Estimated build time: 0.1 SBU Estimated required disk space: 142 MB |
(Last checked against version 2.4.18.)
The Linux kernel is at the core of every Linux system. It's what makes Linux tick. When a computer is turned on and boots a Linux system, the very first piece of Linux software that gets loaded is the kernel. The kernel initializes the system's hardware components: serial ports, parallel ports, sound cards, network cards, IDE controllers, SCSI controllers and a lot more. In a nutshell the kernel makes the hardware available so that the software can run.
Linux installs the following files:
kernel and kernel headers
(Last checked against version 2.4.17.)
Bash: sh
Binutils: ar, as, ld, nm, objcopy
Coreutils: basename, cat, cp, date, expr, ln, md5sum, mkdir, mv,
pwd, rm, sort, stty, tail, touch, uname, whoami, yes
Findutils: find, xargs
Gawk: awk
GCC: cc1, collect2, cpp0, gcc
Grep: grep
Gzip: gzip
Make: make
Modutils: depmod, genksyms
Net-tools: dnsdomainname, hostname
Sed: sed
We won't be compiling a new kernel yet -- we'll do that when we have finished the installation of all the packages. But as some packages need the kernel header files, we're going to unpack the kernel archive now, set it up and copy the header files so they can be found by these packages.
It is important to note that the files in the kernel source directory are not owned by root. Whenever you unpack a package as user root (like we do here inside chroot), the files end up having the user and group IDs of whatever they were on the packager's computer. This is usually not a problem for any other package you install because you remove the source tree after the installation. But the Linux kernel source tree is often kept around for a long time, so there's a chance that whatever user ID the packager used will be assigned to somebody on your machine and then that person would have write access to the kernel source.
In light of this, you might want to run chown -R 0:0 on the linux-2.4.22 directory to ensure all files are owned by user root.
Prepare for header installation:
make mrproper |
This ensures that the kernel tree is absolutely clean. The kernel team recommends that this command be issued prior to each kernel compilation. You shouldn't rely on the source tree being clean after untarring.
Create the include/linux/version.h file:
make include/linux/version.h |
Create the platform-specific include/asm symlink:
make symlinks |
Install the platform specific-header files:
cp -HR include/asm /usr/include cp -R include/asm-generic /usr/include |
Install the cross-platform kernel header files:
cp -R include/linux /usr/include |
There are a few kernel header files which make use of the autoconf.h header file. Since we do not yet configure the kernel, we need to create this file ourselves in order to avoid compilation failures. Create an empty autoconf.h file:
touch /usr/include/linux/autoconf.h |
In the past it was common practice to symlink the /usr/include/{linux,asm} directories to /usr/src/linux/include/{linux,asm}. This was a bad practice, as the following extract from a post by Linus Torvalds to the Linux Kernel Mailing List points out:
I would suggest that people who compile new kernels should: - not have a single symbolic link in sight (except the one that the kernel build itself sets up, namely the "linux/include/asm" symlink that is only used for the internal kernel compile itself) And yes, this is what I do. My /usr/src/linux still has the old 2.2.13 header files, even though I haven't run a 2.2.13 kernel in a _loong_ time. But those headers were what glibc was compiled against, so those headers are what matches the library object files. And this is actually what has been the suggested environment for at least the last five years. I don't know why the symlink business keeps on living on, like a bad zombie. Pretty much every distribution still has that broken symlink, and people still remember that the linux sources should go into "/usr/src/linux" even though that hasn't been true in a _loong_ time. |
The essential part is where Linus states that the header files should be the ones which glibc was compiled against. These are the headers that should be used when you later compile other packages, as they are the ones that match the object-code library files. By copying the headers, we ensure that they remain available if later you upgrade your kernel.
Note, by the way, that it is perfectly all right to have the kernel sources in /usr/src/linux, as long as you don't have the /usr/include/{linux,asm} symlinks.