Linux From Scratch

Gerard Beekmans

Version 2.2, April 3rd, 2000


This document describes the process of creating your own Linux system from scratch from an already installed Linux distribution, using nothing but the source code of software that we need

1. Introduction

2. Conventions used in this document

3. Packages you need to download

4. Preparing the new system

5. Making the LFS system bootable

6. Installing a kernel

7. Installing basic system software

8. Creating system boot scripts

9. Setting up basic networking

10. Installing Network Daemons

11. Installing Network Clients

12. Installing X Window System

13. Resources

14. The End

15. Copyright & Licensing Information


1. Introduction

1.1 What's this all about?

Having used a number of different Linux distributions, I was never fully satisfied with either of those. I didn't like the way the bootscripts were arranged, or I didn't like the way certain programs were configured by default and more of those things. I came to realize that when I want to be totally satisfied with a Linux system, I have to build my own Linux system from scratch. Ideally only using the source code. No pre-compiled packages of any kind. No help from some sort of cdrom or bootdisk that would install some basic utilities. You would use your current Linux system and use that one to build your own.

This, at one time, wild idea seemed very difficult and at times almost impossible. The reason for most problems were due to my lack of knowledge about certain programs and procedures. After sorted out all kinds of dependency problems, compilation problems, etcetera, a manually Linux system was created and fully operational. I called this system and LFS system which stands for LinuxFromScratch.

1.2 New versions

The latest version of the document can always be found at http://www.linuxfromscratch.org

1.3 Version history

2.1.5 - March 26th, 2000

This is not a full list of modified things. Because v2.0 is a major release, only the major changes are mentioned and not the minor ones.

2.2 - April 3rd, 2000

1.4 Mailinglists

There are two mailing lists you can subscribe to. The lfs-discuss and the lfs-announce list. The former is an open non-moderated list discussing anything that has got anything to do with this document. The latter is an open moderated list. Anybody can subscribe to it, but you cannot post messages to it (only the moderator(s) can do this). This list is primarily used for announcements of new versions of this document.

If you're subscribed to the lfs-discuss list you don't need to be subscribed to the lfs-announce list as well. Everything that is sent over the lfs-announce list is also sent over the lfs-discuss list.

Subscribing

To subscribe to a list, send an email to majordomo@fist.org and type in the body either subscribe lfs-discuss or subscribe lfs-announce

Majordomo will send you a confirmation-request email. This email will contain an authentication code. Once you send this email back to Majordomo (instructions are provided in that email) you will be subscribed.

Unsubscribing

To unsubscribe from a list, send an email to majordomo@fist.org and type in the the body either unsubscribe lfs-discuss or unsubscribe lfs-announce

1.5 Contact info

Direct all your questions preferably to the mailing list. If you need to reach me personally, send an email to


2. Conventions used in this document

2.1 About $LFS

Please read the following carefully: throughout this document you will frequently see the variable name $LFS. $LFS must at all times be replaced by the directory where the partition that contains the LFS system is mounted. How to create and where to mount the partition will be explained later on in full detail in chapter 4. In my case the LFS partition is mounted on /mnt/hda5. If I read this document myself and I see $LFS somewhere, I will pretend that I read /mnt/hda5. If I read that I have to run this command: cp inittab $LFS/etc I actually will run this: cp inittab /mnt/hda5/etc

It's important that you do this no matter where you read it; be it in commands you enter on the prompt, or in some file you edit or create.

If you want, you can set the environment variable LFS. This way you can literally enter $LFS in stead of replacing it by something like /mnt/hda5. This is accomplished by running: export LFS=/mnt/hda5

If I read cp inittab $LFS/etc, I literally can type cp inittab $LFS/etc and the shell will replace this command by cp inittab /mnt/hda5/etc automatically.

Do not forget to set the LFS variable at all times. If you haven't set the variable and you use it in a command, $LFS will be ignored and whatever is left will be executed. The command cp inittab $LFS/etc without the LFS variable set, will result in copying the inittab file to the /etc directory which will overwrite your system's inittab. A file like inittab isn't that big a problem as it can easily be restored, but if you would make this mistake during the installation of the C Library, you can break your system badly and might have to reinstall it if you don't know how to repair it. So that's why I strongly advise against using the LFS variable. You better replace $LFS yourself by something like /mnt/hda5. If you make a typo while entering /mnt/hda5, the worst thing that can happen is that you'll get an error saying "no such file or directory" but it won't break your system. Don't say I didn't warn you ;)

2.2 How to download the software

Throughout this document I will assume that you have stored all the packages you have downloaded in a subdirectory under $LFS/usr/src.

I myself have use the convention of having a $LFS/usr/src/sources directory. Under sources you'll find the directory 0-9 and the directories a through z. A package as sysvinit-2.78.tar.gz is stored under $LFS/usr/src/sources/s/ A package as bash-3.02.tar.gz is stored under $LFS/usr/src/sources/b/ and so forth. You don't have to follow this convention of course, I was just giving an example. It's better to keep the packages out of $LFS/usr/src and move them to a subdirectory, so we'll have a clean $LFS/usr/src directory in which we will unpack the packages and work with them.

The next chapter contains the list of all the packages you need to download, but the partition that is going to contain our LFS system isn't created yet. Therefore store the files temporarily somewhere where you want and remember to copy them to $LFS/usr/src/<somesubdirectory> when you have finished chapter 4.

2.3 How to install the software

Before you can actually start doing something with a package, you need to unpack it first. Often you will find the package files being tar'ed and gzip'ed (you can see this from a .tar.gz or .tgz extension). I'm not going to write down every time how to ungzip and how to untar an archive. I will tell you how to that once, in this paragraph. There is also the possibility that you have the possibility of downloading a .tar.bz2 file. Such a file is tar'ed and compressed with the bzip2 program. Bzip2 achieves a better compression than the commonly used gzip does. In order to use bz2 archives you need to have the bzip2 program installed. Most if not every distribution comes with this program so chances are high it is already installed on your system. If not, install it using your distribution's installation tool.

Note that immediately after we have unpacked the archive, we delete the package file as we don't need it anymore. That's why you have to copy the file and not move it. If you move it and then delete it, you will need to re-download it when you need it again.

When the archive is unpacked a new directory will be created under the current directory (and this document assumes that you unpack the archives under the $LFS/usr/src directory). You have to enter that new directory before you continue with the installation instructions. All the above will be summarized as 'Unpack the xxx archive'. So, when you read it, you copy the package to $LFS/usr/src, you run the tar program to ungzip/unbzip and untar it, then you enter the directory that was created and then you read the next line of the installation instructions.

After you have installed a package you can do two things with it. You can either delete the directory that contains the sources or you can keep it. If you decide to keep it, that's fine by me. But if you need the same package again in a later chapter (all software up to chapter 7.2 will be re-installed in chapter 7.3) you need to delete the directory first before using it again. If you don't do this, you might end up in trouble because old settings will be used (settings that apply to your normal Linux system but which don't apply anymore when you have restarted your computer into the LFS system). Doing a simple make clean does not always guarantee a totally clean source tree. The configure script also has files lying around in various subdirectories which are rarely removed by the make clean process.


3. Packages you need to download

Below is a list of all the software that you need to download for use in this document. I display the sites and directories where you can download the software, but it is up to you to make sure you download the source archive and the latest version. The version numbers correspondent to versions of the software that is known to work and which this document is going to be based on. If you experience problems which you can't solve yourself, download the version that is assumed in this document (in case you download a newer version).

