/etc/fstab
/*
/dev/hda1		/		reiserfs	defaults
0 0
none			/proc		proc		defaults
0 0
none			/sys		sysfs		defaults
0 0
none			/dev/shm	tmpfs	defaults	0 0
*/

# Clean up the embedded_rootfs.
# Don't know why these files are there in the first place, so if anyone
# can tell me why.....
rm -R /embedded_rootfs/var/db/pkg/ *
rm -R /embedded_rootfs/var/lib/portage/

#---- Step 4 - Build and install non-system programs to the
embedded_rootfs --

# Emerge other software you need for you embedded target.
# This is very wildly depending on your needs.
# Also your proprietary application will be done here.
emerge foo*
ROOT=/embedded_rootfs emerge -K foo*


#---- Step 5 - Build and install a kernel to the embedded_rootfs
-------------

# Install a kernel into embedded_rootfs.
# First we will emerge it into our development_rootfs, then configure
and 
# build it.
emerge vanilla-sources
cd /usr/src/
cd linux
make menuconfig
# Configure your kernel for your TARGET SBC here.  I HIGHLY suggest you
# configure the kernel to compile everything into the kernel, and
nothing
# as a module.
make
ROOT=/embedded_rootfs make modules_install
cp /usr/src/linux/arch/i386/boot/bzImage
/embedded_rootfs/boot/vmlinuz-2.6.x

# A few notes on compiling your kernel.
# If deploying to Compact Flash/DiskOnChip/SD use ext2, as the
journaling
# filing systems "write" to much for a flash device.
# If deploying to a hard drive use a journaling filing system, such as
# ext3 or reiserfs.


#---- Step 6 - Deploy embedded_rootfs to target
------------------------------

# Prepare a Gentoo (or any Linux distro) system on the target SBC using
a
# harddrive.  This is known as the target development rootfs.
# We will create a partition (/embedded_rootfs) that will server as our 
# "test" partition to deploy our embedded_rootfs that we generate on our
# development_system.
#
# I use the following partitions to speed development (yours may vary):
# /dev/hda1 - /embedded_rootfs - 1 GB
# /dev/hda2 - /boot - 100 MB
# /dev/hda3 - swap - (size varies, 512 MB is a good number)
# /dev/hda4 - / - (what is left, at least 1.5 GB per 2005.0 install
guide 
specs)
#
# Copy over your embedded_rootfs from you development system to your
target
# system and the directory /embedded_rootfs.  This needs to be done via
NFS as
# need to preserve the permissions.
#
#The following commands are done from the
# target development rootfs.
mount -t reiserfs /dev/hda1 /mnt/embedded_rootfs
mount -t nfs\ 
192.168.0.10:/opt/i586-gentoo-uclibc-linux/embedded_rootfs\ 
/mnt/nfs_embedded_rootfs
cp -adpR /mnt/nfs_embedded_rootfs/* /mnt/embedded_rootfs


# Modify your target system's gurb.conf (or lilo.conf) for allow you to
boot 
# to the embedded_rootfs partition.
#
# Reboot, and if all goes well you'll be greeted with a login prompt.
#
# Fin.



-- 
heath holcomb
liquidcable at bulah.com
www.bulah.com
-- 
gentoo-embedded@gentoo.org mailing list



-- 
gentoo-embedded@gentoo.org mailing list

RE: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

[Pierre Cassimans]

I saw these errors also yesterday, but did not find enough time to submit 
the comments yet :(

I still had problems with the python-fchksum stuff and groff compiling.

emerge python did the trick for the first thing and USE="-sandbox" emerge -e 
system did it for the second.

Those commands were available in howto version 0.6, not in the 0.7.  But 
they are still needed.

For what package is the USE="-sandbox" needed? I thought sandbox was a 
FEATURE flag?

I'm also working on a VIA epia M9000 system. What i would like to do is test 
the image (booting etc) on qemu before putting it on a compact flash. It 
would be nice if we could bring together some info on that part too (Or on 
other emulator soft). I will try to write it down while i work on this part 
and will post it here. If people already did this stuff, please post ;)

