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0d8aa3212e
* improve the short description of localmodconfig in the step-by-step guide while fixing its broken first sentence * briefly mention immutable Linux distributions * use '--shallow-exclude=v6.0' throughout the document * instead of "git reset --hard; git checkout ..." use "git checkout --force ..." in the step-by-step guide: this matches the TLDR and is one command less to execute. This led to a few small adjustments to the text and the flow in the surrounding area. * fix two thinkos in the section explaining full git clones Signed-off-by: Thorsten Leemhuis <linux@leemhuis.info> Link: https://lore.kernel.org/r/6f4684b9a5d11d3adb04e0af3cfc60db8b28eeb2.1684140700.git.linux@leemhuis.info Signed-off-by: Jonathan Corbet <corbet@lwn.net>
1098 lines
47 KiB
ReStructuredText
1098 lines
47 KiB
ReStructuredText
.. SPDX-License-Identifier: (GPL-2.0+ OR CC-BY-4.0)
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.. [see the bottom of this file for redistribution information]
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===========================================
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How to quickly build a trimmed Linux kernel
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===========================================
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This guide explains how to swiftly build Linux kernels that are ideal for
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testing purposes, but perfectly fine for day-to-day use, too.
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The essence of the process (aka 'TL;DR')
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========================================
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*[If you are new to compiling Linux, ignore this TLDR and head over to the next
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section below: it contains a step-by-step guide, which is more detailed, but
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still brief and easy to follow; that guide and its accompanying reference
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section also mention alternatives, pitfalls, and additional aspects, all of
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which might be relevant for you.]*
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If your system uses techniques like Secure Boot, prepare it to permit starting
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self-compiled Linux kernels; install compilers and everything else needed for
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building Linux; make sure to have 12 Gigabyte free space in your home directory.
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Now run the following commands to download fresh Linux mainline sources, which
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you then use to configure, build and install your own kernel::
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git clone --depth 1 -b master \
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https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git ~/linux/
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cd ~/linux/
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# Hint: if you want to apply patches, do it at this point. See below for details.
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# Hint: it's recommended to tag your build at this point. See below for details.
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yes "" | make localmodconfig
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# Hint: at this point you might want to adjust the build configuration; you'll
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# have to, if you are running Debian. See below for details.
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make -j $(nproc --all)
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# Note: on many commodity distributions the next command suffices, but on Arch
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# Linux, its derivatives, and some others it does not. See below for details.
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command -v installkernel && sudo make modules_install install
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reboot
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If you later want to build a newer mainline snapshot, use these commands::
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cd ~/linux/
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git fetch --depth 1 origin
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# Note: the next command will discard any changes you did to the code:
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git checkout --force --detach origin/master
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# Reminder: if you want to (re)apply patches, do it at this point.
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# Reminder: you might want to add or modify a build tag at this point.
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make olddefconfig
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make -j $(nproc --all)
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# Reminder: the next command on some distributions does not suffice.
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command -v installkernel && sudo make modules_install install
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reboot
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Step-by-step guide
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==================
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Compiling your own Linux kernel is easy in principle. There are various ways to
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do it. Which of them actually work and is the best depends on the circumstances.
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This guide describes a way perfectly suited for those who want to quickly
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install Linux from sources without being bothered by complicated details; the
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goal is to cover everything typically needed on mainstream Linux distributions
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running on commodity PC or server hardware.
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The described approach is great for testing purposes, for example to try a
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proposed fix or to check if a problem was already fixed in the latest codebase.
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Nonetheless, kernels built this way are also totally fine for day-to-day use
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while at the same time being easy to keep up to date.
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The following steps describe the important aspects of the process; a
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comprehensive reference section later explains each of them in more detail. It
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sometimes also describes alternative approaches, pitfalls, as well as errors
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that might occur at a particular point -- and how to then get things rolling
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again.
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..