3.1 Mandatory software

Sysvinit (2.78) : ftp://ftp.cistron.nl/pub/people/miquels/sysvinit/

Bash (2.03) : ftp://ftp.gnu.org/gnu/bash/

Linux Kernel (2.2.14) : ftp://ftp.kernel.org/pub/linux/kernel/

Binutils (2.9.1) : ftp://ftp.gnu.org/gnu/binutils/

Bzip2 (0.9.5d) : http://sourceware.cygnus.com/bzip2/

Diff Utils (2.7) : ftp://ftp.gnu.org/gnu/diffutils/

File Utils (4.0) : ftp://ftp.gnu.org/gnu/fileutils/

GCC (2.95.2) : ftp://ftp.gnu.org/gnu/gcc/

Glibc (2.1.3) : ftp://ftp.gnu.org/gnu/glibc/

Glibc-crypt (2.1.2) : ftp://ftp.gwdg.de/pub/linux/glibc/

Glibc-linuxthreads (2.1.3) : ftp://ftp.gnu.org/gnu/glibc/

Grep (2.4) : ftp://ftp.gnu.org/gnu/grep/

Gzip (1.2.4) : ftp://ftp.gnu.org/gnu/gzip/

Make (3.78.1) : ftp://ftp.gnu.org/gnu/make/

Sed (3.02) : ftp://ftp.gnu.org/gnu/sed/

Shell Utils (2.0) : ftp://ftp.gnu.org/gnu/sh-utils/

Tar (1.13) : ftp://ftp.gnu.org/gnu/tar/

Text Utils (2.0) : ftp://ftp.gnu.org/gnu/textutils/

Util Linux (2.10f) : ftp://ftp.win.tue.nl/pub/linux/utils/util-linux/

Bison (1.28) : ftp://ftp.gnu.org/gnu/bison/

Mawk (1.3.3) : ftp://ftp.whidbey.net/pub/brennan/

Find Utils (4.1) : ftp://ftp.gnu.org/gnu/findutils/

Ncurses (5.0) : ftp://ftp.gnu.org/gnu/ncurses/

Less (340) : ftp://ftp.gnu.org/gnu/less/

Perl (5.005_03) : ftp://ftp.gnu.org/gnu/perl/

M4 (1.4) : ftp://ftp.gnu.org/gnu/m4/

Texinfo (4.0) : ftp://ftp.gnu.org/gnu/texinfo/

Autoconf (2.13) : ftp://ftp.gnu.org/gnu/autoconf/

Automake (1.4) : ftp://ftp.gnu.org/gnu/automake/

Flex (2.5.4a) : ftp://ftp.gnu.org/gnu/flex/

E2fsprogs (1.18) : ftp://tsx-11.mit.edu/pub/linux/packages/ext2fs/

File (3.26) : http://www.linuxfromscratch.org/download/file-3.26-lfs.tar.gz

Groff (1.15) : ftp://ftp.gnu.org/gnu/groff/

Ld.so (1.9.9) : ftp://tsx-11.mit.edu/pub/linux/packages/GCC/

Libtool (1.3.4) : ftp://ftp.gnu.org/gnu/libtool/

Linux86 (0.14.3) : http://www.linuxfromscratch.org/download/linux86-0.14.3-lfs.tar.gz

Lilo (21) : ftp://sunsite.unc.edu/pub/Linux/system/boot/lilo/

Shadow Password Suite (19990827) : ftp://piast.t19.ds.pwr.wroc.pl/pub/linux/shadow/

Man (1.5h1) : ftp://ftp.win.tue.nl/pub/linux-local/utils/man/

Modutils (2.3.9) : ftp://ftp.ocs.com.au/pub/modutils/

Termcap (1.3) : ftp://ftp.gnu.org/gnu/termcap/

Procinfo (17) : ftp://ftp.cistron.nl/pub/people/svm/

Procps (2.0.6) : ftp://people.redhat.com/johnsonm/procps/

Psmisc (19) : ftp://lrcftp.epfl.ch/pub/linux/local/psmisc/

Start-stop-daemon (0.4.1) : http://www.linuxfromscratch.org/download/ssd-0.4.1-lfs.tar.gz

Sysklogd (1.3.31) : ftp://sunsite.unc.edu/pub/Linux/system/daemons/

Vim (5.6) : ftp://ftp.vim.org/pub/editors/vim/unix/

3.2 Optional software

All software below is used in sections 13 and above and are not strictly necessary. You have to determine for yourself if you want to install certain packages. If, for example, you don't intend to go online with the LFS system, you might not want to install the email, telnet, ftp, www, etc. utilities.

Netkit-base (0.17) : ftp://ftp.uk.linux.org/pub/linux/Networking/netkit-devel/

Net-tools (1.54) : http://www.tazenda.demon.co.uk/phil/net-tools/

Procmail (3.14) : ftp://ftp.procmail.org/pub/procmail/

Sendmail (8.9.3) : ftp://ftp.sendmail.org/pub/sendmail/

Mailx (8.1.1) : http://www.linuxfromscratch.org/download/mailx-8.1.1-fixed.tar.gz

Mutt (1.0i) : ftp://ftp.mutt.org/pub/mutt/

Fetchmail (5.2.0) : http://www.tuxedo.org/~esr/fetchmail/

Netkit-telnet (0.17) : ftp://ftp.uk.linux.org/pub/linux/Networking/netkit-devel/

Proftpd (1.2.0pre9) : ftp://ftp.tos.net/pub/proftpd/

Netkit-ftp (0.17) : ftp://ftp.uk.linux.org/pub/linux/Networking/netkit-devel/

Apache (1.3.11) : http://www.apache.org/dist/

Zlib Library (1.1.3) : http://www.cdrom.com/pub/infozip/zlib/

Lynx (2.8.2) : http://www.slcc.edu/lynx/release/

PPP (2.3.11) : ftp://cs.anu.edu.au/pub/software/ppp/

Xfree86 (3.3.5) : ftp://ftp.xfree86.org/pub/XFree86/

libPropList (0.9.1) : ftp://ftp.windowmaker.org/pub/libs/

libXpm (4.7) : ftp://sunsite.unc.edu/pub/Linux/libs/X/

libpng (1.0.3) : http://www.cdrom.com/pub/png/

libtiff (3.4) : ftp://ftp.sgi.com/graphics/tiff/

libjpeg (6b) : http://www.ijg.org/

libungif (4.1.0) : ftp://prtr-13.ucsc.edu/pub/libungif/

WindowMaker (0.61.1) :


4. Preparing the new system

4.1 How we are going to do things

We are going to build the LFS system using an already installed Linux distribution such as Debian, SuSe, Slackware, Mandrake, RedHat, etc. You don't need to have any kind of bootdisk. We will use an existing Linux system as the base (since we need a compiler, linker, text editor and other tools).

If you don't have Linux installed yet, you won't be able to put this document to use right away. I suggest you first install a Linux distribution. It really doesn't matter which one you install. It also doesn't need to be the latest version, though it shouldn't be a too old one. If it is about a year old or newer it'll do just fine. You will safe yourself a lot of trouble if your normal system uses glibc-2.0 or newer. Libc5 can cause some problems and is not supported in this document as I don't have access to such a machine anymore.

4.2 Creating a new partition

Before we can build our new Linux system, we need to have an empty Linux partition on which we can build our new system. I recommend a partition size of at least 5 00 MB. You can get away with around 250MB for a bare system with no extra whistles and bells (such as software for emailing, networking, Internet, X Window System and such). If you already have a Linux Native partition available, you can skip this subsection.

Start the fdisk program (or some other fdisk program if you prefer) with the appropriate hard disk as the option (like /dev/hda if you want to create a new partition on the primary master IDE disk). Create a Linux Native partition, write the partition table and exit the fdisk program. If you get the message that you need to reboot your system to ensure that that partition table is updated, then please reboot your system now before continuing. Remember what your new partition's designation is. It could be something like hda5 (as it is in my case). This newly created partition will be referred to as the LFS partition in this document.

4.3 Creating an ext2 file system on the new partition

Once the partition is created, we have to create a new ext2 file system on that partition. To create a new ext2 file system we use the mke2fs command. Enter the new partition as the only option and the file system will be created. If your partition was hda5, you would run the command as mke2fs /dev/hda5

4.4 Mounting the new partition

Once we have created the ext2 file system, it is ready for use. All we have to do to be able to access it (as in reading from and writing date to it) is mounting it. If you mount it under /mnt/hda5, you can access this partition by going to the /mnt/hda5 directory and then do whatever you need to do. This document will assume that you have mounted the partition on a subdirectory under /mnt. It doesn't matter which subdirectory you choose (or you can use just the /mnt directory as the mounting point), but a good practice is to create a directory with the same name as the partition's designation. In my case the LFS partition is called hda5 and therefore I mount it on /mnt/hda5

This directory (/mnt/xxx) is the $LFS you have read about earlier. So if you read somewhere to "cp inittab $LFS/etc" you actually will type "cp inittab /mnt/xxx/etc" where xxx is replaced by your partition's designation.