Pierre Cassimans

>From: "Marcel Romijn" <MRomijn@seagullsoftware.com>
>Reply-To: gentoo-embedded@lists.gentoo.org
>To: <gentoo-embedded@lists.gentoo.org>
>Subject: RE: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
>Date: Fri, 12 Aug 2005 02:39:00 -0400
>
>Hello Heath,
>
>Nice writedown! I haven't made it to the end yet (lack of time), but I'm
>getting there...
>
>I noticed some issues along the way (not counting grub begin spelled as
>"grug" or "gurb" ;-) )
>
>In step 3 you write:
>
><snip>
># Set root password for the embedded_rootfs
>chromm /embedded_rootfs
>passwd
>rm /embedded_rootfs/etc/passwd-
>Exit
></snip>
>
>I presume 'chromm' should have been 'chroot' ?
>If it is indeed 'chroot' then you should either do "rm /etc/passwd-"
>before the "exit" or the "exit" before the "rm
>/embedded_rootfs/etc/passwd-".
>
>A few lines down, you write:
>
><snip>
>rm -R /embedded_rootfs/var/db/pkg/ *
></snip>
>
>As a reletive newbie, doing a quick copy/paste of this command late in
>the evening as root in '/', this wiped out all files, except the ones
>that were firmly locked.
>Fortunately, I'm going through you HowTo in VMWare, so I could restore a
>previous snapshot ;-)
>
>I presume the space before the '*' should have been omitted?
>
><snip>
>rm -R /embedded_rootfs/var/db/pkg/*
></snip>
>
>
>My aim is to create an embedded Gentoo for a Via Epia ME6000, which
>reads the kernel and a ramdisk image from CF and then runs completely
>from RAM.
>If I'm not mistaken, you were heading for a Via Epia as well?
>
>Regards,
>
>Marcel Romijn
>
>
>-----Original Message-----
>From: Heath Holcomb [mailto:liquidcable@bulah.com]
>Sent: Monday, 08 August, 2005 4:17
>To: gentoo-embedded@lists.gentoo.org
>Subject: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
>
>Version 0.07
>Please add, delete, modify. Thanks!
>
>Several fixes.  Root password now works.  Several work arounds are no
>longer
>need, as the embedded Gentoo team has fixed them (I'm guess because I no
>
>longer get those errors).  There is still one problem when "emerge -e
>system"
>for groff.  Bug 98187 (http://bugs.gentoo.org/show_bug.cgi?id=98187).
>Check
>out the bug report for the temp fix/work around (USE="-sandbox" emerge
>-e
>system).
>
>I've update my website with this version also.
>http://www.bulah.com/embeddedgentoo.html
>
>
>#-----------------------------------------------------------------------
>---------
># Embedded Gentoo How-To for x86
>#
># A how-to guide to setup a Gentoo embedded environment, you must be
>root.
># These commands are to be run on your development system,
># any x86 Gentoo Linux computer will do.  The system should be fast,
># to speed development.  The target can be any x86 based SBC.  I'm
># using a Geode based SBC.  Latter I'll use a Via based SBC.
>#
># version 0.07
># 2005.8.7
>#
># Heath Holcomb (heath at bulah.com)
># Ned Ludd (original commands posted)
># Lloyd Sargent (contributor)
># Yuri Vasilevski (contributor)
># Mike George (contributor)
># Kammi Cazze (contributor)
># Marius Schaefer (contributor)
>#
># Definitions and Terms
># system_rootfs = your regular rootfs, development computer
># development_rootfs = what you use to build the embedded_rootfs
># embedded_rootfs = rootfs you deploy to the target system
># SBC = single board computer (here it's an x86 based)
>#
># References
># http://www.gentoo.org/doc/en/handbook/index.xml
># http://www.epiawiki.org
># http://epia.kalf.org
># Gentoo embedded mailing list (gentoo-embedded@lists.gentoo.org)
>#
>#
># Overview of process (steps)
># 1 - Prepare the development_rootfs from your system_rootfs
># 2 - Build the development_rootfs
># 3 - Build the embedded_rootfs
># 4 - Build and install non-system programs to the embedded_rootfs
># 5 - Build and install a kernel to the embedded_rootfs
># 6 - Deploy embedded_rootfs to target
>#
>#-----------------------------------------------------------------------
>---------
>
>#----- Step 1 - Prepare the development_rootfs from your system_rootfs
>-------
>
># You must be root.
>su -
>
># Create the development_rootfs.
># I use i586 because of target is a Geode processor.
>mkdir -p /opt/i586-gentoo-uclibc-linux/usr/portage
>
># Download the latest stage 1 tarball.
>wget \
>http://gentoo.osuosl.org/experimental/x86/embedded/stages/stage1-x86-ucl
>ibc-2005.0.tar.bz2
>
># Untar the stage to the development_rootfs.
>tar -xvjpf stage1-x86-uclibc-2005.0.tar.bz2 -C
>/opt/i586-gentoo-uclibc-linux/
>
># Mount the proc and portage directories to your development_rootfs.
># Makes your system_rootfs's proc and portage directory available from
>inside
># of your development_rootfs (after chrooting).
>mount --bind /proc /opt/i586-gentoo-uclibc-linux/proc/
>mount --bind /usr/portage /opt/i586-gentoo-uclibc-linux/usr/portage
>
># Copy over DNS information to the development_rootfs.
>cp /etc/resolv.conf /opt/i586-gentoo-uclibc-linux/etc/resolv.conf
>
># Chroot into the development_rootfs.
>chroot /opt/i586-gentoo-uclibc-linux /bin/bash --login
>
>
>#----- Step 2 - Build the development_rootfs
>---------------------------------
>
># Create new environment and load variables into memory.
>env-update
>source /etc/profile
>
># Modify make.conf file to your liking/needs.
>nano -w /etc/make.conf
># This is for my target, Geode x86 processor.
>/*
>USE="bitmap-fonts minimal truetype-fonts mmx"
>CHOST="i586-gentoo-linux-uclibc"
>CFLAGS="-march=i586 -Os -pipe -fomit-frame-pointer -mmmx"
>CXXFLAGS="${CFLAGS}"
>FEATURES="buildpkg"
>
>VIDEO_CARDS="chips"
>UCLIBC_CPU="586MMX"
>*/
>
># Set profile to use 2.6 kernel.
># The current stage uses 2.4 by default, and for most cases you are
>going
># to want a 2.6.x kernel.
>cd /etc/
>unlink make.profile
>ln -s ../usr/portage/profiles/uclibc/x86 make.profile
>
># Start the bootstrap script.
>cd /usr/portage/scripts
>./bootstrap.sh -p -v
>./bootstrap.sh
>
># Emerge the system ebuild for the development_rootfs.
>emerge -e system
>
>#----- Step 3 - Build the embedded_rootfs
>------------------------------------
>
># Create the embedded_rootfs directory.
>mkdir /embedded_rootfs
>
># Emerge baselayout-lite into embedded_rootfs.
># This gives your system a basic file structure.
># 1.0_pre1 is the only one that is stable, right?
>cd /usr/portage/sys-apps/baselayout-lite/
>ROOT=/embedded_rootfs emerge baselayout-lite-1.0_pre1.ebuild
>
># Workaround 1
># Baselayout-lite is still beta, so a few fixes are needed.
># There needs to be a directory "log" in /var.
># Inittab calls for /usr/bin/tail, but it needs to /usr/bin.
>mkdir /embedded_rootfs/var/log
>nano -w /embedded_rootfs/etc/inittab
>/*
>#tty3::respawn:/usr/bin/tail -f /var/log/messages
>tty3::respawn:/bin/tail -f /var/log/messages
>*/
>
># Emerge uclibc into the embedded_rootfs.
># Use the -K option because we don't get the extra files created by the
># build/emerge process into our embedded rootfs which needs to be as
># small as possible.
>ROOT=/embedded_rootfs emerge -K uclibc
>
># Emerge busybox into the embedded_rootfs.
># First you must emerge it into your development_rootfs.
># This does not create the symlinks in our development embedded rootfs.
>emerge busybox
>ROOT=/embedded_rootfs emerge -K busybox
>
># Create the symlinks for busybox in the embedded_rootfs.
>mkdir /embedded_rootfs/proc
>mount -o bind /proc/ /embedded_rootfs/proc/
>chroot /embedded_rootfs /bin/busybox --install -s
>umount /embedded_rootfs/proc
>
># Set time zone in your embedded_rootfs.
># See http://leaf.sourceforge.net/doc/guide/buci-tz.html for details.
># For central standard time in the US, use "CST6CDT".
>nano -w /embedded_rootfs/etc/TZ
>/*
>CST6CDT
>*/
>
># Install a boot loader (usually grug or lilo).
># Once you copy/deploy your embedded_rootfs to your target SBC you will
># have to run grub on the command line to write to the master boot
>record
># (MBR).
># For some reason not all of /boot/grub is copied over to the
># embedded_rootfs, so a extra manual copy step is needed.
># The --nodeps gets rip of the run time need of ncurses.
>emerge --nodeps grub
>ROOT=/embedded_rootfs emerge -K --nodeps grub
>cp -R /boot/grub /embedded_rootfs/boot/
>
># Modify your boot configure file.
># The example below is for a gurb, for a boot partition on /dev/hda1 and
>only
># one partition on the target SBC system.
>nano -w /embedded_rootfs/boot/grub/grub.conf
>/*
>default 0
>timeout 10
>splashimage=(hd0,0)/boot/grub/splash.xpm.gz
>
>title=Linux 2.6.x
>root (hd0,0)
>kernel /vmlinuz-2.6.x root=/dev/hda1 vga=792
>*/
>
># Set root password for the embedded_rootfs
>chromm /embedded_rootfs
>passwd
>rm /embedded_rootfs/etc/passwd-
>exit
>
># Modify fstab.
># Below is mine, yours may vary.
>nano -w /embedded_rootfs/etc/fstab
>/*
>/dev/hda1		/		reiserfs	defaults
>0 0
>none			/proc		proc		defaults
>0 0
>none			/sys		sysfs		defaults
>0 0
>none			/dev/shm	tmpfs	defaults	0 0
>*/
>
># Clean up the embedded_rootfs.
># Don't know why these files are there in the first place, so if anyone
># can tell me why.....
>rm -R /embedded_rootfs/var/db/pkg/ *
>rm -R /embedded_rootfs/var/lib/portage/
>
>#---- Step 4 - Build and install non-system programs to the
>embedded_rootfs --
>
># Emerge other software you need for you embedded target.
># This is very wildly depending on your needs.
># Also your proprietary application will be done here.
>emerge foo*
>ROOT=/embedded_rootfs emerge -K foo*
>
>
>#---- Step 5 - Build and install a kernel to the embedded_rootfs
>-------------
>
># Install a kernel into embedded_rootfs.
># First we will emerge it into our development_rootfs, then configure
>and
># build it.
>emerge vanilla-sources
>cd /usr/src/
>cd linux
>make menuconfig
># Configure your kernel for your TARGET SBC here.  I HIGHLY suggest you
># configure the kernel to compile everything into the kernel, and
>nothing
># as a module.
>make
>ROOT=/embedded_rootfs make modules_install
>cp /usr/src/linux/arch/i386/boot/bzImage
>/embedded_rootfs/boot/vmlinuz-2.6.x
>
># A few notes on compiling your kernel.
># If deploying to Compact Flash/DiskOnChip/SD use ext2, as the
>journaling
># filing systems "write" to much for a flash device.
># If deploying to a hard drive use a journaling filing system, such as
># ext3 or reiserfs.
>
>
>#---- Step 6 - Deploy embedded_rootfs to target
>------------------------------
>
># Prepare a Gentoo (or any Linux distro) system on the target SBC using
>a
># harddrive.  This is known as the target development rootfs.
># We will create a partition (/embedded_rootfs) that will server as our
># "test" partition to deploy our embedded_rootfs that we generate on our
># development_system.
>#
># I use the following partitions to speed development (yours may vary):
># /dev/hda1 - /embedded_rootfs - 1 GB
># /dev/hda2 - /boot - 100 MB
># /dev/hda3 - swap - (size varies, 512 MB is a good number)
># /dev/hda4 - / - (what is left, at least 1.5 GB per 2005.0 install
>guide
>specs)
>#
># Copy over your embedded_rootfs from you development system to your
>target
># system and the directory /embedded_rootfs.  This needs to be done via
>NFS as
># need to preserve the permissions.
>#
>#The following commands are done from the
># target development rootfs.
>mount -t reiserfs /dev/hda1 /mnt/embedded_rootfs
>mount -t nfs\
>192.168.0.10:/opt/i586-gentoo-uclibc-linux/embedded_rootfs\
>/mnt/nfs_embedded_rootfs
>cp -adpR /mnt/nfs_embedded_rootfs/* /mnt/embedded_rootfs
>
>
># Modify your target system's gurb.conf (or lilo.conf) for allow you to
>boot
># to the embedded_rootfs partition.
>#
># Reboot, and if all goes well you'll be greeted with a login prompt.
>#
># Fin.
>
>
>
>--
>heath holcomb
>liquidcable at bulah.com
>www.bulah.com
>--
>gentoo-embedded@gentoo.org mailing list
>
>
>
>--
>gentoo-embedded@gentoo.org mailing list
>


-- 
gentoo-embedded@gentoo.org mailing list

Re: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

[Heath Holcomb]

I too am working with a VIA based SBCs.  A CLE266 version, CL10000; and a 
CN400 based one.

If you ever want the hardware mpeg2 decoding take a look at
http://gentoo-wiki.com/HOWTO_Unichrome


