(Remove the last reference to building firmware, as it relates to Fedora 10 and 11 so who cares?) |
|||
Line 75: | Line 75: | ||
export subver=4-204 | export subver=4-204 | ||
export fedver=fc16 # replace fc16 with your fedora version | export fedver=fc16 # replace fc16 with your fedora version | ||
cp -r ~/rpmbuild/BUILD/kernel-$ver.$fedver ~/rpmbuild/BUILD/kernel-$ver.$fedver.orig | cp -r ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver.orig | ||
cp -al ~/rpmbuild/BUILD/kernel-$ver.$fedver ~/rpmbuild/BUILD/kernel-$ver.$fedver.new | cp -al ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver.new | ||
</pre> | </pre> | ||
Revision as of 01:11, 14 May 2014
Building a Kernel from the source RPM
This document provides instructions for advanced users who want to rebuild the kernel from the corresponding Red Hat source package. Note, however, that when building or running any such kernel, one should NOT expect support from the Fedora kernel team; you're pretty much on your own here if something doesn't work as you'd hoped or expected. But hey, you're an advanced user, so you can handle it, right? Anyway, advanced users build custom kernels for a variety of reasons:
- To apply patches for testing that they either generated or obtained from another source
- To reconfigure the existing kernel
- To learn more about the kernel and kernel development
These instructions can also be used for simply preparing the kernel source tree.
Before starting, make sure the system has all the necessary packages installed, including the following:
rpmdevtools
yum-utils
yum-utils is a default package, so it should already be on your system. To install the other package, use the following command:
su -c 'yum install rpmdevtools'
If you plan to use make menuconfig
, it will be necessary to install the additional package:
ncurses-devel
Use the following command:
su -c 'yum install ncurses-devel'
If you plan to use make xconfig
, it will be necessary to install the additional packages:
qt3-devel
libXi-devel
gcc-c++
For Fedora 15, use the following command:
su -c 'yum install qt3-devel libXi-devel gcc-c++'
Get the Source
- Prepare an RPM package-building environment in your (non-root) home directory by running the following command:
rpmdev-setuptree
This command creates a new directory~/rpmbuild
, with several empty subdirectories includingSPECS
,SOURCES
,BUILD
and others. It also creates an initial~/.rpmmacros
customization file for you. - Download the
kernel-<version>.src.rpm
file. It is not necessary to enable the Fedora source repositories -- theyumdownloader
command will do that for you automatically:yumdownloader --source kernel
- Install build dependencies for the kernel source with the
yum-builddep
command (root is required to install these packages):su -c 'yum-builddep kernel-<version>.src.rpm'
- Install
kernel-<version>.src.rpm
with the following command:rpm -Uvh kernel-<version>.src.rpm
This command writes the RPM contents into${HOME}/rpmbuild/SOURCES
and${HOME}/rpmbuild/SPECS
, where${HOME}
is your home directory. It is safe to ignore any messages similar to the following:
warning: user kojibuilder does not exist - using root warning: group kojibuilder does not exist - using root
Prepare the Kernel Source Tree
This step expands all of the source code files for the kernel. This is required to view the code, edit the code, or to generate a patch. (Again, all of this should be done as a regular user, not as root.)
1. Prepare the kernel source tree using the following commands:
cd ~/rpmbuild/SPECS rpmbuild -bp --target=$(uname -m) kernel.spec
The unloaded and patched kernel source tree is now located in the ~/rpmbuild/BUILD/kernel-<version>/linux-<version>.<arch>
directory.
Copy the Source Tree and Generate a Patch
This step is for applying a patch to the kernel source. If a patch is not needed, proceed to "Configure Kernel Options".
Copy the source tree to preserve the original tree while making changes to the
export arch=x86_64 # replace x86_64 with your arch export ver=3.7 # replace 3.1 with your kernel version export subver=4-204 export fedver=fc16 # replace fc16 with your fedora version cp -r ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver.orig cp -al ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver.new
Using vim on FC14, it treated the hard link as a hard link and thus the above technique failed. It was necessary to repeat the original copy used for the .orig directory for the .new directory. Note that this uses twice the space.
Make changes directly to the code in the .new
source tree, or copy in a modified file. This file might come from a developer who has requested a test, from the upstream kernel sources, or from a different distribution.
After the .new
source tree is modified, generate a patch. To generate the patch, run diff
against the entire .new
and .orig
source trees with the following command:
cd ~/rpmbuild/BUILD diff -uNrp kernel-$ver.$fedver.orig kernel-$ver.$fedver.new > ../SOURCES/linux-$ver.$fedver-mynewpatch.patch
Replace 'linux-$ver.$fedver-mynewpatch.patch' with the desired name for the new patch.
Lastly edit the patch file to remove the leading directory, this is required because the kernel spec file applies patches with '-p1' only.
For example the following:
--- kernel-3.8.fc18.orig/linux-3.8.11-200.bz708406.fc18.x86_64/kernel/kexec.c 2013-02-18 18:58:34.000000000 -0500 +++ kernel-3.8.fc18.new/linux-3.8.11-200.bz708406.fc18.x86_64/kernel/kexec.c 1969-12-31 19:00:00.000000000 -0500
Should be changed to:
--- linux-3.8.11-200.bz708406.fc18.x86_64/kernel/kexec.c 2013-02-18 18:58:34.000000000 -0500 +++ linux-3.8.11-200.bz708406.fc18.x86_64/kernel/kexec.c 1969-12-31 19:00:00.000000000 -0500
Configure Kernel Options
This step is for modifying the options the kernel is configured with. This step is optional. If no configuration changes are needed, proceed to "Prepare Build Files".