4.5 Creating directories

Let's create the directory tree on the LFS partition according to the FHS standard which can be found at http://www.pathname.com/fhs/. Issuing the following commands will create the necessary directories.

cd $LFS
mkdir bin boot dev etc home lib mnt proc root sbin tmp usr var
cd $LFS/usr
mkdir bin include lib sbin share src
ln -s share/man man
ln -s share/doc doc
ln -s . local
ln -s ../etc etc
ln -s ../var var
cd $LFS/usr/share
mkdir dict doc info locale man nls misc terminfo zoneinfo
cd $LFS/usr/share/man
mkdir man1 man2 man3 man4 man5 man6 man7 man8
cd $LFS/var
mkdir lock log run spool tmp
 

Now that the directories are created, copy the source files you have downloaded in chapter 3 to some subdirectory under $LFS/usr/src (you will need to create this subdirectory yourself).

4.6 Copying the /dev directory

We can create every single file that we need to be in the $LFS/dev directory using the mknod command, but that just takes up a lot of time. I choose to just simply copy the current /dev directory to the $LFS partition. Use this command to copy the entire directory while preserving original rights, symlinks and ownerships:

cp -av /dev $LFS
chown root.root $LFS/dev/*
 

5. Making the LFS system bootable

5.1 Installing Sysvinit

Under normal circumstances, after the kernel is done loading and initializing various system components, it attempts to load a program called init which will finalize the system boot process. The package found on most if not every single Linux system is called Sysvinit and that's the program we're going to install on our LFS system.

After applying the $(ROOT) parts to the last four lines, they should look like this:

   @if [! -p $(ROOT)/dev/initctl ]; then \
   echo "Creating $(ROOT)/dev/initctl"; \
   rm -f $(ROOT)/dev/initctl; \
   mknod -m 600 $(ROOT)/dev/initctl p; fi
 

make -e LDFLAGS=-static; make install
 

5.2 Configuring Sysvinit

In order for Sysvinit to work, we need to create it's configuration file. Create the $LFS/etc/inittab file containing the following:

# Begin /etc/inittab
 
id:2:initdefault:
 
ca:12345:ctrlaltdel:/sbin/shutdown -t1 -a -r now
 
1:2345:respawn:/sbin/sulogin
 
# End /etc/inittab
 

5.3 Creating passwd & group files

As you can see from the inittab file, when we boot the system, init will start the sulogin program and sulogin will ask you for user root's password. This means we need to have at least a passwd file present on the LFS system.

The encoded password string above is: lfs123

When you logon to your LFS system, enter lfs123 when asked to enter user root's password.

5.4 Installing the Bash shell

When sulogin asks you for the root password and you've entered the password, a shell needs to be started. Usually this is the bash shell. Since there are no libraries installed yet, we need to link bash statically, just like we did with Sysvinit.

./configure --enable-static-link
make; make -e prefix=$LFS/usr install
mv $LFS/usr/bin/bash $LFS/bin 
cd $LFS/bin; ln -s bash sh
 

5.5 Adding an entry to LILO

In order to being able to boot from this partition, we need to update our /etc/lilo.conf file. Add the following lines to lilo.conf:

image=<currently used image>
   label=<label>
   root=$LFS
   read-only
 

Replace <currently used image> by the kernel image file that you are using to boot your normal Linux system. <label> can be anything you want it to be. I named the label "lfs" What you enter as <label> is what you enter at the LILO-prompt when you choose with system to boot.

Now run the lilo program to update the boot loader.

5.6 Testing the system

After you've completed this section, we can test the system by rebooting into LFS and see if we can log on to it. When you reboot and are at the LILO prompt, enter the label you have entered in the lilo.conf file to start the LFS system. Then enter root's password and you should be on the bash-prompt now. You won't be able to shutdown the system with a program like shutdown. Although the program is present, it will give you the following error: "You don't exist. Go away." when you try to use the program. The meaning of this error is that the system isn't able to locate the password file. Although the shutdown program is statically linked against the libraries it needs, it still depends on the NSS Library (Name Server Switch) which is part of the GNU C Library, which will be installed in a later chapter. This NSS library passes on information where (in this case) the passwd file can be found.

For now you can reboot the system using the reboot -f command. This will bypass shutting down the system using the shutdown program and reboot immediately. Since the file system is mounted read-only this will not harm our system in any way (though you might get a warning next time you try to mount the system that it wasn't unmounted cleanly the last time and that you should run e2fsck to make sure the file system is still intact).


6. Installing a kernel

6.1 Note on ftp.kernel.org

In section 2 above I mentioned you can download a new kernel from ftp://ftp.kernel.org/ However, this site is often too busy to get through and the maintainers of this site encourage you to download the kernel from a location near you. You can access a mirror site by going to ftp://ftp.<country code>.kernel.org/ (like ftp.ca.kernel.org).

6.2 Configuring the kernel

cd /usr/include
ln -s ../src/linux/include/linux linux
ln -s ../src/linux/include/asm-<cpu> asm
 

Look in the /usr/src/linux/include directory and see which asm-* directories are present. Choose the correct one for your platform. If you're on an Intel platform, you'd run ln -s ../src/linux/include/asm-i386 asm

cd $LFS/usr/include
ln -s ../src/linux/include/linux linux
ln -s ../src/linux/include/asm asm
 

6.3 Updating LILO

6.4 Testing the system

Reboot your system and start your LFS system. Verify that the newly installed kernel doesn't perform out-of-the-ordinary actions (such as crashing).


7. Installing basic system software

In this chapter we will install all the software that belongs to a basic Linux system. After you're done with this chapter you have a fully working Linux system. The remaining chapters deals with optional issues such as setting up networking, Internet servers + clients (telnet, ftp, http, email), setting up Internet itself and the X Window System. You can skip chapters at your own discretion. If you don't plan on going online with the LFS system there's little use to setup Internet for example.

There are a number of packages that need to be already installed before we can start installing all the basic system software. A typical configure scripts needs programs like rm, grep, sed, mv, cat, cp, diff. You need to be able to ungzip and untar archives, you need to link programs after you have compiled the objects files. All these (and a few more) programs needs to be available before we can install anything else. These programs are going to be linked statically. The reasoning behind this is that your normal Linux system may have a different C Library version than the LFS system is going to have. The programs you install in this section will be linked against the C Library of your normal Linux system. This may cause library conflicts if you run those programs on the LFS system. Therefore we have to link those programs statically. During the installation of the basic system software set, we will re-install the statically linked software so that they are linked dynamically against the C library on the LFS system.

7.1 About debugging symbols

Every program and library is default compiled with debugging symbols. This means you can run a program or library through a debugger and the debugger's output will be more user friendly. These debugging symbols also enlarge the program or binary significantly. This document will not install software without debugging symbols (as I don't know if the majority of readers do or don't debug software). In stead, you can remove those symbols manually if you want with the strip program.

To remove debugging symbols from a binary (must be an a.out or ELF binary) run strip --strip-debug filename You can use wild cards if you need to strip debugging symbols from multiple files (use something like strip --strip-debug $LFS/usr/bin/*).

Before you wonder if these debugging symbols would make a big difference, here are some statistics:

Sizes may vary depending on which compiler has been used and which C library version is used to link dynamic programs against, but your results will be very similar if you compare programs with and without debugging symbols. After I was done with this chapter and stripped all debugging symbols from all LFS binaries and libraries I regained a little over 102 MB of disk space. Quite the difference. The difference would be even greater when I would do this at the end of this document when everything is installed.