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Note: if you see this note, you are reading the text's source file. You
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might want to switch to a rendered version, as it makes it a lot easier to
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quickly look something up in the reference section and afterwards jump back
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to where you left off. Find a the latest rendered version here:
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https://docs.kernel.org/admin-guide/quickly-build-trimmed-linux.html
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.. _backup_sbs:
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* Create a fresh backup and put system repair and restore tools at hand, just
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to be prepared for the unlikely case of something going sideways.
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[:ref:`details<backup>`]
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.. _secureboot_sbs:
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* On platforms with 'Secure Boot' or similar techniques, prepare everything to
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ensure the system will permit your self-compiled kernel to boot later. The
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quickest and easiest way to achieve this on commodity x86 systems is to
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disable such techniques in the BIOS setup utility; alternatively, remove
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their restrictions through a process initiated by
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``mokutil --disable-validation``.
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[:ref:`details<secureboot>`]
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.. _buildrequires_sbs:
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* Install all software required to build a Linux kernel. Often you will need:
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'bc', 'binutils' ('ld' et al.), 'bison', 'flex', 'gcc', 'git', 'openssl',
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'pahole', 'perl', and the development headers for 'libelf' and 'openssl'. The
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reference section shows how to quickly install those on various popular Linux
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distributions.
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[:ref:`details<buildrequires>`]
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.. _diskspace_sbs:
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* Ensure to have enough free space for building and installing Linux. For the
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latter 150 Megabyte in /lib/ and 100 in /boot/ are a safe bet. For storing
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sources and build artifacts 12 Gigabyte in your home directory should
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typically suffice. If you have less available, be sure to check the reference
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section for the step that explains adjusting your kernels build
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configuration: it mentions a trick that reduce the amount of required space
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in /home/ to around 4 Gigabyte.
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[:ref:`details<diskspace>`]
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.. _sources_sbs:
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* Retrieve the sources of the Linux version you intend to build; then change
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into the directory holding them, as all further commands in this guide are
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meant to be executed from there.
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*[Note: the following paragraphs describe how to retrieve the sources by
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partially cloning the Linux stable git repository. This is called a shallow
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clone. The reference section explains two alternatives:* :ref:`packaged
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archives<sources_archive>` *and* :ref:`a full git clone<sources_full>` *;
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prefer the latter, if downloading a lot of data does not bother you, as that
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will avoid some* :ref:`peculiar characteristics of shallow clones the
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reference section explains<sources_shallow>` *.]*
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First, execute the following command to retrieve a fresh mainline codebase::
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git clone --no-checkout --depth 1 -b master \
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https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git ~/linux/
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cd ~/linux/
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If you want to access recent mainline releases and pre-releases, deepen you
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clone's history to the oldest mainline version you are interested in::
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git fetch --shallow-exclude=v6.0 origin
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In case you want to access a stable/longterm release (say v6.1.5), simply add
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the branch holding that series; afterwards fetch the history at least up to
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the mainline version that started the series (v6.1)::
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git remote set-branches --add origin linux-6.1.y
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git fetch --shallow-exclude=v6.0 origin
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Now checkout the code you are interested in. If you just performed the
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initial clone, you will be able to check out a fresh mainline codebase, which
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is ideal for checking whether developers already fixed an issue::
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git checkout --detach origin/master
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If you deepened your clone, you instead of ``origin/master`` can specify the
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version you deepened to (``v6.0`` above); later releases like ``v6.1`` and
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pre-release like ``v6.2-rc1`` will work, too. Stable or longterm versions
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like ``v6.1.5`` work just the same, if you added the appropriate
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stable/longterm branch as described.
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[:ref:`details<sources>`]
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.. _patching_sbs:
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* In case you want to apply a kernel patch, do so now. Often a command like
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this will do the trick::
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patch -p1 < ../proposed-fix.patch
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If the ``-p1`` is actually needed, depends on how the patch was created; in
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case it does not apply thus try without it.
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If you cloned the sources with git and anything goes sideways, run ``git
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reset --hard`` to undo any changes to the sources.
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[:ref:`details<patching>`]
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.. _tagging_sbs:
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* If you patched your kernel or have one of the same version installed already,
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better add a unique tag to the one you are about to build::
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echo "-proposed_fix" > localversion
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Running ``uname -r`` under your kernel later will then print something like
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'6.1-rc4-proposed_fix'.