-- 
heath holcomb
liquidcable at bulah.com
www.bulah.com

On Friday 12 August 2005 04:19 am, Pierre Cassimans wrote:
> I saw these errors also yesterday, but did not find enough time to submit
> the comments yet :(
>
> I still had problems with the python-fchksum stuff and groff compiling.
>
> emerge python did the trick for the first thing and USE="-sandbox" emerge
> -e system did it for the second.
>
> Those commands were available in howto version 0.6, not in the 0.7.  But
> they are still needed.
>
> For what package is the USE="-sandbox" needed? I thought sandbox was a
> FEATURE flag?
>
> I'm also working on a VIA epia M9000 system. What i would like to do is
> test the image (booting etc) on qemu before putting it on a compact flash.
> It would be nice if we could bring together some info on that part too (Or
> on other emulator soft). I will try to write it down while i work on this
> part and will post it here. If people already did this stuff, please post
> ;)
>
> Pierre Cassimans
>
> >From: "Marcel Romijn" <MRomijn@seagullsoftware.com>
> >Reply-To: gentoo-embedded@lists.gentoo.org
> >To: <gentoo-embedded@lists.gentoo.org>
> >Subject: RE: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
> >Date: Fri, 12 Aug 2005 02:39:00 -0400
> >
> >Hello Heath,
> >
> >Nice writedown! I haven't made it to the end yet (lack of time), but I'm
> >getting there...
> >
> >I noticed some issues along the way (not counting grub begin spelled as
> >"grug" or "gurb" ;-) )
> >
> >In step 3 you write:
> >
> ><snip>
> ># Set root password for the embedded_rootfs
> >chromm /embedded_rootfs
> >passwd
> >rm /embedded_rootfs/etc/passwd-
> >Exit
> ></snip>
> >
> >I presume 'chromm' should have been 'chroot' ?
> >If it is indeed 'chroot' then you should either do "rm /etc/passwd-"
> >before the "exit" or the "exit" before the "rm
> >/embedded_rootfs/etc/passwd-".
> >
> >A few lines down, you write:
> >
> ><snip>
> >rm -R /embedded_rootfs/var/db/pkg/ *
> ></snip>
> >
> >As a reletive newbie, doing a quick copy/paste of this command late in
> >the evening as root in '/', this wiped out all files, except the ones
> >that were firmly locked.
> >Fortunately, I'm going through you HowTo in VMWare, so I could restore a
> >previous snapshot ;-)
> >
> >I presume the space before the '*' should have been omitted?
> >
> ><snip>
> >rm -R /embedded_rootfs/var/db/pkg/*
> ></snip>
> >
> >
> >My aim is to create an embedded Gentoo for a Via Epia ME6000, which
> >reads the kernel and a ramdisk image from CF and then runs completely
> >from RAM.
> >If I'm not mistaken, you were heading for a Via Epia as well?
> >
> >Regards,
> >
> >Marcel Romijn
> >
> >
> >-----Original Message-----
> >From: Heath Holcomb [mailto:liquidcable@bulah.com]
> >Sent: Monday, 08 August, 2005 4:17
> >To: gentoo-embedded@lists.gentoo.org
> >Subject: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
> >
> >Version 0.07
> >Please add, delete, modify. Thanks!
> >
> >Several fixes.  Root password now works.  Several work arounds are no
> >longer
> >need, as the embedded Gentoo team has fixed them (I'm guess because I no
> >
> >longer get those errors).  There is still one problem when "emerge -e
> >system"
> >for groff.  Bug 98187 (http://bugs.gentoo.org/show_bug.cgi?id=98187).
> >Check
> >out the bug report for the temp fix/work around (USE="-sandbox" emerge
> >-e
> >system).
> >
> >I've update my website with this version also.
> >http://www.bulah.com/embeddedgentoo.html
> >
> >
> >#-----------------------------------------------------------------------
> >---------
> ># Embedded Gentoo How-To for x86
> >#
> ># A how-to guide to setup a Gentoo embedded environment, you must be
> >root.
> ># These commands are to be run on your development system,
> ># any x86 Gentoo Linux computer will do.  The system should be fast,
> ># to speed development.  The target can be any x86 based SBC.  I'm
> ># using a Geode based SBC.  Latter I'll use a Via based SBC.
> >#
> ># version 0.07
> ># 2005.8.7
> >#
> ># Heath Holcomb (heath at bulah.com)
> ># Ned Ludd (original commands posted)
> ># Lloyd Sargent (contributor)
> ># Yuri Vasilevski (contributor)
> ># Mike George (contributor)
> ># Kammi Cazze (contributor)
> ># Marius Schaefer (contributor)
> >#
> ># Definitions and Terms
> ># system_rootfs = your regular rootfs, development computer
> ># development_rootfs = what you use to build the embedded_rootfs
> ># embedded_rootfs = rootfs you deploy to the target system
> ># SBC = single board computer (here it's an x86 based)
> >#
> ># References
> ># http://www.gentoo.org/doc/en/handbook/index.xml
> ># http://www.epiawiki.org
> ># http://epia.kalf.org
> ># Gentoo embedded mailing list (gentoo-embedded@lists.gentoo.org)
> >#
> >#
> ># Overview of process (steps)
> ># 1 - Prepare the development_rootfs from your system_rootfs
> ># 2 - Build the development_rootfs
> ># 3 - Build the embedded_rootfs
> ># 4 - Build and install non-system programs to the embedded_rootfs
> ># 5 - Build and install a kernel to the embedded_rootfs
> ># 6 - Deploy embedded_rootfs to target
> >#
> >#-----------------------------------------------------------------------
> >---------
> >
> >#----- Step 1 - Prepare the development_rootfs from your system_rootfs
> >-------
> >
> ># You must be root.
> >su -
> >
> ># Create the development_rootfs.
> ># I use i586 because of target is a Geode processor.
> >mkdir -p /opt/i586-gentoo-uclibc-linux/usr/portage
> >
> ># Download the latest stage 1 tarball.
> >wget \
> >http://gentoo.osuosl.org/experimental/x86/embedded/stages/stage1-x86-ucl
> >ibc-2005.0.tar.bz2
> >
> ># Untar the stage to the development_rootfs.
> >tar -xvjpf stage1-x86-uclibc-2005.0.tar.bz2 -C
> >/opt/i586-gentoo-uclibc-linux/
> >
> ># Mount the proc and portage directories to your development_rootfs.
> ># Makes your system_rootfs's proc and portage directory available from
> >inside
> ># of your development_rootfs (after chrooting).
> >mount --bind /proc /opt/i586-gentoo-uclibc-linux/proc/
> >mount --bind /usr/portage /opt/i586-gentoo-uclibc-linux/usr/portage
> >
> ># Copy over DNS information to the development_rootfs.
> >cp /etc/resolv.conf /opt/i586-gentoo-uclibc-linux/etc/resolv.conf
> >
> ># Chroot into the development_rootfs.
> >chroot /opt/i586-gentoo-uclibc-linux /bin/bash --login
> >
> >
> >#----- Step 2 - Build the development_rootfs
> >---------------------------------
> >
> ># Create new environment and load variables into memory.
> >env-update
> >source /etc/profile
> >
> ># Modify make.conf file to your liking/needs.
> >nano -w /etc/make.conf
> ># This is for my target, Geode x86 processor.
> >/*
> >USE="bitmap-fonts minimal truetype-fonts mmx"
> >CHOST="i586-gentoo-linux-uclibc"
> >CFLAGS="-march=i586 -Os -pipe -fomit-frame-pointer -mmmx"
> >CXXFLAGS="${CFLAGS}"
> >FEATURES="buildpkg"
> >
> >VIDEO_CARDS="chips"
> >UCLIBC_CPU="586MMX"
> >*/
> >
> ># Set profile to use 2.6 kernel.
> ># The current stage uses 2.4 by default, and for most cases you are
> >going
> ># to want a 2.6.x kernel.
> >cd /etc/
> >unlink make.profile
> >ln -s ../usr/portage/profiles/uclibc/x86 make.profile
> >
> ># Start the bootstrap script.
> >cd /usr/portage/scripts
> >./bootstrap.sh -p -v
> >./bootstrap.sh
> >
> ># Emerge the system ebuild for the development_rootfs.
> >emerge -e system
> >
> >#----- Step 3 - Build the embedded_rootfs
> >------------------------------------
> >
> ># Create the embedded_rootfs directory.
> >mkdir /embedded_rootfs
> >
> ># Emerge baselayout-lite into embedded_rootfs.
> ># This gives your system a basic file structure.
> ># 1.0_pre1 is the only one that is stable, right?
> >cd /usr/portage/sys-apps/baselayout-lite/
> >ROOT=/embedded_rootfs emerge baselayout-lite-1.0_pre1.ebuild
> >
> ># Workaround 1
> ># Baselayout-lite is still beta, so a few fixes are needed.
> ># There needs to be a directory "log" in /var.
> ># Inittab calls for /usr/bin/tail, but it needs to /usr/bin.
> >mkdir /embedded_rootfs/var/log
> >nano -w /embedded_rootfs/etc/inittab
> >/*
> >#tty3::respawn:/usr/bin/tail -f /var/log/messages
> >tty3::respawn:/bin/tail -f /var/log/messages
> >*/
> >
> ># Emerge uclibc into the embedded_rootfs.
> ># Use the -K option because we don't get the extra files created by the
> ># build/emerge process into our embedded rootfs which needs to be as
> ># small as possible.
> >ROOT=/embedded_rootfs emerge -K uclibc
> >
> ># Emerge busybox into the embedded_rootfs.
> ># First you must emerge it into your development_rootfs.
> ># This does not create the symlinks in our development embedded rootfs.
> >emerge busybox
> >ROOT=/embedded_rootfs emerge -K busybox
> >
> ># Create the symlinks for busybox in the embedded_rootfs.
> >mkdir /embedded_rootfs/proc
> >mount -o bind /proc/ /embedded_rootfs/proc/
> >chroot /embedded_rootfs /bin/busybox --install -s
> >umount /embedded_rootfs/proc
> >
> ># Set time zone in your embedded_rootfs.
> ># See http://leaf.sourceforge.net/doc/guide/buci-tz.html for details.
> ># For central standard time in the US, use "CST6CDT".
> >nano -w /embedded_rootfs/etc/TZ
> >/*
> >CST6CDT
> >*/
> >
> ># Install a boot loader (usually grug or lilo).
> ># Once you copy/deploy your embedded_rootfs to your target SBC you will
> ># have to run grub on the command line to write to the master boot
> >record
> ># (MBR).
> ># For some reason not all of /boot/grub is copied over to the
> ># embedded_rootfs, so a extra manual copy step is needed.
> ># The --nodeps gets rip of the run time need of ncurses.
> >emerge --nodeps grub
> >ROOT=/embedded_rootfs emerge -K --nodeps grub
> >cp -R /boot/grub /embedded_rootfs/boot/
> >
> ># Modify your boot configure file.
> ># The example below is for a gurb, for a boot partition on /dev/hda1 and
> >only
> ># one partition on the target SBC system.
> >nano -w /embedded_rootfs/boot/grub/grub.conf
> >/*
> >default 0
> >timeout 10
> >splashimage=(hd0,0)/boot/grub/splash.xpm.gz
> >
> >title=Linux 2.6.x
> >root (hd0,0)
> >kernel /vmlinuz-2.6.x root=/dev/hda1 vga=792
> >*/
> >
> ># Set root password for the embedded_rootfs
> >chromm /embedded_rootfs
> >passwd
> >rm /embedded_rootfs/etc/passwd-
> >exit
> >
> ># Modify fstab.
> ># Below is mine, yours may vary.
> >nano -w /embedded_rootfs/etc/fstab
> >/*
> >/dev/hda1		/		reiserfs	defaults
> >0 0
> >none			/proc		proc		defaults
> >0 0
> >none			/sys		sysfs		defaults
> >0 0
> >none			/dev/shm	tmpfs	defaults	0 0
> >*/
> >
> ># Clean up the embedded_rootfs.
> ># Don't know why these files are there in the first place, so if anyone
> ># can tell me why.....
> >rm -R /embedded_rootfs/var/db/pkg/ *
> >rm -R /embedded_rootfs/var/lib/portage/
> >
> >#---- Step 4 - Build and install non-system programs to the
> >embedded_rootfs --
> >
> ># Emerge other software you need for you embedded target.
> ># This is very wildly depending on your needs.
> ># Also your proprietary application will be done here.
> >emerge foo*
> >ROOT=/embedded_rootfs emerge -K foo*
> >
> >
> >#---- Step 5 - Build and install a kernel to the embedded_rootfs
> >-------------
> >
> ># Install a kernel into embedded_rootfs.
> ># First we will emerge it into our development_rootfs, then configure
> >and
> ># build it.
> >emerge vanilla-sources
> >cd /usr/src/
> >cd linux
> >make menuconfig
> ># Configure your kernel for your TARGET SBC here.  I HIGHLY suggest you
> ># configure the kernel to compile everything into the kernel, and
> >nothing
> ># as a module.
> >make
> >ROOT=/embedded_rootfs make modules_install
> >cp /usr/src/linux/arch/i386/boot/bzImage
> >/embedded_rootfs/boot/vmlinuz-2.6.x
> >
> ># A few notes on compiling your kernel.
> ># If deploying to Compact Flash/DiskOnChip/SD use ext2, as the
> >journaling
> ># filing systems "write" to much for a flash device.
> ># If deploying to a hard drive use a journaling filing system, such as
> ># ext3 or reiserfs.
> >
> >
> >#---- Step 6 - Deploy embedded_rootfs to target
> >------------------------------
> >
> ># Prepare a Gentoo (or any Linux distro) system on the target SBC using
> >a
> ># harddrive.  This is known as the target development rootfs.
> ># We will create a partition (/embedded_rootfs) that will server as our
> ># "test" partition to deploy our embedded_rootfs that we generate on our
> ># development_system.
> >#
> ># I use the following partitions to speed development (yours may vary):
> ># /dev/hda1 - /embedded_rootfs - 1 GB
> ># /dev/hda2 - /boot - 100 MB
> ># /dev/hda3 - swap - (size varies, 512 MB is a good number)
> ># /dev/hda4 - / - (what is left, at least 1.5 GB per 2005.0 install
> >guide
> >specs)
> >#
> ># Copy over your embedded_rootfs from you development system to your
> >target
> ># system and the directory /embedded_rootfs.  This needs to be done via
> >NFS as
> ># need to preserve the permissions.
> >#
> >#The following commands are done from the
> ># target development rootfs.
> >mount -t reiserfs /dev/hda1 /mnt/embedded_rootfs
> >mount -t nfs\
> >192.168.0.10:/opt/i586-gentoo-uclibc-linux/embedded_rootfs\
> >/mnt/nfs_embedded_rootfs
> >cp -adpR /mnt/nfs_embedded_rootfs/* /mnt/embedded_rootfs
> >
> >
> ># Modify your target system's gurb.conf (or lilo.conf) for allow you to
> >boot
> ># to the embedded_rootfs partition.
> >#
> ># Reboot, and if all goes well you'll be greeted with a login prompt.
> >#
> ># Fin.
> >
> >
> >
> >--
> >heath holcomb
> >liquidcable at bulah.com
> >www.bulah.com
> >--
> >gentoo-embedded@gentoo.org mailing list
> >
> >
> >
> >--
> >gentoo-embedded@gentoo.org mailing list