7.2 Preparing LFS system for installing basic system software

Installing Binutils

./configure
make -e LDFLAGS=-all-static
make -e prefix=$LFS/usr install
 

Installing Bzip2

make -e LDFLAGS=-static
make -e PREFIX=$LFS/usr install
cd $LFS/usr/bin
mv bunzip2 bzip2 $LFS/bin
 

Install Diffutils

./configure
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
 

This package is known to cause static linking problems on certain platforms. If you're having trouble compiling this package as well, you can download a fixed package from http://www.linuxfromscratch.org/download/diffutils-2.7-fixed.tar.gz

Installing Fileutils

./configure --disable-nls
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
cd $LFS/usr/bin
mv chgrp chmod chown cp dd df ln ls mkdir mknod mv rm rmdir sync $LFS/bin
 

Installing GCC on the normal system if necessary

In order to compile Glibc-2.1.3 you need to have gcc-2.95.2 installed. Any version from 2.8 and up would do, but 2.95.2 is recommended. Many glibc-2.0 based systems have gcc-2.7.2.3 installed and you can't compile glibc-2.1 with that compiler. Therefore we will install gcc-2.95.2. also on the normal system, but without overwriting the existing compiler. Before you install gcc on your normal system, make sure whether you need it or not. Run gcc --version and check if the version number it reports equals or is higher than 2.8. If not, you need to install gcc-2.95.2. If you experience difficulties compiling glibc later on, you might want to install gcc-2.95.2 anyways.

mkdir $LFS/usr/src/gcc-build; cd $LFS/usr/src/gcc-build
../gcc-2.95.2/configure --prefix=/usr/gcc2952 \ 
--with-local-prefix=/usr/gcc2952 --with-gxx-include-dir=/usr/gcc2952/include/g++ \ 
--enable-shared --enable-languages=c,c++
make bootstrap; make install
 

Installing GCC on the LFS system

mkdir $LFS/usr/src/gcc-build;cd $LFS/usr/src/gcc-build
../gcc-2.95.2/configure --enable-languages=c --disable-nls
make -e LDFLAGS=-static bootstrap
make -e prefix=$LFS/usr local_prefix=$LFS/usr install
 

Creating necessary symlinks

The system needs a few symlinks to ensure every program is able to find the compiler and the pre-processor. Some programs run the cc program, others run the gcc program, some programs expect the cpp program to be in /lib (which is /usr/lib on the LFS system) and others expect to find it in /usr/bin.

cd $LFS/lib; ln -s ../usr/lib/gcc-lib/<host>/2.95.2/cpp cpp
cd $LFS/usr/lib; ln -s gcc-lib/<host>/2.95.2/cpp cpp
cd $LFS/usr/bin; ln -s gcc cc
 

Replace <host> with the directory where the gcc-2.95.2 files were installed (i686-unknown-linux in my case). You will most likely find two different directories.

Installing Glibc

A note on the glibc-crypt package:

-*-*-*-*-*-
The add-on is not included in the main distribution of the GNU 
C library because some governments, mostly notable those of 
France, Russia and the US, have very restrictive rules 
governing the distribution and use of encryption software. 
Please read the node "Legal Problems" in the manual for more 
details.
 
In particular, the US does not allow export of this software 
without a license, including via the Internet. So please do not 
download it from the main FSF FTP site at ftp.gnu.org if you 
are outside of the US. This software was completely developed 
outside the US.
-*-*-*-*-*-
 

"This software" refers to the glibc-crypt package at ftp://ftp.gwdg.de/pub/linux/glibc/. This law only affects people who don't live in the US. It's not prohibited to import DES software, so if you live in the US you can import it from that German site.

# Begin configparms
slibdir=/lib
sysconfdir=/etc
# End configparms
 

mkdir $LFS/usr/src/glibc-build;cd $LFS/usr/src/glibc-build
../glibc-2.1.3/configure --enable-add-ons
make; make install_root=$LFS install
 

mkdir $LFS/usr/src/glibc-build; cd $LFS/usr/src/glibc-build
CC=/usr/gcc2952/bin/gcc ../glibc-2.1.3/configure --enable-add-ons
make; make install_root=$LFS install
 

Copying old NSS Library files

If your normal Linux system runs libc-2.0.x, you need to copy the NSS library files to the LFS partition. Certain statically linked programs still depend on the NSS library, especially programs that need to lookup usernames, userid's and groupid's. You can check which C Library version your normal Linux system uses by running: ls -l libc.so.*

Your system uses glibc-2.0 if the output looks like: /lib/libc.so.6 -> libc-2.0.7.so

Your system uses glibc-2.1 is the output looks like: /lib/libc.so.6 -> libc-2.1.2.so

If your have a libc-2.0.x.so file (where x is the micro version number such as 7) copy the NSS Library files by running: cp -av /lib/*nss* $LFS/lib

Installing grep

./configure --disable-nls
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
 

This package is known to cause static linking problems on certain platforms. If you're having trouble compiling this package as well, you can download a fixed package from http://www.linuxfromscratch.org/download/grep-2.4-fixed.tar.gz

Installing gzip

./configure
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
cd $LFS/usr/bin
mv gunzip gzip $LFS/bin
 

This package is known to cause compilation problems on certain platforms. If you're having trouble compiling this package as well, you can download a fixed package from http://www.linuxfromscratch.org/download/gzip-1.2.4-fixed.tar.gz

Installing Make

./configure
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
 

Installing Sed

./configure
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
mv $LFS/usr/bin/sed $LFS/bin
 

This package is known to cause static linking problems on certain platforms. If you're having trouble compiling this package as well, you can download a fixed package from http://www.linuxfromscratch.org/download/sed-3.02-fixed.tar.gz

Installing Sh-utils

./configure --disable-nls
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
cd $LFS/usr/bin
mv date echo false pwd stty su true uname hostname $LFS/bin
 

Installing Tar

./configure --disable-nls
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
mv $LFS/usr/bin/tar $LFS/bin
 

Installing Textutils

./configure --disable-nls
make -e LDFLAGS=-static
make -e prefix=$LFS/usr install
mv $LFS/usr/bin/cat $LFS/bin
 

Installing Util-linux

./configure
cd lib;make
cd ../mount;make -e LDFLAGS=-static
cp mount umount $LFS/bin
cp swapon $LFS/sbin
 

7.3 Installing basic systsem software

The installation of all the software is pretty straightforward and you'll think it's so much easier and shorter to give the generic installation instructions for each package and only explain how to install something if a certain package requires an alternate installation method. Although I agree with you on this aspect, I, however, choose to give the full instructions for each and every package. This is simply to avoid any possible confusion and errors. Before you continue with this document you have to restart your system and boot into the LFS system. But before you do that, you need to determine which partition is used as your swap partition. This information can usually be found in the /etc/fstab file. Check this file for a line similar to this one: /dev/hda6 none swap sw 0 0

The 4th field in a line must contain 'sw'. That line represents a swap partition. All you need to remember is it's designation (which is /dev/hda6 in my case but this will probably be different on your system). When you have determined which partition is the swap partition, you can reboot your computer now and continue from here.

Remounting partition and activating swap

Before the software can be installed we need to remount the partition in read-write mode. Also, we need to activate the swap partition so that we won't risk running out of memory during large compilation processes (such as compiling gcc):

mount -o remount,rw / /
/sbin/swapon <swap device>
 

Installing GCC

mkdir $LFS/usr/src/gcc-build;cd $LFS/usr/src/gcc-build
../gcc-2.95.2/configure --with-gxx-include-dir=/usr/include/g++ \ 
--enable-shared --enable-languages=c,c++
make bootstrap; make install
 

Installing Bison

./configure --datadir=/usr/share/bison
make; make install
 

Installing Mawk

./configure
make; make install
cd /usr/bin; ln -s mawk awk
 

Installing Findutils

./configure
make; make install
 

This package is known to cause compilation problems. If you're having trouble compiling this package as well, you can download a fixed package from http://www.linuxfromscratch.org/download/findutils-4.1-fixed.tar.gz

Installing Termcap

./configure
make; make install
 

Installing Ncurses

./configure --with-shared
make; make install
 

Installing Less

./configure
make; make install
mv /usr/bin/less /bin
 

Installing Perl

./Configure
make; make install
 

Note that we skip the 'make test' step. This is because at this moment the system isn't ready yet for running the perl test. At this time we'll trust that perl compiled fine.

