I will describe two ways of compiling a new kernel. Using the first method, you will end up with a kernel .deb package that can be installed on the system, and that you can share with others and install on other Debian Etch systems.
The second method is to compile a kernel the "traditional" way. This way works on any Linux distribution, but of course you don't end up with a kernel .deb package.
This chapter shows how to build a kernel and end up with a .deb package that you can install and share with others.
First we update our package database:
Then we install all needed packages like this:
Next we download our desired kernel to /usr/src. Go to www.kernel.org and select the kernel you want to install, e.g. linux-184.108.40.206.tar.bz2 (you can find all 2.6 kernels here: http://www.kernel.org/pub/linux/kernel/v2.6/). Then you can download it to /usr/src like this:
Then we unpack the kernel sources and create a symlink linux to the kernel sources directory:
Sometimes you need drivers for hardware that isn't supported by the new kernel by default, or you need support for virtualization techniques or some other bleeding-edge technology that hasn't made it to the kernel yet. In all these cases you have to patch the kernel sources (provided there is a patch available...).
Now let's assume you have downloaded the needed patch (I call it patch.bz2 in this example) to /usr/src. This is how you apply it to your kernel sources (you must still be in the /usr/src/linux directory):
The first command is just a test, it does nothing to your sources. If it doesn't show errors, you can run the second command which actually applies the patch. Don't do it if the first command shows errors!
You can also apply kernel prepatches to your kernel sources. For example, if you need a feature that is available only in kernel 2.6.22-rc3, but the full sources haven't been released yet for this kernel. Instead, a patch-2.6.22-rc3.bz2 is available. You can apply that patch to the 2.6.21 kernel sources, but not to kernel 220.127.116.11 or 18.104.22.168, etc. This is explained on http://kernel.org/patchtypes/pre.html:
Prepatches are the equivalent to alpha releases for Linux; they live in the testing directories in the archives. They should be applied using the patch(1) utility to the source code of the previous full release with a 3-part version number (for example, the 2.6.12-rc4 prepatch should be applied to the 2.6.11 kernel sources, not, for example, 22.214.171.124.)
So if you want to compile a 2.6.22-rc3 kernel, you must download the 2.6.21 kernel sources (http://www.kernel.org/pub/linux/kernel/v2.6/linux-2.6.21.tar.bz2) in step 3 instead of kernel 126.96.36.199!
This is how you apply the 2.6.22-rc3 patch to kernel 2.6.21:
It's a good idea to use the configuration of your current working kernel as a basis for your new kernel. Therefore we copy the existing configuration to /usr/src/linux:
Then we run
which brings up the kernel configuration menu. Go to Load an Alternate Configuration File and choose .config (which contains the configuration of your current working kernel) as the configuration file:
Then browse through the kernel configuration menu and make your choices. When you are finished and select Exit, answer the following question (Do you wish to save your new kernel configuration?) with Yes:
To build the kernel, execute these two commands:
After --append-to-version= you can write any string that helps you identify the kernel, but it must begin with a minus (-) and must not contain whitespace.
Now be patient, the kernel compilation can take some hours, depending on your kernel configuration and your processor speed.
After the successful kernel build, you can find two .deb packages in the /usr/src directory.
On my test system they were called linux-image-188.8.131.52-pslnx_184.108.40.206-pslnx-10.00.Pslnx_i386.deb (which contains the actual kernel) and linux-headers-220.127.116.11-pslnx_18.104.22.168-pslnx-10.00.Pslnx_i386.deb (which contains files needed if you want to compile additional kernel modules later on). I install them like this:
(You can now even transfer the two .deb files to other Debian Etch systems and install them there exactly the same way, which means you don't have to compile the kernel there again.)
That's it. The GRUB bootloader configuration file /boot/grub/menu.lst has been modified automatically, and a ramdisk for the new kernel has been create in /boot.
Now reboot the system:
At the boot prompt, select your new kernel (should be selected by default):
If everything goes well, it should come up with the new kernel. You can check if it's really using your new kernel by running
This should display something like
If the system doesn't start, restart it, and select your old kernel at the boot prompt. You can now try again to compile a working kernel. Don't forget to remove the stanza(s) of the not-working kernel from /boot/grub/menu.lst.