-- 
gentoo-embedded@gentoo.org mailing list

[gentoo-embedded] ffmpeg, susv3 math, and uclibc

[Kurt E. Kiefer]

I'm going to fork a new thread since this is a little off-topic from Heath's
howto post. The link from gentoo-wiki mentions mplayer and xine-lib.

Quoting Heath Holcomb <liquidcable@bulah.com>:

> I too am working with a VIA based SBCs.  A CLE266 version, CL10000; and a
> CN400 based one.
>
> If you ever want the hardware mpeg2 decoding take a look at
> http://gentoo-wiki.com/HOWTO_Unichrome

I was unsuccessful in getting xine-lib, or more specifically certain mpeg codecs
that use lrintf and other susv3 math, to run under uclibc. This does break
xine-lib completely. Because these math functions are part of uclibc headers,
programs that reference them compile fine, but ultimately symbols can't be
resolved at runtime since definitions don't actually exist in the .so.

A possible solution might be taking out the declarations from the math header so
ffmpeg uses its own definitions of the functions it wants. I spent a while on
this problem and tried to recompile libm with lrint and lrintf definitions, but
then it broke on another math function so I threw in the towel.

Maybe I'm missing something. Has anyone else had luck here?

Kurt

-- 
gentoo-embedded@gentoo.org mailing list

Re: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

[Heath Holcomb]

Those are some major errors on my part.  I will release a new version shortly 
(this weekend most likely).  I will also put back all of the work arounds. 