Installing M4

./configure
make; make install
 

Installing Texinfo

./configure
make; make install
 

Installing Autoconf

./configure
make; make install
 

Installing Automake

./configure
make install
 

Installing Bash

./configure
make; make install
mv /usr/bin/bash /bin
 

Installing Flex

./configure
make; make install
 

Installing Binutils

./configure
make; make install
 

Installing Bzip2

make; make install
cd /usr/bin; mv bunzip2 bzip2 /bin
 

Installing Diffutils

./configure
make; make install
 

Installing E2fsprogs

./configure
make; make install
mv /usr/sbin/mklost+found /sbin
 

Installing File

./configure
make; make install
 

Installing Fileutils

./configure
make; make install
cd /usr/bin
mv chgrp chmod chown cp dd df ln ls mkdir mknod mv rm rmdir sync /bin
 

Installing Grep

./configure
make; make install
 

Installing Groff

./configure
make; make install
 

Installing Gzip

./configure
make; make install
cd /usr/bin; mv z* gunzip gzip /bin
 

Installing Ld.so

cd util; make ldd ldconfig
cp ldd /bin; cp ldconfig /sbin
rm /usr/bin/ldd
 

Installing Libtool

./configure
make; make install
 

Installing Linux86

cd as
make; make install
cd ../ld
make ld86; make install
 

Installing Lilo

make; make install
 

Installing Make

./configure
make; make install
 

Instaling Sh-Utils

./configure
make; make install
cd /usr/bin
mv date echo false pwd stty su true uname hostname /bin
 

Installing Shadow Password Suite

./configure 
make; make install
cd etc
cp limits login.access login.defs.linux shells suauth /etc
mv /etc/login.defs.linux /etc/login.defs
cd /usr/sbin
mv chpasswd dpasswd groupadd groupdel groupmod logoutd mkpasswd \ 
newusers useradd userdel usermod grpck pwck vipw grpconv grpunconv \ 
pwconv pwunconv /sbin
 

Installing Man

./configure -default
make all; make install
 

Installing Modutils

./configure
make; make install
 

Installing Procinfo

make; make install
 

Installing Procps

gcc -O3 -Wall -Wno-unused -c watch.c
make; make -e XSCPT="" install
mv /usr/bin/kill /bin
 

Installing Psmisc

make; make install
 

Installing Sed

./configure
make; make install
mv /usr/bin/sed /bin
 

Installing start-stop-daemon

make start-stop-daemon
cp start-stop-daemon /sbin
cp start-stop-daemon.8 /usr/share/man/man8
 

Installing Sysklogd

make; make install
 

Installing Sysvinit

cd src
make; make install
 

Install Tar

./configure
make; make install
mv /usr/bin/tar /bin
 

Installing Textutils

./configure
make; make install
mv /usr/bin/cat /bin
 

Installing Vim

./configure
make; make install
 

Installing Util-linux

HAVE_PASSWD=yes
HAVE_SLN=yes
HAVE_TSORT=yes
 

groupadd -g 5 tty
./configure
make; make install
 

7.4 Removing old NSS Library files

If you have copied the NSS Library files from your normal Linux system to the LFS system (because your normal system runs glibc-2.0) it's time to remove them now by running:

rm /lib/libnss*.so.1 /lib/libnss*2.0*
 

7.5 Configuring the software

Now that all software is installed, all that we need to do to get a few programs running properly is to create their configuration files.

Configuring Glib

We need to create the /etc/nsswitch.conf file. Although glibc should provide defaults when this file is missing or corrupt, it's defaults don't work work well with networking which will be dealt with in a later chapter. Also, our timezone needs to be setup.

# Begin /etc/nsswitch.conf
passwd: files
group: files
shadow: files
 
hosts: files dns
networks: files
 
protocols: db files
services: db files
ethers: db files
rpc: db files
 
netgroup: db files
# End /etc/nsswitch.conf
 

tzselect's output can be something like "EST5EDT" or "Canada/Eastern". The symlink you would create with that information would be ln -s /usr/share/zoneinfo/EST5EDT /etc/localtime or ln -s /usr/share/zoneinfo/Canada/Eastern /etc/localtime

Configuring LILO

We're not going to create lilo's configuration file from scratch, but we'll use the file from your normal Linux system. This file is different on every machine and thus I can't create it here. Since you would want to have the same options regarding lilo as you have when you're using your normal Linux system you would create the file exactly as it is on the normal system.

cp /mnt/original/etc/lilo.conf /etc
cp /mnt/original/boot/* /boot
 

If your normal Linux system does not have (all of) it's kernel images in /mnt/original/boot, then check your /etc/lilo.conf file for the location of those files and copy those as well to the location where /etc/lilo.conf expects them to be. Or you can copy them to /boot regardless and modify the /etc/lilo.conf file so it contains the new paths for the images as you have them on the LFS system. Either way works fine, it's up to you how you want to do it.

Configuring Sysklogd

# Begin /etc/syslog.conf
 
auth,authpriv.* -/var/log/auth.log
*.*;auth,authpriv.none -/var/log/sys.log
daemon.* -/var/log/daemon.log
kern.* -/var/log/kern.log
mail.* -/var/log/mail.log
user.* -/var/log/user.log
*.emerg *
 
# End /etc/syslog.conf
 

Configuring Shadow Password Suite

This package contains the utilities to modify user's passwords, add new users/groups, delete users/groups and more. I'm not going to explain to you what 'password shadowing' means. You can read all about that in the doc/HOWTO file. There's one thing you should keep in mind, if you decide to use shadow support, that programs that need to verify passwords (examples are xdm, ftp daemons, pop3d, etc) need to be 'shadow-compliant', eg. they need to be able to work with shadowed passwords.

If you decide you don't want to use shadowed passwords (after you're read the doc/HOWTO document), you still use this archive since the utilities in this archive are also used on system which have shadowed passwords disabled. You can read all about this in the HOWTO. Also note that you can switch between shadow and non-shadow at any point you want.

Now is a very good moment to read section #5 of the doc/HOWTO file. You can read how you can test if shadowing works and if not, how to disable it. If it doesn't work and you haven't tested it, you'll end up with an unusable system after you logout of all your consoles, since you won't be able to login anymore. You can easily fix this by passing the init=/sbin/sulogin parameter to the kernel, unpack the util-linux archive, go to the login-utils directory, build the login program and replace the /bin/login by the one in the util-linux package. Things are never hopelessly messed up (at least not under Linux), but you can avoid a hassle by testing properly and reading manuals ;)

Configuring Sysvinit

After you have made the following modification to the /etc/inittab file, you will be able to logon to it as you are used to (using the agetty and login programs). Sulogin won't be used anymore for normal logins.

# Begin /etc/inittab
 
id:2:initdefault:
 
si::sysinit:/etc/init.d/rcS
 
su:S:wait:/sbin/sulogin
 
l0:0:wait:/etc/init.d/rc 0
l1:1:wait:/etc/init.d/rc 1
l2:2:wait:/etc/init.d/rc 2
l3:3:wait:/etc/init.d/rc 3
l4:4:wait:/etc/init.d/rc 4
l5:5:wait:/etc/init.d/rc 5
l6:6:wait:/etc/init.d/rc 6
 
ft:6:respawn:/sbin/sulogin
 
ca:12345:ctrlaltdel:/sbin/shutdown -t1 -a -r now
 
1:2345:respawn:/sbin/agetty /dev/tty1 9600
2:2345:respawn:/sbin/agetty /dev/tty2 9600
3:2345:respawn:/sbin/agetty /dev/tty3 9600
4:2345:respawn:/sbin/agetty /dev/tty4 9600
5:2345:respawn:/sbin/agetty /dev/tty5 9600
6:2345:respawn:/sbin/agetty /dev/tty6 9600
 
# End /etc/inittab
 

Creating /var/run/utmp file

Programs like login, shutdown and others want to write to the /var/run/utmp file. This file contains information about who is currently logged in. It also contains information on when the computer was last shutdown.


8. Creating system boot scripts

These bootscripts are started at system boot time. The scripts are responsible for mounting the root file system in read-write mode, activating swap, setting up some system settings and starting the various daemons that our system needs.

