Construindo um Kernel Customizado

John Soros, Alessio, Brandon Nielsen Versão unspecified Last review: 2023-12-23
This document provides instructions for advanced users who want to rebuild the kernel from some source.

When building or running a custom kernel, one should not expect support from the Fedora kernel team.

Some common reasons to build a custom kernel are:

  • 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

Get the Dependencies

The easiest way to install all the build dependencies for the kernel is to use the Fedora kernel spec file:

sudo dnf install fedpkg
fedpkg clone -a kernel
cd kernel
sudo dnf builddep kernel.spec

If you want to use make xconfig, you’ll need some additional packages:

sudo dnf install qt3-devel libXi-devel gcc-c++

Secure boot

Make sure you add the user doing the build to /etc/pesign/users and run the authorize user script:

sudo /usr/libexec/pesign/pesign-authorize

Create a new Machine Owner Key (MOK) to import to UEFI:

openssl req -new -x509 -newkey rsa:2048 -keyout "key.pem" \
        -outform DER -out "cert.der" -nodes -days 36500 \
        -subj "/CN=<your name>/"

Import the new certificate into your UEFI database:

You will be asked to authorize the import at next boot.
mokutil --import "cert.der"

Create a PKCS #12 key file:

openssl pkcs12 -export -out key.p12 -inkey key.pem -in cert.der

You can then import the certificate and key into the nss database:

certutil -A -i cert.der -n "<MOK certificate nickname>" -d /etc/pki/pesign/ -t "Pu,Pu,Pu"
pk12util -i key.p12 -d /etc/pki/pesign

Once the certificate and key are imported into your nss database, you can build the kernel with the selected key by adding %define pe_signing_cert <MOK certificate nickname> to the kernel.spec file or calling rpmbuild directly with the --define "pe_signing_cert <MOK certificate nickname>" flag.

While bugzilla bug #1651020 is open you might need to edit the line that starts with %pesign in the kernel spec file and substitute it with pesign -c %{pe_signing_cert} --certdir /etc/pki/pesign/ -s -i $KernelImage -o vmlinuz.signed.

It’s also recommended that you install ccache, which can help speed up rebuilds:

sudo dnf install ccache

Building a Kernel from the Fedora dist-git

First, a checkout from the Fedora kernel dist-git is required:

git clone https://src.fedoraproject.org/rpms/kernel.git

The kernel, like any other Fedora package, has a branch per Fedora release. rawhide corresponds to Rawhide and each version of Fedora has a branch called f<version>.

  1. For example, to build a Fedora 28 kernel, you would first need to switch to that branch with:

    git switch f28
  2. To avoid conflicts with existing kernels, you can set a custom buildid by changing # define buildid .local to %define buildid .<your_custom_id_here> in kernel.spec.

  3. Make whatever changes or customizations you need:

    1. Kernel configuration options can be overriden by modifying the kernel-local file.

    2. Existing patches can be added to linux-kernel-test.patch, they will be picked up during the build automatically.

    3. Patches can also be kept in seperate files and added to kernel.spec with Patch2: foo.patch, Patch3: bar.patch, etc. They should be applied automatically during the build process.

    4. To make your own modifications to the kernel source, retrieve the kernel sources for your current dist-git branch with fedpkg sources, then make your desired changes to the kernel source and generate a patch, e.g. with diff -rupN kernel_src_folder kernel_src_folder_patched > mypatch.patch. The patch can then be added to linux-kernel-test.patch or the specfile.

  4. Build the RPMs:

    fedpkg local
  5. Install the new kernel:

    sudo dnf install --nogpgcheck ./x86_64/kernel-$version.rpm

Building a vanilla upstream kernel

Sometimes a Fedora developer may ask you to try building and installing an upstream kernel (possibly with a patch added) for testing. If there are multiple iterations, it may be quicker for you to do this than for the developer to turn around several RPMs.

There is an effort underway for packaging vanilla kernels. See if this meets your needs first

Getting the Sources

Clone the kernel tree from kernel.org. If you don’t know what tree you need, you should get Linus' tree:

git clone git://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
cd linux

You may also want the stable tree (4.y.z releases), which you can add with:

git remote add -f stable git://git.kernel.org/pub/scm/linux/kernel/git/stable/linux-stable.git

Applying patches

To apply patch files, you can use git-am:

git am -3 <patch file>

Configuring the kernel

If the developer has pointed you at a specific config file to use, save it in the linux directory with the filename .config

Otherwise, you’ll need to pick a configuration file to start from. The Linux kernel has thousands of configuration options, so you don’t want to start from scratch unless you know what you’re doing.

Starting from an installed kernel configuration

If you want to tweak the configuration of a kernel you already have installed, you can start with its configuration which is stored in /boot/. For example, to start with the configuration of the currently running kernel:

cp /boot/config-`uname -r`* .config

Starting from dist-git

If you want to use the configuration for a kernel you do not have installed, you can get the configuration from the Fedora dist-git repository. For example, to start with the latest Rawhide configuration:

cd <dist-git directory>
git checkout rawhide
./generate_all_configs.sh # Ensure the latest configuration files are generated
cp kernel-<arch>.config <linux kernel directory>.config

The debug versions of the configuration files are in kernel-<arch>-debug.config if you would like to build a kernel with debugging options enabled.

Changing the configuration

There are several ways to change the configuration. You can run make help and look at the Configuration targets for the full list, but make menuconfig is a good place to start. You can also just edit the .config file directly.

One configuration option you may want to set is CONFIG_MODULE_COMPRESS, which compresses the modules (with gzip by default) when installing them. Without this setting, the modules can be very large.

Building the kernel

Once you’ve configured the kernel, you’re ready to build it. Before you do so, you’ll want to change the EXTRAVERSION in the Makefile to something you’ll recognize later. For example, if it reads EXTRAVERSION = -rc5 change it to EXTRAVERSION = -rc5-dave:

$EDITOR Makefile

Now you’re ready to build the kernel:

make oldconfig
make bzImage
make modules

Installing the kernel

Installing the kernel is as simple as:

sudo make modules_install
sudo make install

Rebuilding

If you have been asked to try several different things, the procedure once you have already built the tree once is mostly the same. Running make clean is recommended between builds. This will leave the .config in place, so you can skip that step above and proceed straight to the make bzImage part of the steps above. Because we installed ccache in the first step, subsequent builds may go a lot faster as the compiler hits files that haven’t changed since the last time it built them.

Cleaning up

Once you have tested the kernel, and you’ve booted back to one of your kernels installed from an RPM, you can clean up the files that the above procedure installed.

When running the following commands, be sure to get the kernel version correct!

Because you changed EXTRAVERSION in the Makefile to add a 'tag', all the files it installed will have this as part of the filename. So you should be able to use wildcards to delete them safely using commands similar to those below (just replace 'dave' with whatever tag you chose):

rm -f /boot/config-*dave* /boot/initramfs-*dave* /boot/vmlinuz-*dave* /boot/System.map-*dave*
rm -rf /lib/modules/*dave*

Finally, you will need to remove the kernel as an option in your bootloader. Assuming your system is running grub2, this can be done by removing the bootloader specification entries and rebuilding the grub config:

rm -f /boot/loader/entries/*dave*
grub2-mkconfig -o /boot/grub2/grub.cfg