Thanks,

-- 
heath holcomb
liquidcable at bulah.com
www.bulah.com


On Friday 12 August 2005 01:39 am, Marcel Romijn wrote:
> Hello Heath,
>
> Nice writedown! I haven't made it to the end yet (lack of time), but I'm
> getting there...
>
> I noticed some issues along the way (not counting grub begin spelled as
> "grug" or "gurb" ;-) )
>
> In step 3 you write:
>
> <snip>
> # Set root password for the embedded_rootfs
> chromm /embedded_rootfs
> passwd
> rm /embedded_rootfs/etc/passwd-
> Exit
> </snip>
>
> I presume 'chromm' should have been 'chroot' ?
> If it is indeed 'chroot' then you should either do "rm /etc/passwd-"
> before the "exit" or the "exit" before the "rm
> /embedded_rootfs/etc/passwd-".
>
> A few lines down, you write:
>
> <snip>
> rm -R /embedded_rootfs/var/db/pkg/ *
> </snip>
>
> As a reletive newbie, doing a quick copy/paste of this command late in
> the evening as root in '/', this wiped out all files, except the ones
> that were firmly locked.
> Fortunately, I'm going through you HowTo in VMWare, so I could restore a
> previous snapshot ;-)
>
> I presume the space before the '*' should have been omitted?
>
> <snip>
> rm -R /embedded_rootfs/var/db/pkg/*
> </snip>
>
>
> My aim is to create an embedded Gentoo for a Via Epia ME6000, which
> reads the kernel and a ramdisk image from CF and then runs completely
> from RAM.
> If I'm not mistaken, you were heading for a Via Epia as well?
>
> Regards,
>
> Marcel Romijn
>
>
> -----Original Message-----
> From: Heath Holcomb [mailto:liquidcable@bulah.com]
> Sent: Monday, 08 August, 2005 4:17
> To: gentoo-embedded@lists.gentoo.org
> Subject: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
>
> Version 0.07
> Please add, delete, modify. Thanks!
>
> Several fixes.  Root password now works.  Several work arounds are no
> longer
> need, as the embedded Gentoo team has fixed them (I'm guess because I no
>
> longer get those errors).  There is still one problem when "emerge -e
> system"
> for groff.  Bug 98187 (http://bugs.gentoo.org/show_bug.cgi?id=98187).
> Check
> out the bug report for the temp fix/work around (USE="-sandbox" emerge
> -e
> system).
>
> I've update my website with this version also.
> http://www.bulah.com/embeddedgentoo.html
>
>
> #-----------------------------------------------------------------------
> ---------
> # Embedded Gentoo How-To for x86
> #
> # A how-to guide to setup a Gentoo embedded environment, you must be
> root.
> # These commands are to be run on your development system,
> # any x86 Gentoo Linux computer will do.  The system should be fast,
> # to speed development.  The target can be any x86 based SBC.  I'm
> # using a Geode based SBC.  Latter I'll use a Via based SBC.
> #
> # version 0.07
> # 2005.8.7
> #
> # Heath Holcomb (heath at bulah.com)
> # Ned Ludd (original commands posted)
> # Lloyd Sargent (contributor)
> # Yuri Vasilevski (contributor)
> # Mike George (contributor)
> # Kammi Cazze (contributor)
> # Marius Schaefer (contributor)
> #
> # Definitions and Terms
> # system_rootfs = your regular rootfs, development computer
> # development_rootfs = what you use to build the embedded_rootfs
> # embedded_rootfs = rootfs you deploy to the target system
> # SBC = single board computer (here it's an x86 based)
> #
> # References
> # http://www.gentoo.org/doc/en/handbook/index.xml
> # http://www.epiawiki.org
> # http://epia.kalf.org
> # Gentoo embedded mailing list (gentoo-embedded@lists.gentoo.org)
> #
> #
> # Overview of process (steps)
> # 1 - Prepare the development_rootfs from your system_rootfs
> # 2 - Build the development_rootfs
> # 3 - Build the embedded_rootfs
> # 4 - Build and install non-system programs to the embedded_rootfs
> # 5 - Build and install a kernel to the embedded_rootfs
> # 6 - Deploy embedded_rootfs to target
> #
> #-----------------------------------------------------------------------
> ---------
>
> #----- Step 1 - Prepare the development_rootfs from your system_rootfs
> -------
>
> # You must be root.
> su -
>
> # Create the development_rootfs.
> # I use i586 because of target is a Geode processor.
> mkdir -p /opt/i586-gentoo-uclibc-linux/usr/portage
>
> # Download the latest stage 1 tarball.
> wget \
> http://gentoo.osuosl.org/experimental/x86/embedded/stages/stage1-x86-ucl
> ibc-2005.0.tar.bz2
>
> # Untar the stage to the development_rootfs.
> tar -xvjpf stage1-x86-uclibc-2005.0.tar.bz2 -C
> /opt/i586-gentoo-uclibc-linux/
>
> # Mount the proc and portage directories to your development_rootfs.
> # Makes your system_rootfs's proc and portage directory available from
> inside
> # of your development_rootfs (after chrooting).
> mount --bind /proc /opt/i586-gentoo-uclibc-linux/proc/
> mount --bind /usr/portage /opt/i586-gentoo-uclibc-linux/usr/portage
>
> # Copy over DNS information to the development_rootfs.
> cp /etc/resolv.conf /opt/i586-gentoo-uclibc-linux/etc/resolv.conf
>
> # Chroot into the development_rootfs.
> chroot /opt/i586-gentoo-uclibc-linux /bin/bash --login
>
>
> #----- Step 2 - Build the development_rootfs
> ---------------------------------
>
> # Create new environment and load variables into memory.
> env-update
> source /etc/profile
>
> # Modify make.conf file to your liking/needs.
> nano -w /etc/make.conf
> # This is for my target, Geode x86 processor.
> /*
> USE="bitmap-fonts minimal truetype-fonts mmx"
> CHOST="i586-gentoo-linux-uclibc"
> CFLAGS="-march=i586 -Os -pipe -fomit-frame-pointer -mmmx"
> CXXFLAGS="${CFLAGS}"
> FEATURES="buildpkg"
>
> VIDEO_CARDS="chips"
> UCLIBC_CPU="586MMX"
> */
>
> # Set profile to use 2.6 kernel.
> # The current stage uses 2.4 by default, and for most cases you are
> going
> # to want a 2.6.x kernel.
> cd /etc/
> unlink make.profile
> ln -s ../usr/portage/profiles/uclibc/x86 make.profile
>
> # Start the bootstrap script.
> cd /usr/portage/scripts
> ./bootstrap.sh -p -v
> ./bootstrap.sh
>
> # Emerge the system ebuild for the development_rootfs.
> emerge -e system
>
> #----- Step 3 - Build the embedded_rootfs
> ------------------------------------
>
> # Create the embedded_rootfs directory.
> mkdir /embedded_rootfs
>
> # Emerge baselayout-lite into embedded_rootfs.
> # This gives your system a basic file structure.
> # 1.0_pre1 is the only one that is stable, right?
> cd /usr/portage/sys-apps/baselayout-lite/
> ROOT=/embedded_rootfs emerge baselayout-lite-1.0_pre1.ebuild
>
> # Workaround 1
> # Baselayout-lite is still beta, so a few fixes are needed.
> # There needs to be a directory "log" in /var.
> # Inittab calls for /usr/bin/tail, but it needs to /usr/bin.
> mkdir /embedded_rootfs/var/log
> nano -w /embedded_rootfs/etc/inittab
> /*
> #tty3::respawn:/usr/bin/tail -f /var/log/messages
> tty3::respawn:/bin/tail -f /var/log/messages
> */
>
> # Emerge uclibc into the embedded_rootfs.
> # Use the -K option because we don't get the extra files created by the
> # build/emerge process into our embedded rootfs which needs to be as
> # small as possible.
> ROOT=/embedded_rootfs emerge -K uclibc
>
> # Emerge busybox into the embedded_rootfs.
> # First you must emerge it into your development_rootfs.
> # This does not create the symlinks in our development embedded rootfs.
> emerge busybox
> ROOT=/embedded_rootfs emerge -K busybox
>
> # Create the symlinks for busybox in the embedded_rootfs.
> mkdir /embedded_rootfs/proc
> mount -o bind /proc/ /embedded_rootfs/proc/
> chroot /embedded_rootfs /bin/busybox --install -s
> umount /embedded_rootfs/proc
>
> # Set time zone in your embedded_rootfs.
> # See http://leaf.sourceforge.net/doc/guide/buci-tz.html for details.
> # For central standard time in the US, use "CST6CDT".
> nano -w /embedded_rootfs/etc/TZ
> /*
> CST6CDT
> */
>
> # Install a boot loader (usually grug or lilo).
> # Once you copy/deploy your embedded_rootfs to your target SBC you will
> # have to run grub on the command line to write to the master boot
> record
> # (MBR).
> # For some reason not all of /boot/grub is copied over to the
> # embedded_rootfs, so a extra manual copy step is needed.
> # The --nodeps gets rip of the run time need of ncurses.
> emerge --nodeps grub
> ROOT=/embedded_rootfs emerge -K --nodeps grub
> cp -R /boot/grub /embedded_rootfs/boot/
>
> # Modify your boot configure file.
> # The example below is for a gurb, for a boot partition on /dev/hda1 and
> only
> # one partition on the target SBC system.
> nano -w /embedded_rootfs/boot/grub/grub.conf
> /*
> default 0
> timeout 10
> splashimage=(hd0,0)/boot/grub/splash.xpm.gz
>
> title=Linux 2.6.x
> root (hd0,0)
> kernel /vmlinuz-2.6.x root=/dev/hda1 vga=792
> */
>
> # Set root password for the embedded_rootfs
> chromm /embedded_rootfs
> passwd
> rm /embedded_rootfs/etc/passwd-
> exit
>
> # Modify fstab.
> # Below is mine, yours may vary.
> nano -w /embedded_rootfs/etc/fstab
> /*
> /dev/hda1		/		reiserfs	defaults
> 0 0
> none			/proc		proc		defaults
> 0 0
> none			/sys		sysfs		defaults
> 0 0
> none			/dev/shm	tmpfs	defaults	0 0
> */
>
> # Clean up the embedded_rootfs.
> # Don't know why these files are there in the first place, so if anyone
> # can tell me why.....
> rm -R /embedded_rootfs/var/db/pkg/ *
> rm -R /embedded_rootfs/var/lib/portage/
>
> #---- Step 4 - Build and install non-system programs to the
> embedded_rootfs --
>
> # Emerge other software you need for you embedded target.
> # This is very wildly depending on your needs.
> # Also your proprietary application will be done here.
> emerge foo*
> ROOT=/embedded_rootfs emerge -K foo*
>
>
> #---- Step 5 - Build and install a kernel to the embedded_rootfs
> -------------
>
> # Install a kernel into embedded_rootfs.
> # First we will emerge it into our development_rootfs, then configure
> and
> # build it.
> emerge vanilla-sources
> cd /usr/src/
> cd linux
> make menuconfig
> # Configure your kernel for your TARGET SBC here.  I HIGHLY suggest you
> # configure the kernel to compile everything into the kernel, and
> nothing
> # as a module.
> make
> ROOT=/embedded_rootfs make modules_install
> cp /usr/src/linux/arch/i386/boot/bzImage
> /embedded_rootfs/boot/vmlinuz-2.6.x
>
> # A few notes on compiling your kernel.
> # If deploying to Compact Flash/DiskOnChip/SD use ext2, as the
> journaling
> # filing systems "write" to much for a flash device.
> # If deploying to a hard drive use a journaling filing system, such as
> # ext3 or reiserfs.
>
>
> #---- Step 6 - Deploy embedded_rootfs to target
> ------------------------------
>
> # Prepare a Gentoo (or any Linux distro) system on the target SBC using
> a
> # harddrive.  This is known as the target development rootfs.
> # We will create a partition (/embedded_rootfs) that will server as our
> # "test" partition to deploy our embedded_rootfs that we generate on our
> # development_system.
> #
> # I use the following partitions to speed development (yours may vary):
> # /dev/hda1 - /embedded_rootfs - 1 GB
> # /dev/hda2 - /boot - 100 MB
> # /dev/hda3 - swap - (size varies, 512 MB is a good number)
> # /dev/hda4 - / - (what is left, at least 1.5 GB per 2005.0 install
> guide
> specs)
> #
> # Copy over your embedded_rootfs from you development system to your
> target
> # system and the directory /embedded_rootfs.  This needs to be done via
> NFS as
> # need to preserve the permissions.
> #
> #The following commands are done from the
> # target development rootfs.
> mount -t reiserfs /dev/hda1 /mnt/embedded_rootfs
> mount -t nfs\
> 192.168.0.10:/opt/i586-gentoo-uclibc-linux/embedded_rootfs\
> /mnt/nfs_embedded_rootfs
> cp -adpR /mnt/nfs_embedded_rootfs/* /mnt/embedded_rootfs
>
>
> # Modify your target system's gurb.conf (or lilo.conf) for allow you to
> boot
> # to the embedded_rootfs partition.
> #
> # Reboot, and if all goes well you'll be greeted with a login prompt.
> #
> # Fin.
>
>
>
> --
> heath holcomb
> liquidcable at bulah.com
> www.bulah.com
> --
> gentoo-embedded@gentoo.org mailing list

-- 
gentoo-embedded@gentoo.org mailing list

Re: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

[Heath Holcomb]

On Friday 12 August 2005 01:39 am, Marcel Romijn wrote:
> Hello Heath,
>
> Nice writedown! I haven't made it to the end yet (lack of time), but I'm
> getting there...
>
> I noticed some issues along the way (not counting grub begin spelled as
> "grug" or "gurb" ;-) )
>
> In step 3 you write:
>
> <snip>
> # Set root password for the embedded_rootfs
> chromm /embedded_rootfs
> passwd
> rm /embedded_rootfs/etc/passwd-
> Exit
> </snip>
>
> I presume 'chromm' should have been 'chroot' ?
> If it is indeed 'chroot' then you should either do "rm /etc/passwd-"
> before the "exit" or the "exit" before the "rm
> /embedded_rootfs/etc/passwd-".