8.1 Preparing the directories and master files

You need the Sysvinit package again for this section.

   cd /etc
   mkdir rc0.d rc1.d rc2.d rc3.d rc4.d rc5.d rc6.d init.d rcS.d
 

   #!/bin/sh
   # Begin /etc/init.d/rcS
   
   runlevel=S
   prevlevel=N
   umask 022
   export runlevel prevlevel
 
   trap ":" INT QUIT TSTP
   
   for i in /etc/rcS.d/S??*
   do
      [ ! -f  "$i" ] && continue;
      $i start       
   done
 
   # End /etc/init.d/rcS
 

8.2 Creating the reboot script

   #!/bin/sh
   # Begin /etc/init.d/reboot
  
   echo -n "System reboot in progress..."
   
   /sbin/reboot -d -f -i
 
   # End /etc/init.d/reboot
 

8.3 Creating the halt script

   #!/bin/sh
   # Begin /etc/init.d/halt
 
   /sbin/halt -d -f -i -p
 
   # End /etc/init.d/halt
 

8.4 Creating the mountfs script

#!/bin/sh
# Begin /etc/init.d/mountfs
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
echo -n "Remounting root file system in read-write mode..."
/bin/mount -n -o remount,rw /
check_status
 
> /etc/mtab
/bin/mount -f -o remount,rw /
 
echo -n "Mounting proc file system..."
/bin/mount proc
check_status
 
# End /etc/init.d/mountfs
 

8.5 Creating the umountfs script

#!/bin/sh
# Begin /etc/init.d/umountfs
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
  
echo "Deactivating swap..."
/bin/swapoff -av
check_status
 
echo -n "Unmounting file systems..."
/bin/umount -a -r 
check_status
 
# End /etc/init.d/umountfs
 

8.6 Creating the sendsignals script

#!/bin/sh
# Begin /etc/init.d/sendsignals
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
echo -n "Sending all processes the TERM signal..."
/sbin/killall5 -15
check_status
 
echo -n "Sending all processes the KILL signal..."
/sbin/killall5 -9
check_status
 

8.7 Creating the checkroot bootscript

#!/bin/sh
# Begin /etc/init.d/checkroot
 
echo "Activating swap..."
/sbin/swapon -av
 
if [ -f /fastboot ]
then
  echo "Fast boot, no file system check"
else
  /bin/mount -n -o remount,ro /
  if [ $? = 0 ]
  then
    if [ -f /forcecheck ]
    then
      force="-f"
    else
      force=""
    fi
 
    echo "Checking root file system..."
    /sbin/fsck $force -a /
     
    if [ $? -gt 1 ]
    then
      echo
      echo "fsck failed. Please repair your file system manually by"
      echo "running fsck without the -a option"
      
      echo "Please note that the file system is currently mounted in"
      echo "read-only mode."
      echo
      echo "I will start sulogin now. CTRL+D will reboot your system."
      /sbin/sulogin
      /reboot -f
    fi
  else
    echo "Cannot check root file system because it is not mounted in"
    echo "read-only mode."
  fi
fi
 
# End /etc/init.d/checkroot
 

8.8 Creating the Sysklogd bootscript

#!/bin/sh
# Begin /etc/init.d/sysklogd
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
case "$1" in
  start)
    echo -n "Starting system log daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/syslogd -- -m 0
    check_status
 
    echo -n "Starting kernel log daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/klogd
    check_status
    ;;
 
  stop)
    echo -n "Stopping kernel log daemon..."
    start-stop-daemon -K -q -o -p  /var/run/klogd.pid
    check_status
 
    echo -n "Stopping system log daemon..."
    start-stop-daemon -K -q -o -p /var/run/syslogd.pid
    check_status
    ;;
 
  reload)
    echo -n "Reloading system load daemon configuration file..."
    start-stop-daemon -K -q -o -s 1 -p /var/run/syslogd.pid
    check_status
    ;;
 
  restart)
    echo -n "Stopping kernel log daemon..."
    start-stop-daemon -K -q -o -p /var/run/klogd.pid
    check_status
 
    echo -n "Stopping system log daemon..."
    start-stop-daemon -K -q -o -p /var/run/syslogd.pid
    check_status
 
    sleep 1
 
    echo -n "Starting system log daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/syslogd -- -m 0
    check_status
 
    echo -n "Starting kernel log daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/klogd
    check_status
    ;;
 
  *)
    echo "Usage: $0 {start|stop|reload|restart}"
    exit 1
    ;;
esac
 
# End /etc/init.d/sysklogd
 

8.9 Setting up symlinks and permissions

chmod 755 rcS reboot halt mountfs umountfs sendsignals checkroot sysklogd
cd ../rc0.d
ln -s ../init.d/sysklogd K90sysklogd
ln -s ../init.d/sendsignals S80sendsignals
ln -s ../init.d/umountfs S90umountfs
ln -s ../init.d/halt S99halt
cd ../rc6.d
ln -s ../init.d/sysklogd K90sysklogd
ln -s ../init.d/sendsignals S80sendsignals
ln -s ../init.d/umountfs S90umountfs
ln -s ../init.d/reboot S99reboot
cd ../rcS.d
ln -s ../init.d/checkroot S05checkroot
ln -s ../init.d/mountfs S10mountfs
cd /etc/rc2.d
ln -s ../init.d/sysklogd S03sysklogd
 

8.10 Creating the /etc/fstab file

   /dev/<LFS-partition designation> / ext2 defaults 0 1
   /dev/<swap-partition designation> none swap sw 0 0
   proc /proc proc defaults 0 0
 

9. Setting up basic networking

9.1 Installing Netkit-base

./configure
make; make install
cd etc.sample; cp services protocols /etc
mv /usr/bin/ping /bin
 

9.2 Installing Net-tools

make; make install
mv /usr/bin/netstat /bin
cd /usr/sbin; mv ifconfig route /sbin
 

Creating the /etc/init.d/localnet bootscript

#!/bin/sh
# Begin /etc/init.d/localnet
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
echo -n "Setting up loopback device..."
/sbin/ifconfig lo 127.0.0.1
check_status
 
echo -n "Setting up hostname..."
/bin/hostname --file /etc/hostname
check_status
 
# End /etc/init.d/localnet
 

Setting up permissions and symlink

Creating the /etc/hostname file

Create a new file /etc/hostname and put the hostname in it. This is not the FQDN (Fully Qualified Domain Name). This is the name you wish to call your computer in a network.

Creating the /etc/hosts file

If you want to configure a network card, you have to decide on the IP-address, FQDN and possible aliases for use in the /etc/hosts file. An example is:

<myip> myhost.mydomain.org aliases
 

Make sure the IP-address is in the private network IP-address range. Valid ranges are:

Class Networks
A     10.0.0.0
B     172.16.0.0 through 172.31.0.0
C     192.168.0.0 through 192.168.255.0
 

A valid IP address could be 192.168.1.1. A valid FQDN for this IP could be me.linuxfromscratch.org

If you're not going to use a network card, you still need to come up with a FQDN. This is necessary for programs like Sendmail to operate correctly (in fact; Sendmail won't run when it can't determine the FQDN).

Here's the /etc/hosts file if you don't configure a network card:

# Begin /etc/hosts (no network card version)
127.0.0.1 me.lfs.org <contents of /etc/hostname> localhost
# End /etc/hosts (no network card version)
 

Here's the /etc/hosts file if you do configure a network card:

# Begin /etc/hosts (network card version)
127.0.0.1 localhost
192.168.1.1 me.lfs.org <contents of /etc/hostname>
# End /etc/hosts (network card version)
 

Of course, change the 192.168.1.1 and me.lfs.org to your own liking (or requirements if you are assigned an IP-address by a network/system administrator and you plan on connecting this machine to that network).

Creating the /etc/init.d/ethnet file

This sub section only applies if you are going to configure a network card. If not, skip this sub section and read on.

Create a new file /etc/init.d/ethnet containing the following:

#!/bin/sh
# Begin /etc/init.d/ethnet
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
/sbin/ifconfig eth0 <ipaddress>
check_status
 
# End /etc/init.d/ethnet
 

Setting up permissions and symlink for /etc/init.d/ethnet

Testing the network setup

ping <your FQDN>
ping <what you choose for hostname>
ping localhost
ping 127.0.0.1
ping 192.168.1.1 (only when you configured your network card)
 

All these five ping command's should work without failures. If so, the basic network is working.