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[:ref:`details<tagging>`]
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.. _configuration_sbs:
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* Create the build configuration for your kernel based on an existing
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configuration.
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If you already prepared such a '.config' file yourself, copy it to
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~/linux/ and run ``make olddefconfig``.
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Use the same command, if your distribution or somebody else already tailored
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your running kernel to your or your hardware's needs: the make target
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'olddefconfig' will then try to use that kernel's .config as base.
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Using this make target is fine for everybody else, too -- but you often can
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save a lot of time by using this command instead::
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yes "" | make localmodconfig
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This will try to pick your distribution's kernel as base, but then disable
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modules for any features apparently superfluous for your setup. This will
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reduce the compile time enormously, especially if you are running an
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universal kernel from a commodity Linux distribution.
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There is a catch: 'localmodconfig' is likely to disable kernel features you
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did not use since you booted your Linux -- like drivers for currently
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disconnected peripherals or a virtualization software not haven't used yet.
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You can reduce or nearly eliminate that risk with tricks the reference
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section outlines; but when building a kernel just for quick testing purposes
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it is often negligible if such features are missing. But you should keep that
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aspect in mind when using a kernel built with this make target, as it might
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be the reason why something you only use occasionally stopped working.
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[:ref:`details<configuration>`]
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.. _configmods_sbs:
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* Check if you might want to or have to adjust some kernel configuration
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options:
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* Evaluate how you want to handle debug symbols. Enable them, if you later
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might need to decode a stack trace found for example in a 'panic', 'Oops',
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'warning', or 'BUG'; on the other hand disable them, if you are short on
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storage space or prefer a smaller kernel binary. See the reference section
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for details on how to do either. If neither applies, it will likely be fine
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to simply not bother with this. [:ref:`details<configmods_debugsymbols>`]
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* Are you running Debian? Then to avoid known problems by performing
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additional adjustments explained in the reference section.
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[:ref:`details<configmods_distros>`].
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* If you want to influence the other aspects of the configuration, do so now
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by using make targets like 'menuconfig' or 'xconfig'.
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[:ref:`details<configmods_individual>`].
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.. _build_sbs:
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* Build the image and the modules of your kernel::
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make -j $(nproc --all)
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If you want your kernel packaged up as deb, rpm, or tar file, see the
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reference section for alternatives.
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[:ref:`details<build>`]
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.. _install_sbs:
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* Now install your kernel::
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command -v installkernel && sudo make modules_install install
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Often all left for you to do afterwards is a ``reboot``, as many commodity
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Linux distributions will then create an initramfs (also known as initrd) and
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an entry for your kernel in your bootloader's configuration; but on some
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distributions you have to take care of these two steps manually for reasons
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the reference section explains.
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On a few distributions like Arch Linux and its derivatives the above command
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does nothing at all; in that case you have to manually install your kernel,
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as outlined in the reference section.
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If you are running a immutable Linux distribution, check its documentation
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and the web to find out how to install your own kernel there.
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[:ref:`details<install>`]
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.. _another_sbs:
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* To later build another kernel you need similar steps, but sometimes slightly
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different commands.
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First, switch back into the sources tree::
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cd ~/linux/
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In case you want to build a version from a stable/longterm series you have
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not used yet (say 6.2.y), tell git to track it::
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git remote set-branches --add origin linux-6.2.y
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Now fetch the latest upstream changes; you again need to specify the earliest
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version you care about, as git otherwise might retrieve the entire commit
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history::
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git fetch --shallow-exclude=v6.0 origin
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Now switch to the version you are interested in -- but be aware the command
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used here will discard any modifications you performed, as they would
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conflict with the sources you want to checkout::
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git checkout --force --detach origin/master
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At this point you might want to patch the sources again or set/modify a build
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tag, as explained earlier. Afterwards adjust the build configuration to the
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new codebase using olddefconfig, which will now adjust the configuration file
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you prepared earlier using localmodconfig (~/linux/.config) for your next
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kernel::
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# reminder: if you want to apply patches, do it at this point
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# reminder: you might want to update your build tag at this point
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make olddefconfig
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Now build your kernel::
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make -j $(nproc --all)
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Afterwards install the kernel as outlined above::
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command -v installkernel && sudo make modules_install install
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[:ref:`details<another>`]
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.. _uninstall_sbs:
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* Your kernel is easy to remove later, as its parts are only stored in two
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places and clearly identifiable by the kernel's release name. Just ensure to
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not delete the kernel you are running, as that might render your system
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unbootable.