Yes, "chromm" should be "chroot".  The order is correct, as far as I can tell.
chroot /embedded_rootfs
passwd
rm /embedded_rootfs/etc/passwd-
exit


> A few lines down, you write:
>
> <snip>
> rm -R /embedded_rootfs/var/db/pkg/ *
> </snip>
>
> As a reletive newbie, doing a quick copy/paste of this command late in
> the evening as root in '/', this wiped out all files, except the ones
> that were firmly locked.
> Fortunately, I'm going through you HowTo in VMWare, so I could restore a
> previous snapshot ;-)
>
> I presume the space before the '*' should have been omitted?
>
> <snip>
> rm -R /embedded_rootfs/var/db/pkg/*
> </snip>

Major typo on my part.  Fixed in version 0.08.

>
> My aim is to create an embedded Gentoo for a Via Epia ME6000, which
> reads the kernel and a ramdisk image from CF and then runs completely
> from RAM.
> If I'm not mistaken, you were heading for a Via Epia as well?

My target will be a Via based SBC.  From what I have read using a ramdisk on a 
x86 based platform really does not buy you much.  But you sure don't want to 
write to the CF all that often (limited write cycles, usallay 100,000 to 
300,000).  So I plan on mounting the / partition of the CF as read only and 
creating a separate partition that is mounted read/write and have my embedded 
application and only my application write to that partition.

> Regards,
>
> Marcel Romijn
>
>
> -----Original Message-----
> From: Heath Holcomb [mailto:liquidcable@bulah.com]
> Sent: Monday, 08 August, 2005 4:17
> To: gentoo-embedded@lists.gentoo.org
> Subject: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
>
> Version 0.07
> Please add, delete, modify. Thanks!
>
> Several fixes.  Root password now works.  Several work arounds are no
> longer
> need, as the embedded Gentoo team has fixed them (I'm guess because I no
>
> longer get those errors).  There is still one problem when "emerge -e
> system"
> for groff.  Bug 98187 (http://bugs.gentoo.org/show_bug.cgi?id=98187).
> Check
> out the bug report for the temp fix/work around (USE="-sandbox" emerge
> -e
> system).
>
> I've update my website with this version also.
> http://www.bulah.com/embeddedgentoo.html
>
>
> #-----------------------------------------------------------------------
> ---------
> # Embedded Gentoo How-To for x86
> #
> # A how-to guide to setup a Gentoo embedded environment, you must be
> root.
> # These commands are to be run on your development system,
> # any x86 Gentoo Linux computer will do.  The system should be fast,
> # to speed development.  The target can be any x86 based SBC.  I'm
> # using a Geode based SBC.  Latter I'll use a Via based SBC.
> #
> # version 0.07
> # 2005.8.7
> #
> # Heath Holcomb (heath at bulah.com)
> # Ned Ludd (original commands posted)
> # Lloyd Sargent (contributor)
> # Yuri Vasilevski (contributor)
> # Mike George (contributor)
> # Kammi Cazze (contributor)
> # Marius Schaefer (contributor)
> #
> # Definitions and Terms
> # system_rootfs = your regular rootfs, development computer
> # development_rootfs = what you use to build the embedded_rootfs
> # embedded_rootfs = rootfs you deploy to the target system
> # SBC = single board computer (here it's an x86 based)
> #
> # References
> # http://www.gentoo.org/doc/en/handbook/index.xml
> # http://www.epiawiki.org
> # http://epia.kalf.org
> # Gentoo embedded mailing list (gentoo-embedded@lists.gentoo.org)
> #
> #
> # Overview of process (steps)
> # 1 - Prepare the development_rootfs from your system_rootfs
> # 2 - Build the development_rootfs
> # 3 - Build the embedded_rootfs
> # 4 - Build and install non-system programs to the embedded_rootfs
> # 5 - Build and install a kernel to the embedded_rootfs
> # 6 - Deploy embedded_rootfs to target
> #
> #-----------------------------------------------------------------------
> ---------
>
> #----- Step 1 - Prepare the development_rootfs from your system_rootfs
> -------
>
> # You must be root.
> su -
>
> # Create the development_rootfs.
> # I use i586 because of target is a Geode processor.
> mkdir -p /opt/i586-gentoo-uclibc-linux/usr/portage
>
> # Download the latest stage 1 tarball.
> wget \
> http://gentoo.osuosl.org/experimental/x86/embedded/stages/stage1-x86-ucl
> ibc-2005.0.tar.bz2
>
> # Untar the stage to the development_rootfs.
> tar -xvjpf stage1-x86-uclibc-2005.0.tar.bz2 -C
> /opt/i586-gentoo-uclibc-linux/
>
> # Mount the proc and portage directories to your development_rootfs.
> # Makes your system_rootfs's proc and portage directory available from
> inside
> # of your development_rootfs (after chrooting).
> mount --bind /proc /opt/i586-gentoo-uclibc-linux/proc/
> mount --bind /usr/portage /opt/i586-gentoo-uclibc-linux/usr/portage
>
> # Copy over DNS information to the development_rootfs.
> cp /etc/resolv.conf /opt/i586-gentoo-uclibc-linux/etc/resolv.conf
>
> # Chroot into the development_rootfs.
> chroot /opt/i586-gentoo-uclibc-linux /bin/bash --login
>
>
> #----- Step 2 - Build the development_rootfs
> ---------------------------------
>
> # Create new environment and load variables into memory.
> env-update
> source /etc/profile
>
> # Modify make.conf file to your liking/needs.
> nano -w /etc/make.conf
> # This is for my target, Geode x86 processor.
> /*
> USE="bitmap-fonts minimal truetype-fonts mmx"
> CHOST="i586-gentoo-linux-uclibc"
> CFLAGS="-march=i586 -Os -pipe -fomit-frame-pointer -mmmx"
> CXXFLAGS="${CFLAGS}"
> FEATURES="buildpkg"
>
> VIDEO_CARDS="chips"
> UCLIBC_CPU="586MMX"
> */
>
> # Set profile to use 2.6 kernel.
> # The current stage uses 2.4 by default, and for most cases you are
> going
> # to want a 2.6.x kernel.
> cd /etc/
> unlink make.profile
> ln -s ../usr/portage/profiles/uclibc/x86 make.profile
>
> # Start the bootstrap script.
> cd /usr/portage/scripts
> ./bootstrap.sh -p -v
> ./bootstrap.sh
>
> # Emerge the system ebuild for the development_rootfs.
> emerge -e system
>
> #----- Step 3 - Build the embedded_rootfs
> ------------------------------------
>
> # Create the embedded_rootfs directory.
> mkdir /embedded_rootfs
>
> # Emerge baselayout-lite into embedded_rootfs.
> # This gives your system a basic file structure.
> # 1.0_pre1 is the only one that is stable, right?
> cd /usr/portage/sys-apps/baselayout-lite/
> ROOT=/embedded_rootfs emerge baselayout-lite-1.0_pre1.ebuild
>
> # Workaround 1
> # Baselayout-lite is still beta, so a few fixes are needed.
> # There needs to be a directory "log" in /var.
> # Inittab calls for /usr/bin/tail, but it needs to /usr/bin.
> mkdir /embedded_rootfs/var/log
> nano -w /embedded_rootfs/etc/inittab
> /*
> #tty3::respawn:/usr/bin/tail -f /var/log/messages
> tty3::respawn:/bin/tail -f /var/log/messages
> */
>
> # Emerge uclibc into the embedded_rootfs.
> # Use the -K option because we don't get the extra files created by the
> # build/emerge process into our embedded rootfs which needs to be as
> # small as possible.
> ROOT=/embedded_rootfs emerge -K uclibc
>
> # Emerge busybox into the embedded_rootfs.
> # First you must emerge it into your development_rootfs.
> # This does not create the symlinks in our development embedded rootfs.
> emerge busybox
> ROOT=/embedded_rootfs emerge -K busybox
>
> # Create the symlinks for busybox in the embedded_rootfs.
> mkdir /embedded_rootfs/proc
> mount -o bind /proc/ /embedded_rootfs/proc/
> chroot /embedded_rootfs /bin/busybox --install -s
> umount /embedded_rootfs/proc
>
> # Set time zone in your embedded_rootfs.
> # See http://leaf.sourceforge.net/doc/guide/buci-tz.html for details.
> # For central standard time in the US, use "CST6CDT".
> nano -w /embedded_rootfs/etc/TZ
> /*
> CST6CDT
> */
>
> # Install a boot loader (usually grug or lilo).
> # Once you copy/deploy your embedded_rootfs to your target SBC you will
> # have to run grub on the command line to write to the master boot
> record
> # (MBR).
> # For some reason not all of /boot/grub is copied over to the
> # embedded_rootfs, so a extra manual copy step is needed.
> # The --nodeps gets rip of the run time need of ncurses.
> emerge --nodeps grub
> ROOT=/embedded_rootfs emerge -K --nodeps grub
> cp -R /boot/grub /embedded_rootfs/boot/
>
> # Modify your boot configure file.
> # The example below is for a gurb, for a boot partition on /dev/hda1 and
> only
> # one partition on the target SBC system.
> nano -w /embedded_rootfs/boot/grub/grub.conf
> /*
> default 0
> timeout 10
> splashimage=(hd0,0)/boot/grub/splash.xpm.gz
>
> title=Linux 2.6.x
> root (hd0,0)
> kernel /vmlinuz-2.6.x root=/dev/hda1 vga=792
> */
>
> # Set root password for the embedded_rootfs
> chromm /embedded_rootfs
> passwd
> rm /embedded_rootfs/etc/passwd-
> exit
>
> # Modify fstab.
> # Below is mine, yours may vary.
> nano -w /embedded_rootfs/etc/fstab
> /*
> /dev/hda1		/		reiserfs	defaults
> 0 0
> none			/proc		proc		defaults
> 0 0
> none			/sys		sysfs		defaults
> 0 0
> none			/dev/shm	tmpfs	defaults	0 0
> */
>
> # Clean up the embedded_rootfs.
> # Don't know why these files are there in the first place, so if anyone
> # can tell me why.....
> rm -R /embedded_rootfs/var/db/pkg/ *
> rm -R /embedded_rootfs/var/lib/portage/
>
> #---- Step 4 - Build and install non-system programs to the
> embedded_rootfs --
>
> # Emerge other software you need for you embedded target.
> # This is very wildly depending on your needs.
> # Also your proprietary application will be done here.
> emerge foo*
> ROOT=/embedded_rootfs emerge -K foo*
>
>
> #---- Step 5 - Build and install a kernel to the embedded_rootfs
> -------------
>
> # Install a kernel into embedded_rootfs.
> # First we will emerge it into our development_rootfs, then configure
> and
> # build it.
> emerge vanilla-sources
> cd /usr/src/
> cd linux
> make menuconfig
> # Configure your kernel for your TARGET SBC here.  I HIGHLY suggest you
> # configure the kernel to compile everything into the kernel, and
> nothing
> # as a module.
> make
> ROOT=/embedded_rootfs make modules_install
> cp /usr/src/linux/arch/i386/boot/bzImage
> /embedded_rootfs/boot/vmlinuz-2.6.x
>
> # A few notes on compiling your kernel.
> # If deploying to Compact Flash/DiskOnChip/SD use ext2, as the
> journaling
> # filing systems "write" to much for a flash device.
> # If deploying to a hard drive use a journaling filing system, such as
> # ext3 or reiserfs.
>
>
> #---- Step 6 - Deploy embedded_rootfs to target
> ------------------------------
>
> # Prepare a Gentoo (or any Linux distro) system on the target SBC using
> a
> # harddrive.  This is known as the target development rootfs.
> # We will create a partition (/embedded_rootfs) that will server as our
> # "test" partition to deploy our embedded_rootfs that we generate on our
> # development_system.
> #
> # I use the following partitions to speed development (yours may vary):
> # /dev/hda1 - /embedded_rootfs - 1 GB
> # /dev/hda2 - /boot - 100 MB
> # /dev/hda3 - swap - (size varies, 512 MB is a good number)
> # /dev/hda4 - / - (what is left, at least 1.5 GB per 2005.0 install
> guide
> specs)
> #
> # Copy over your embedded_rootfs from you development system to your
> target
> # system and the directory /embedded_rootfs.  This needs to be done via
> NFS as
> # need to preserve the permissions.
> #
> #The following commands are done from the
> # target development rootfs.
> mount -t reiserfs /dev/hda1 /mnt/embedded_rootfs
> mount -t nfs\
> 192.168.0.10:/opt/i586-gentoo-uclibc-linux/embedded_rootfs\
> /mnt/nfs_embedded_rootfs
> cp -adpR /mnt/nfs_embedded_rootfs/* /mnt/embedded_rootfs
>
>
> # Modify your target system's gurb.conf (or lilo.conf) for allow you to
> boot
> # to the embedded_rootfs partition.
> #
> # Reboot, and if all goes well you'll be greeted with a login prompt.
> #
> # Fin.
>
>
>
> --
> heath holcomb
> liquidcable at bulah.com
> www.bulah.com
> --
> gentoo-embedded@gentoo.org mailing list