9.3 Testing the system

Now that all software has been installed, bootscripts have been written and the local network is setup, it's time for you to reboot your computer and test these new scripts to verify that they actually work. You first want to execute them manually from the /etc/init.d directory so you can fix the most obvious problems (typos, wrong paths and such). When those scripts seem to work just fine manually they should also work during a system start or shutdown. There's only one way to test that. Shutdown your system with shutdown -r now and reboot into LFS. After the reboot you will have a normal login prompt like you have on your normal Linux system (unless you use XDM or some sort of other Display Manger (like KDM - KDE's version of XDM).

At this point your basic LFS system is ready for use. Everything else that follows now is optional, so you can skip packages at your own discretion. But do keep in mind that if you skip packages (especially libraries) you can break dependencies of other packages. For example, when the Lynx browser is installed, the zlib library is installed as well. You can decide to skip the zlib library, but this library isn't used by Lynx alone. Other packages require this library too. The same may apply to other libraries and programs.


10. Installing Network Daemons

10.1 Setting up SMTP

Creating groups and user

Create the groups needed by Sendmail by running:

groupadd -g 1 bin
groupadd -g 2 kmem
groupadd -g 3 mail
useradd -u 1 -g bin -d /bin -s /bin/sh bin
 

Creating directory

Outgoing mail processed by Sendmail is put in the /var/spool/mqueue directory. Incoming mail is forwarded to Procmail by Sendmail so we need to have an incoming mail directory as well which is /var/mail. We'll create these directories and give them the proper permissions:

mkdir /var/spool
mkdir /var/mail
cd /var/spool; ln -s ../mail mail
chmod 700 /var/spool/mqueue
chmod 775 /var/mail
chgrp mail /var/mail
chmod 1777 /tmp
 

Installing Sendmail

cd src
./Build; ./Build install
 

Configuring Sendmail

Configuring Sendmail isn't as easily said as done. There are a lot of things you need to consider while configuring Sendmail and I can't take everything into account. That's why at this time we'll create a very basic and standard setup. If you want to tweak Sendmail to your own liking, go right ahead, but this is not the right article. You could always use your existing /etc/sendmail.cf (or /etc/mail/sendmail.cf) file if you need to use certain features.

OSTYPE(LFS)
FEATURE(nouucp)
define(`LOCAL_MAILER_PATH', /usr/bin/procmail)
MAILER(local)
MAILER(smtp)
 

Installing Procmail

make; make install; make install-suid
 

Creating /etc/init.d/sendmail bootscript

#!/bin/sh
# Begin /etc/init.d/sendmail
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
case "$1" in
  start)
    echo -n "Starting Sendmail..."
    start-stop-daemon -S -q -o -x /usr/sbin/sendmail -- -bd
    check_status
    ;;
 
  stop)
    echo -n "Stopping Sendmail..."
    start-stop-daemon -K -q -o -p /var/run/sendmail.pid
    check_status
    ;;
 
  reload)
    echo -n "Reloading Sendmail configuration file..."
    start-stop-daemon -K -q -s 1 -p /var/run/sendmail.pid
    check_status
    ;;
 
  restart)
    echo -n "Stopping Sendmail..."
    start-stop-daemon -K -q -o -p /var/run/sendmail.pid
    check_status
 
    sleep 1
 
    echo -n "Starting Sendmail..."
    start-stop-daemon -S -q -o -x /usr/sbin/sendmail -- -bd
    check_status
    ;;
 
  *)
    echo "Usage: $0 {start|stop|reload|restart}"
    exit 1
    ;;
 
esac
 
# End /etc/init.d/sendmail
 

Setting up permissions and symlinks

cd /etc/init.d/rc2.d; ln -s ../init.d/sendmail S20sendmail
cd ../rc0.d; ln -s ../init.d/sendmail K20sendmail
cd ../rc6.d; ln -s ../init.d/sendmail K20sendmail
 

10.2 Setting up FTP

Creating groups and users

groupadd -g 65534 nogroup
groupadd -g 4 ftp
 

useradd -u 65534 -g nogroup -d /home nobody
useradd -u 4 -g ftp -s /bin/sh -m ftp
 

Installing Proftpd

./configure
make; make install
 

Creating the /etc/init.d/proftpd bootscript

#!/bin/sh
# Begin /etc/init.d/proftpd
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
case "$1" in
  start)
    echo -n "Starting Pro FTP daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/proftpd
    check_status
    ;;
 
  stop)
    echo -n "Stopping Pro FTP daemon..."
    start-stop-daemon -K -q -o -x /usr/sbin/proftpd
    check_status
    ;;
 
  restart)
    echo -n "Stopping Pro FTP daemon..."
    start-stop-daemon -K -q -o -x /usr/sbin/proftpd
    check_status
 
    sleep 1
 
    echo -n "Starting Pro FTP daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/proftpd
    check_status
    ;;
 
  *)
    echo "Usage: $0 {start|stop|restart}"
    ;;
 
esac
 
# End /etc/init.d/proftpd
 

Setting up permissions and symlinks

cd /etc/rc2.d; ln -s ../init.d/proftpd S40proftpd
cd ../rc0.d; ln -s ../init.d/proftpd K40proftpd
cd ../rc6.d; ln -s ../init.d/proftpd K40proftpd
 

10.3 Setting up HTTP

Installing Apache

./configure
make; make install
 

Configuring Apache

There's not much that needs to be configured. The only thing we need to do is to add the /usr/apache/man path to /usr/share/misc/man.conf

Creating /etc/init.d/apache bootscript

#!/bin/sh
# Begin /etc/init.d/apache
 
case "$1" in
  start)
    echo -n "Starting Apache HTTP daemon..."
    /usr/apache/bin/apachectl start
    ;;
 
  stop)
    echo -n "Stopping Apache HTTP daemon..."
    /usr/apache/bin/apachectl stop
    ;;
 
  restart)
    echo -n "Restarting Apache HTTP daemon..."
    /usr/apache/bin/apachectl restart
    ;;
 
  force-restart)
    echo -n "Stopping Apache HTTP daemon..."
    /usr/apache/bin/apachectl stop
 
    sleep 1
 
    echo -n "Starting Apache HTTP daemon..."
    /usr/apache/bin/apachectl start
    ;;
 
  *)
    echo "Usage: $0 {start|stop|restart|force-restart}"
    ;;
 
esac
 
# End /etc/init.d/apache
 

Setting up permissions and symlinks

cd /etc/rc2.d; ln -s ../init.d/apache S50apache
cd ../rc0.d; ln -s ../init.d/apache K50apache
cd ../rc6.d; ln -s ../init.d/apache K50apache
 

10.4 Setting up Telnet

Installing telnet daemon + client

./configure
make; make install
 

Creating the /etc/inetd.conf configuration file

# Begin /etc/inetd.conf
 
telnet stream tcp nowait root /usr/sbin/in.telnetd
 
# End /etc/inetd.conf
 

Creating the /etc/init.d/inetd bootscript

#!/bin/sh
# Begin /etc/init.d/inetd
 
check_status()
{
  if [ $? = 0 ]
  then
    echo "OK"
  else
    echo "FAILED"
  fi
}
 
case "$1" in
  start)
    echo -n "Starting Internet Server daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/inetd
    check_status
    ;;
 
  stop)
    echo -n "Stopping Internet Server daemon..."
    start-stop-daemon -K -q -o -p /var/run/inetd.pid
    check_status
    ;;
 
  reload)
    echo -n "Reloading Internet Server configuration file..."
    start-stop-daemon -K -q -s 1 -p /var/run/inetd.pid
    check_status
    ;;
 
  restart)
    echo -n "Stopping Internet Server daemon..."
    start-stop-daemon -K -q -o -p /var/run/inetd.pid
    check_status
 
    sleep 1
 
    echo -n "Starting Internet Server daemon..."
    start-stop-daemon -S -q -o -x /usr/sbin/inetd
    check_status
    ;;
 
  *)
    echo "Usage: $0 {start|stop|reload|restart}"
    ;;
 
esac
 
# End /etc/init.d/inetd
 

Setting up permissions and symlinks

cd /etc/rc2.d; ln -s ../init.d/inetd S30inetd
cd ../rc0.d; ln -s ../init.d/inetd K30inetd
cd ../rc6.d; ln -s ../init.d/inetd K30 inetd
 

10.5 Setting up PPP

Configuring the Kernel

Before you can logon to the Internet, the kernel must be ppp-aware. You can accomplish this by compiling ppp-support directly into the kernel, or compiling the ppp drivers are modules which you load when you need them. Whatever you prefer, do it now by re-configuring the kernel if necessary. If your LFS kernel is already ppp-aware than you don't have to re-configure the kernel.