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Start by deleting the directory holding your kernel's modules, which is named
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after its release name -- '6.0.1-foobar' in the following example::
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sudo rm -rf /lib/modules/6.0.1-foobar
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Now try the following command, which on some distributions will delete all
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other kernel files installed while also removing the kernel's entry from the
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bootloader configuration::
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command -v kernel-install && sudo kernel-install -v remove 6.0.1-foobar
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If that command does not output anything or fails, see the reference section;
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do the same if any files named '*6.0.1-foobar*' remain in /boot/.
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[:ref:`details<uninstall>`]
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.. _submit_improvements:
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Did you run into trouble following any of the above steps that is not cleared up
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by the reference section below? Or do you have ideas how to improve the text?
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Then please take a moment of your time and let the maintainer of this document
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know by email (Thorsten Leemhuis <linux@leemhuis.info>), ideally while CCing the
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Linux docs mailing list (linux-doc@vger.kernel.org). Such feedback is vital to
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improve this document further, which is in everybody's interest, as it will
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enable more people to master the task described here.
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Reference section for the step-by-step guide
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============================================
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This section holds additional information for each of the steps in the above
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guide.
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.. _backup:
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Prepare for emergencies
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-----------------------
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*Create a fresh backup and put system repair and restore tools at hand*
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[:ref:`... <backup_sbs>`]
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Remember, you are dealing with computers, which sometimes do unexpected things
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-- especially if you fiddle with crucial parts like the kernel of an operating
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system. That's what you are about to do in this process. Hence, better prepare
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for something going sideways, even if that should not happen.
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[:ref:`back to step-by-step guide <backup_sbs>`]
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.. _secureboot:
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Dealing with techniques like Secure Boot
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----------------------------------------
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*On platforms with 'Secure Boot' or similar techniques, prepare everything to
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ensure the system will permit your self-compiled kernel to boot later.*
|
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[:ref:`... <secureboot_sbs>`]
|
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|
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Many modern systems allow only certain operating systems to start; they thus by
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default will reject booting self-compiled kernels.
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You ideally deal with this by making your platform trust your self-built kernels
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with the help of a certificate and signing. How to do that is not described
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here, as it requires various steps that would take the text too far away from
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its purpose; 'Documentation/admin-guide/module-signing.rst' and various web
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sides already explain this in more detail.
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Temporarily disabling solutions like Secure Boot is another way to make your own
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Linux boot. On commodity x86 systems it is possible to do this in the BIOS Setup
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utility; the steps to do so are not described here, as they greatly vary between
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machines.
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On mainstream x86 Linux distributions there is a third and universal option:
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disable all Secure Boot restrictions for your Linux environment. You can
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initiate this process by running ``mokutil --disable-validation``; this will
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tell you to create a one-time password, which is safe to write down. Now
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restart; right after your BIOS performed all self-tests the bootloader Shim will
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show a blue box with a message 'Press any key to perform MOK management'. Hit
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some key before the countdown exposes. This will open a menu and choose 'Change
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Secure Boot state' there. Shim's 'MokManager' will now ask you to enter three
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randomly chosen characters from the one-time password specified earlier. Once
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you provided them, confirm that you really want to disable the validation.
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Afterwards, permit MokManager to reboot the machine.