-- 
heath holcomb
liquidcable at bulah.com
www.bulah.com
-- 
gentoo-embedded@gentoo.org mailing list

Re: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07

[Pierre Cassimans]

>From: Heath Holcomb <liquidcable@bulah.com>
>Reply-To: gentoo-embedded@lists.gentoo.org
>To: gentoo-embedded@lists.gentoo.org
>Subject: Re: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
>Date: Sat, 13 Aug 2005 17:52:40 -0500
>
>On Friday 12 August 2005 01:39 am, Marcel Romijn wrote:
> > Hello Heath,
> >
> > Nice writedown! I haven't made it to the end yet (lack of time), but I'm
> > getting there...
> >
> > I noticed some issues along the way (not counting grub begin spelled as
> > "grug" or "gurb" ;-) )
> >
> > In step 3 you write:
> >
> > <snip>
> > # Set root password for the embedded_rootfs
> > chromm /embedded_rootfs
> > passwd
> > rm /embedded_rootfs/etc/passwd-
> > Exit
> > </snip>
> >
> > I presume 'chromm' should have been 'chroot' ?
> > If it is indeed 'chroot' then you should either do "rm /etc/passwd-"
> > before the "exit" or the "exit" before the "rm
> > /embedded_rootfs/etc/passwd-".
>
>Yes, "chromm" should be "chroot".  The order is correct, as far as I can 
>tell.
>chroot /embedded_rootfs
>passwd
>rm /embedded_rootfs/etc/passwd-
>exit
>

I think Marcel got it right, first exit the chroot before you can remove 
something in /embedded_rootfs

OR

rm /etc/passwd- while you are in the chroot and exit after that.