Creating group

Installing PPP

./configure
make; make install
 

Creating /etc/resolv.conf

# Begin /etc/resolv.conf
 
nameserver <IP address of your ISP's primary DNS server>
nameserver <IP address of your ISP's secundary DNS server>
 
# End /etc/resolv.conf
 

Creating /etc/ppp/peers/provider

# Begin /etc/ppp/peers/provider
 
noauth
connect "/usr/sbin/chat -v -f /etc/chatscripts/provider"
/dev/ttyS1
115200
defaultroute
noipdefault
 
# End /etc/ppp/peers/provider
 

Creating /etc/chatscripts/provider

# Begin /etc/chatscripts/provider
 
ABORT BUSY
ABORT "NO CARRIER"
ABORT VOICE
ABORT "NO DIALTONE"
ABORT "NO ANSWER"
"" ATZ
OK ATDT <ISP's phonenumber>
TIMEOUT 35
CONNECT ''
TIMEOUT 10
ogin: \q<username>
TIMEOUT 10
assword: \q<mysecretpassword>
 
# End /etc/chatscripts/provider
 

Note on password authentication

As you see from the sample scripts (these are the actual scripts I use when I'm not using X) above I logon to my ISP using this chatscripts in stead of authenticating via pap or chap. Though my ISP supports pap, I choose to do it this slightly different way which has it's disadvantages and advantages. In my case the advantages outweigh the disadvantages. This way I have more control over my logon procedure and I can see closer what is happening when.

For example most times when I connect I have a window running tail -f /var/log/syslog so I can keep an eye on when (with my provider it's mostly 'if') things like the username and password are sent.


11. Installing Network Clients

11.1 Installing Email clients

Installing Mailx

make; make install
 

Installing Mutt

My favorite email client is Mutt, so that's why we're installing this one. Feel free to skip the installation of Mutt and install your own favorite client. After all, this is going to be your system. Not mine.

If your favorite client is an X Window client (such as Netscape Mail) then you'll have to sit tight a little while till we've installed X.

./configure
make; make install
 

Installing Fetchmail

./configure
make; make install
 

Testing the email system

It's time to test the email system now.

If this all worked just fine, you have a working email system for local email. It's not necessarily ready for Internet yet. You can remove the testuser by running userdel -r testuser

11.2 Installing FTP client

Installing Netkit-ftp

./configure
make; make install
 

Testing FTP system

11.3 Installing HTTP client

Installing Zlib

Zlib is a compression library, used by programs like PKware's zip and unzip utilities. Lynx can use this library to compress certain files.

./configure --shared
make; make install
 

Installing Lynx

./configure --libdir=/etc --with-zlib
make; make install
make install-help; make install-doc
 

Testing HTTP system

11.4 Installing Telnet client

The Telnet client has already been installed when we installed the Telnet daemon in the previous chapter.

Testing Telnet system

11.5 Installing PPP clients

Creating the connect script

#!/bin/sh
# Begin /usr/bin/pon
 
/usr/sbin/pppd call provider
 
# End /usr/bin/pon
 

Creating the disconnect script

#!/bin/sh
# Begin /usr/bin/poff
 
set -- `cat /var/run/ppp*.pid`
 
case $# in
  0)
    kill -15 `ps axw|grep "pppd call [[allnum:]]+"|grep -v grep|awk '{print $1}'`
    exit 0
    ;;
  1)
    kill -15 $1
    exit 0
    ;;
esac
 
# End /usr/bin/poff
 

Testing PPP system


12. Installing X Window System

12.1 Installing X

make World
make install; make install.man
 

During the compilation process you will encounter a few errors about the "makedepend" script not being able to find the stddef.h stdarg.h and float.h header files. The script just isn't as smart as the compiler is apparently, since the compilation itself does work fine without compilation errors. Though, creating a few temporary symlinks won't solve the problem; they only will cause more problems.

So you just ignore the many makedepend errors you most likely will be getting. Also errors similar to "pointer targets in passing arg x of somefunction differ in signedness". You can rewrite those files if you feel like it. I won't do it.

12.2 Creating /etc/ld.so.conf

Create a new file /etc/ld.so.conf containing the following:

# Begin /etc/ld.so.conf
 
/lib
/usr/lib
/usr/X11R6/lib
 
# End /etc/ld.so.conf
 

12.3 Creating the /usr/include/X11 symlink

12.4 Creating the /usr/X11 symlink

Often software copies files to /usr/X11 so it doesn't have to know which release of X you are using. This symlink hasn't been created by the X installation, so we have to create it by ourselves.

12.5 Adding /usr/X11/bin to the $PATH environment variable

There are a few ways to add the /usr/X11/bin path to the $PATH environment variable. One way of doing so is the following:

You need to login again for this change to become effective. Or you can update the path by running export PATH=$PATH:/usr/X11/bin manually

12.6 Configuring X

If the XF86Config file created by xf86config doesn't suffice, then you better copy the already existing XF86Config from your normal Linux system to /etc. Cases wherein you need to make special changes to the file which aren't supported by the xf86config program force you to do this. You can always modify the created XF86Config file by hand. This can be very time consuming, especially if you don't quite remember what needs to be changed.

12.7 Testing X

Now that X is properly configured it's time for our first test run.

The X server should start and display 3 xterm's on your screen. If this is true in your case, X is running fine.

12.8 Installing Window Maker

I choose to install Window Maker as the Window Manager. This is because I've used WindowMaker for quite a while now and I'm very satisfied with it. As usual, you don't have to do what I'm doing; install whatever you want. As you might know, you can install several Window Managers simultaneously and choose which one to start by specifying it in the $HOME/.xinitrc (or $HOME/.xsession in case you decide to use xdm) file.

12.9 Preparing the system for the Window Maker installation

Installing libPropList

./configure
make; make install
 

Installing libXpm

xmkmf; make Makefiles; make includes; make depend
cd lib; make; make install
cd ..; make; make install
 

This slightly different installation is necessary due to a bug in one of the Makefiles. It depends on files in the lib directory which aren't installed yet and it's not searching for them in the lib directory, so we have to install those files first before compiling the actual package.

Installing libpng

make -f scripts/makefile.lnx; make -f scripts/makefile.lnx install
 

Installing libtiff

./configure
make; make install
 

Installing libjpeg

./configure --enable-shared --enable-static
make; make install
 

Installing libungif

./configure
make; make install
 

Installing WindowMaker

./configure
make; make install
 

12.10 Updating dynamic loader cache

12.11 Configuring WindowMaker

Every user who wishes to use WindowMaker has to run the wmaker.inst script before he or she can use it. This script will copy the necessary files into the user's home directory and modify the $HOME/.xinitrc file (or create it if it's not there yet).

12.12 Testing WindowMaker


13. Resources

A list of books, HOWTOs and other documents you might find useful to download or buy follows. This list is just a small list to start with. We hope to be able to expand this list in time as we come across more useful documents or books.

13.1 Books

13.2 HOWTOs

13.3 Other


14. The End

You have reached the end of the Linux From Scratch HOWTO. I hope this experience helped you getting to know Linux better. If you have anything that you think needs to be mentioned in here (be it a bug fix, extra software which has been forgotten but which you consider important) let us know. Together with your help and suggestions this HOWTO can be improved significantly.


15. Copyright & Licensing Information

Copyright (C) 1999 by Gerard Beekmans. This document may be distributed only subject to the terms and conditions set forth in the LDP License at http://www.linuxdoc.org/COPYRIGHT.html.

It is not necessary to display the license notice, as described in the LDP License, when only a small part of this document (the HOWTO) is quoted for informational or similar purposes. However, I do require you to display with the quotation(s) a line similar to the following line: "Quoted from the LFS-HOWTO at