- Change to the kernel source tree directory:
cd ~/rpmbuild/BUILD/kernel-$ver.$subver.$fedver/linux-$ver.$arch/
If you only want to make minor changes to the default fedora kernel, skip to step 4., and use one of the two configuration tools to edit those minor changes into the default config file. - Select the desired configuration file from
~/rpmbuild/BUILD/kernel-$ver.$fedver/linux-$ver.$arch/configs
. Copy the desired config file to~/rpmbuild/BUILD/kernel-$ver.$fedver/linux-$ver.$arch/.config
:cp configs/<desired-config-file> .config
- Run the following command:
make oldconfig
- Then run the following command, selecting and saving the desired kernel options from the text-based UI:
make menuconfig
- For a graphical UI, instead run:
make xconfig
- For a graphical UI, instead run:
- Add a new line to the top of the config file that contains the hardware platform the kernel is built for (the output of
uname -i
). The line is preceded by a#
sign. For example, an x86_64 machine would have the following line added to the top of the config file:# x86_64
- Copy the config file to
~/rpmbuild/SOURCES/
:cp .config ~/rpmbuild/SOURCES/config-`uname -m`-generic
Prepare Build Files
This step makes the necessary changes to the kernel.spec
file. This step is required for building a custom kernel.
1. Change to the ~/rpmbuild/SPECS
directory:
cd ~/rpmbuild/SPECS
2. Open the kernel.spec
file for editing.
3. Give the kernel a unique name. This is important to ensure the custom kernel is not confused with any released kernel. Add a unique string to the kernel name by changing the 'buildid' line. Optionally, change ".local" to your initials, a bug number, the date or any other unique string.
Change this line:
#% define buildid .local
To this (note the extra space is removed in addition to the pound sign):
%define buildid .<custom_text>
4. If you generated a patch, add the patch to the kernel.spec
file, preferably at the end of all the existing patches and clearly commented.
# cputime accounting is broken, revert to 2.6.22 version Patch2220: linux-2.6-cputime-fix-accounting.patch Patch9999: linux-2.6-samfw-test.patch
The patch then needs to be applied in the patch application section of the spec file. Again, at the end of the existing patch applications and clearly commented.
ApplyPatch linux-2.6-cputime-fix-accounting.patch ApplyPatch linux-2.6-samfw-test.patch
Build the New Kernel
This step actually generates the kernel RPM files. This step is required for building a custom kernel.
Use the rpmbuild
utility to build the new kernel:
- To build all kernel flavors:
rpmbuild -bb --target=`uname -m` kernel.spec
- To disable specific kernel flavors from the build (for a faster build):
rpmbuild -bb --without <option> --target=`uname -m` kernel.spec
Valid values for "option" above include xen
, smp
, up
, pae
, kdump
, debug
and debuginfo
. Specifying --without debug
strips out some debugging code from the kernels, where specifying --without debuginfo
disables the building of the kernel-debuginfo
packages.
- To specify that only a specific kernel should be built:
rpmbuild -bb --with <option> --target=`uname -m` kernel.spec
Valid values for "option" above include xenonly
, smponly
, and baseonly
.
- For example, to build just the kernel and kernel-devel packages, the command would be:
rpmbuild -bb --with baseonly --without debuginfo --target=`uname -m` kernel.spec
The build process takes a long time to complete. A lot of messages will be printed to the screen. These messages can be ignored, unless the build ends with an error. If the build completes successfully, the new kernel packages will be located in the ~/rpmbuild/RPMS
directory.
Following Generic Textbooks
Many of the tutorials, examples, and textbooks about Linux kernel development assume the kernel sources are installed under the /usr/src/linux/
directory. If you make a symbolic link, as shown below, you should be able to use those learning materials with the Fedora packages. Install the appropriate kernel sources, as shown earlier, and then run the following command:
su -c 'ln -s /usr/src/kernels/<version>.<release>-<arch> /usr/src/linux'
Enter the root
password when prompted.
Install the New Kernel
This step actually installs the new kernel into the running system.
To install the new kernel, use the rpm -ivh
command, not the -U
or --upgrade
options:
su -c "rpm -ivh $HOME/rpmbuild/RPMS/<arch>/kernel-<version>.<arch>.rpm"
This command will install your kernel in /boot, create a new initramfs to bootstrap your kernel, and automatically add your new kernel to your grub bootloader "menu.lst". At this point, you can reboot to give control to your new kernel.
Building Only Kernel Modules (Out Of Tree Modules)
This section is for users who are only interested in working on a kernel module, and who do not wish to build an entire custom kernel. It is not necessary to download and rebuild the entire kernel in order to build a module. To build a module for the currently running kernel, only the matching kernel-devel
package is required. Run the following command to install the kernel-devel
package using yum
.
su -c 'yum install kernel-devel'
You can build against any kernel version, as long as you have kernel
and kernel-devel
packages installed for that version. The rest of this section assumes we're building for the running kernel; if not, replace
with the desired version number.
uname -r
As a simple example, to build the foo.ko
module from foo.c
, create the following Makefile
in the directory containing the foo.c
file:
obj-m := foo.o KDIR := /lib/modules/$(shell uname -r)/build PWD := $(shell pwd) default: [TAB]$(MAKE) -C $(KDIR) M=$(PWD) modules
[TAB] Denotes a tab character which must come first for makefile lines containing commands.
Then, issue the make
command to build the foo.ko
module.
The above is a helpful local Makefile wrapper invoking kbuild; in general you can simply do things like
# make -C /lib/modules/`uname -r`/build M=`pwd` modules # make -C /lib/modules/`uname -r`/build M=`pwd` clean # make -C /lib/modules/`uname -r`/build M=`pwd` modules_install
etc to build those targets.