>
> > A few lines down, you write:
> >
> > <snip>
> > rm -R /embedded_rootfs/var/db/pkg/ *
> > </snip>
> >
> > As a reletive newbie, doing a quick copy/paste of this command late in
> > the evening as root in '/', this wiped out all files, except the ones
> > that were firmly locked.
> > Fortunately, I'm going through you HowTo in VMWare, so I could restore a
> > previous snapshot ;-)
> >
> > I presume the space before the '*' should have been omitted?
> >
> > <snip>
> > rm -R /embedded_rootfs/var/db/pkg/*
> > </snip>
>
>Major typo on my part.  Fixed in version 0.08.
>
> >
> > My aim is to create an embedded Gentoo for a Via Epia ME6000, which
> > reads the kernel and a ramdisk image from CF and then runs completely
> > from RAM.
> > If I'm not mistaken, you were heading for a Via Epia as well?
>
>My target will be a Via based SBC.  From what I have read using a ramdisk 
>on a
>x86 based platform really does not buy you much.  But you sure don't want 
>to
>write to the CF all that often (limited write cycles, usallay 100,000 to
>300,000).  So I plan on mounting the / partition of the CF as read only and
>creating a separate partition that is mounted read/write and have my 
>embedded
>application and only my application write to that partition.
>
> > Regards,
> >
> > Marcel Romijn
> >
> >
> > -----Original Message-----
> > From: Heath Holcomb [mailto:liquidcable@bulah.com]
> > Sent: Monday, 08 August, 2005 4:17
> > To: gentoo-embedded@lists.gentoo.org
> > Subject: [gentoo-embedded] x86 SBC Gentoo Embedded HotTo version 0.07
> >
> > Version 0.07
> > Please add, delete, modify. Thanks!
> >
> > Several fixes.  Root password now works.  Several work arounds are no
> > longer
> > need, as the embedded Gentoo team has fixed them (I'm guess because I no
> >
> > longer get those errors).  There is still one problem when "emerge -e
> > system"
> > for groff.  Bug 98187 (http://bugs.gentoo.org/show_bug.cgi?id=98187).
> > Check
> > out the bug report for the temp fix/work around (USE="-sandbox" emerge
> > -e
> > system).
> >
> > I've update my website with this version also.
> > http://www.bulah.com/embeddedgentoo.html
> >
> >
> > #-----------------------------------------------------------------------
> > ---------
> > # Embedded Gentoo How-To for x86
> > #
> > # A how-to guide to setup a Gentoo embedded environment, you must be
> > root.
> > # These commands are to be run on your development system,
> > # any x86 Gentoo Linux computer will do.  The system should be fast,
> > # to speed development.  The target can be any x86 based SBC.  I'm
> > # using a Geode based SBC.  Latter I'll use a Via based SBC.
> > #
> > # version 0.07
> > # 2005.8.7
> > #
> > # Heath Holcomb (heath at bulah.com)
> > # Ned Ludd (original commands posted)
> > # Lloyd Sargent (contributor)
> > # Yuri Vasilevski (contributor)
> > # Mike George (contributor)
> > # Kammi Cazze (contributor)
> > # Marius Schaefer (contributor)
> > #
> > # Definitions and Terms
> > # system_rootfs = your regular rootfs, development computer
> > # development_rootfs = what you use to build the embedded_rootfs
> > # embedded_rootfs = rootfs you deploy to the target system
> > # SBC = single board computer (here it's an x86 based)
> > #
> > # References
> > # http://www.gentoo.org/doc/en/handbook/index.xml
> > # http://www.epiawiki.org
> > # http://epia.kalf.org
> > # Gentoo embedded mailing list (gentoo-embedded@lists.gentoo.org)
> > #
> > #
> > # Overview of process (steps)
> > # 1 - Prepare the development_rootfs from your system_rootfs
> > # 2 - Build the development_rootfs
> > # 3 - Build the embedded_rootfs
> > # 4 - Build and install non-system programs to the embedded_rootfs
> > # 5 - Build and install a kernel to the embedded_rootfs
> > # 6 - Deploy embedded_rootfs to target
> > #
> > #-----------------------------------------------------------------------
> > ---------
> >
> > #----- Step 1 - Prepare the development_rootfs from your system_rootfs
> > -------
> >
> > # You must be root.
> > su -
> >
> > # Create the development_rootfs.
> > # I use i586 because of target is a Geode processor.
> > mkdir -p /opt/i586-gentoo-uclibc-linux/usr/portage
> >
> > # Download the latest stage 1 tarball.
> > wget \
> > http://gentoo.osuosl.org/experimental/x86/embedded/stages/stage1-x86-ucl
> > ibc-2005.0.tar.bz2
> >
> > # Untar the stage to the development_rootfs.
> > tar -xvjpf stage1-x86-uclibc-2005.0.tar.bz2 -C
> > /opt/i586-gentoo-uclibc-linux/
> >
> > # Mount the proc and portage directories to your development_rootfs.
> > # Makes your system_rootfs's proc and portage directory available from
> > inside
> > # of your development_rootfs (after chrooting).
> > mount --bind /proc /opt/i586-gentoo-uclibc-linux/proc/
> > mount --bind /usr/portage /opt/i586-gentoo-uclibc-linux/usr/portage
> >
> > # Copy over DNS information to the development_rootfs.
> > cp /etc/resolv.conf /opt/i586-gentoo-uclibc-linux/etc/resolv.conf
> >
> > # Chroot into the development_rootfs.
> > chroot /opt/i586-gentoo-uclibc-linux /bin/bash --login
> >
> >
> > #----- Step 2 - Build the development_rootfs
> > ---------------------------------
> >
> > # Create new environment and load variables into memory.
> > env-update
> > source /etc/profile
> >
> > # Modify make.conf file to your liking/needs.
> > nano -w /etc/make.conf
> > # This is for my target, Geode x86 processor.
> > /*
> > USE="bitmap-fonts minimal truetype-fonts mmx"
> > CHOST="i586-gentoo-linux-uclibc"
> > CFLAGS="-march=i586 -Os -pipe -fomit-frame-pointer -mmmx"
> > CXXFLAGS="${CFLAGS}"
> > FEATURES="buildpkg"
> >
> > VIDEO_CARDS="chips"
> > UCLIBC_CPU="586MMX"
> > */
> >
> > # Set profile to use 2.6 kernel.
> > # The current stage uses 2.4 by default, and for most cases you are
> > going
> > # to want a 2.6.x kernel.
> > cd /etc/
> > unlink make.profile
> > ln -s ../usr/portage/profiles/uclibc/x86 make.profile
> >
> > # Start the bootstrap script.
> > cd /usr/portage/scripts
> > ./bootstrap.sh -p -v
> > ./bootstrap.sh
> >
> > # Emerge the system ebuild for the development_rootfs.
> > emerge -e system
> >
> > #----- Step 3 - Build the embedded_rootfs
> > ------------------------------------
> >
> > # Create the embedded_rootfs directory.
> > mkdir /embedded_rootfs
> >
> > # Emerge baselayout-lite into embedded_rootfs.
> > # This gives your system a basic file structure.
> > # 1.0_pre1 is the only one that is stable, right?
> > cd /usr/portage/sys-apps/baselayout-lite/
> > ROOT=/embedded_rootfs emerge baselayout-lite-1.0_pre1.ebuild
> >
> > # Workaround 1
> > # Baselayout-lite is still beta, so a few fixes are needed.
> > # There needs to be a directory "log" in /var.
> > # Inittab calls for /usr/bin/tail, but it needs to /usr/bin.
> > mkdir /embedded_rootfs/var/log
> > nano -w /embedded_rootfs/etc/inittab
> > /*
> > #tty3::respawn:/usr/bin/tail -f /var/log/messages
> > tty3::respawn:/bin/tail -f /var/log/messages
> > */
> >
> > # Emerge uclibc into the embedded_rootfs.
> > # Use the -K option because we don't get the extra files created by the
> > # build/emerge process into our embedded rootfs which needs to be as
> > # small as possible.
> > ROOT=/embedded_rootfs emerge -K uclibc
> >
> > # Emerge busybox into the embedded_rootfs.
> > # First you must emerge it into your development_rootfs.
> > # This does not create the symlinks in our development embedded rootfs.
> > emerge busybox
> > ROOT=/embedded_rootfs emerge -K busybox
> >
> > # Create the symlinks for busybox in the embedded_rootfs.
> > mkdir /embedded_rootfs/proc
> > mount -o bind /proc/ /embedded_rootfs/proc/
> > chroot /embedded_rootfs /bin/busybox --install -s
> > umount /embedded_rootfs/proc
> >
> > # Set time zone in your embedded_rootfs.
> > # See http://leaf.sourceforge.net/doc/guide/buci-tz.html for details.
> > # For central standard time in the US, use "CST6CDT".
> > nano -w /embedded_rootfs/etc/TZ
> > /*
> > CST6CDT
> > */
> >
> > # Install a boot loader (usually grug or lilo).
> > # Once you copy/deploy your embedded_rootfs to your target SBC you will
> > # have to run grub on the command line to write to the master boot
> > record
> > # (MBR).
> > # For some reason not all of /boot/grub is copied over to the
> > # embedded_rootfs, so a extra manual copy step is needed.
> > # The --nodeps gets rip of the run time need of ncurses.
> > emerge --nodeps grub
> > ROOT=/embedded_rootfs emerge -K --nodeps grub
> > cp -R /boot/grub /embedded_rootfs/boot/
> >
> > # Modify your boot configure file.
> > # The example below is for a gurb, for a boot partition on /dev/hda1 and
> > only
> > # one partition on the target SBC system.
> > nano -w /embedded_rootfs/boot/grub/grub.conf
> > /*
> > default 0
> > timeout 10
> > splashimage=(hd0,0)/boot/grub/splash.xpm.gz
> >
> > title=Linux 2.6.x
> > root (hd0,0)
> > kernel /vmlinuz-2.6.x root=/dev/hda1 vga=792
> > */
> >
> > # Set root password for the embedded_rootfs
> > chromm /embedded_rootfs
> > passwd
> > rm /embedded_rootfs/etc/passwd-
> > exit
> >
> > # Modify fstab.
> > # Below is mine, yours may vary.
> > nano -w /embedded_rootfs/etc/fstab
> > /*
> > /dev/hda1		/		reiserfs	defaults
> > 0 0
> > none			/proc		proc		defaults
> > 0 0
> > none			/sys		sysfs		defaults
> > 0 0
> > none			/dev/shm	tmpfs	defaults	0 0
> > */
> >
> > # Clean up the embedded_rootfs.
> > # Don't know why these files are there in the first place, so if anyone
> > # can tell me why.....
> > rm -R /embedded_rootfs/var/db/pkg/ *
> > rm -R /embedded_rootfs/var/lib/portage/
> >
> > #---- Step 4 - Build and install non-system programs to the
> > embedded_rootfs --
> >
> > # Emerge other software you need for you embedded target.
> > # This is very wildly depending on your needs.
> > # Also your proprietary application will be done here.
> > emerge foo*
> > ROOT=/embedded_rootfs emerge -K foo*
> >
> >
> > #---- Step 5 - Build and install a kernel to the embedded_rootfs
> > -------------
> >
> > # Install a kernel into embedded_rootfs.
> > # First we will emerge it into our development_rootfs, then configure
> > and
> > # build it.
> > emerge vanilla-sources
> > cd /usr/src/
> > cd linux
> > make menuconfig
> > # Configure your kernel for your TARGET SBC here.  I HIGHLY suggest you
> > # configure the kernel to compile everything into the kernel, and
> > nothing
> > # as a module.
> > make
> > ROOT=/embedded_rootfs make modules_install
> > cp /usr/src/linux/arch/i386/boot/bzImage
> > /embedded_rootfs/boot/vmlinuz-2.6.x
> >
> > # A few notes on compiling your kernel.
> > # If deploying to Compact Flash/DiskOnChip/SD use ext2, as the
> > journaling
> > # filing systems "write" to much for a flash device.
> > # If deploying to a hard drive use a journaling filing system, such as
> > # ext3 or reiserfs.
> >
> >
> > #---- Step 6 - Deploy embedded_rootfs to target
> > ------------------------------
> >
> > # Prepare a Gentoo (or any Linux distro) system on the target SBC using
> > a
> > # harddrive.  This is known as the target development rootfs.
> > # We will create a partition (/embedded_rootfs) that will server as our
> > # "test" partition to deploy our embedded_rootfs that we generate on our
> > # development_system.
> > #
> > # I use the following partitions to speed development (yours may vary):
> > # /dev/hda1 - /embedded_rootfs - 1 GB
> > # /dev/hda2 - /boot - 100 MB
> > # /dev/hda3 - swap - (size varies, 512 MB is a good number)
> > # /dev/hda4 - / - (what is left, at least 1.5 GB per 2005.0 install
> > guide
> > specs)
> > #
> > # Copy over your embedded_rootfs from you development system to your
> > target
> > # system and the directory /embedded_rootfs.  This needs to be done via
> > NFS as
> > # need to preserve the permissions.
> > #
> > #The following commands are done from the
> > # target development rootfs.
> > mount -t reiserfs /dev/hda1 /mnt/embedded_rootfs
> > mount -t nfs\
> > 192.168.0.10:/opt/i586-gentoo-uclibc-linux/embedded_rootfs\
> > /mnt/nfs_embedded_rootfs
> > cp -adpR /mnt/nfs_embedded_rootfs/* /mnt/embedded_rootfs
> >
> >
> > # Modify your target system's gurb.conf (or lilo.conf) for allow you to
> > boot
> > # to the embedded_rootfs partition.
> > #
> > # Reboot, and if all goes well you'll be greeted with a login prompt.
> > #
> > # Fin.
> >
> >
> >
> > --
> > heath holcomb
> > liquidcable at bulah.com
> > www.bulah.com
> > --
> > gentoo-embedded@gentoo.org mailing list
>
>--
>heath holcomb
>liquidcable at bulah.com
>www.bulah.com
>--
>gentoo-embedded@gentoo.org mailing list
>


Regards,

Pierre Cassimans


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