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[:ref:`back to step-by-step guide <secureboot_sbs>`]
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.. _buildrequires:
|
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|
|
Install build requirements
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--------------------------
|
|
|
|
*Install all software required to build a Linux kernel.*
|
|
[:ref:`...<buildrequires_sbs>`]
|
|
|
|
The kernel is pretty stand-alone, but besides tools like the compiler you will
|
|
sometimes need a few libraries to build one. How to install everything needed
|
|
depends on your Linux distribution and the configuration of the kernel you are
|
|
about to build.
|
|
|
|
Here are a few examples what you typically need on some mainstream
|
|
distributions:
|
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* Debian, Ubuntu, and derivatives::
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sudo apt install bc binutils bison dwarves flex gcc git make openssl \
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pahole perl-base libssl-dev libelf-dev
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* Fedora and derivatives::
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sudo dnf install binutils /usr/include/{libelf.h,openssl/pkcs7.h} \
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/usr/bin/{bc,bison,flex,gcc,git,openssl,make,perl,pahole}
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* openSUSE and derivatives::
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sudo zypper install bc binutils bison dwarves flex gcc git make perl-base \
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openssl openssl-devel libelf-dev
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|
In case you wonder why these lists include openssl and its development headers:
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they are needed for the Secure Boot support, which many distributions enable in
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their kernel configuration for x86 machines.
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|
Sometimes you will need tools for compression formats like bzip2, gzip, lz4,
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|
lzma, lzo, xz, or zstd as well.
|
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|
|
You might need additional libraries and their development headers in case you
|
|
perform tasks not covered in this guide. For example, zlib will be needed when
|
|
building kernel tools from the tools/ directory; adjusting the build
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|
configuration with make targets like 'menuconfig' or 'xconfig' will require
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development headers for ncurses or Qt5.
|
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[:ref:`back to step-by-step guide <buildrequires_sbs>`]
|
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|
|
.. _diskspace:
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|
Space requirements
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------------------
|
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|
*Ensure to have enough free space for building and installing Linux.*
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|
[:ref:`... <diskspace_sbs>`]
|
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The numbers mentioned are rough estimates with a big extra charge to be on the
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safe side, so often you will need less.
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|
If you have space constraints, remember to read the reference section when you
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|
reach the :ref:`section about configuration adjustments' <configmods>`, as
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|
ensuring debug symbols are disabled will reduce the consumed disk space by quite
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a few gigabytes.
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|
|
[:ref:`back to step-by-step guide <diskspace_sbs>`]
|
|
|
|
|
|
.. _sources:
|
|
|
|
Download the sources
|
|
--------------------
|
|
|
|
*Retrieve the sources of the Linux version you intend to build.*
|
|
[:ref:`...<sources_sbs>`]
|
|
|
|
The step-by-step guide outlines how to retrieve Linux' sources using a shallow
|
|
git clone. There is :ref:`more to tell about this method<sources_shallow>` and
|
|
two alternate ways worth describing: :ref:`packaged archives<sources_archive>`
|
|
and :ref:`a full git clone<sources_full>`. And the aspects ':ref:`wouldn't it
|
|
be wiser to use a proper pre-release than the latest mainline code
|
|
<sources_snapshot>`' and ':ref:`how to get an even fresher mainline codebase
|
|
<sources_fresher>`' need elaboration, too.
|
|
|
|
Note, to keep things simple the commands used in this guide store the build
|
|
artifacts in the source tree. If you prefer to separate them, simply add
|
|
something like ``O=~/linux-builddir/`` to all make calls; also adjust the path
|
|
in all commands that add files or modify any generated (like your '.config').
|
|
|
|
[:ref:`back to step-by-step guide <sources_sbs>`]
|
|
|
|
.. _sources_shallow:
|
|
|
|
Noteworthy characteristics of shallow clones
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
The step-by-step guide uses a shallow clone, as it is the best solution for most
|
|
of this document's target audience. There are a few aspects of this approach
|
|
worth mentioning:
|
|
|
|
* This document in most places uses ``git fetch`` with ``--shallow-exclude=``
|
|
to specify the earliest version you care about (or to be precise: its git
|
|
tag). You alternatively can use the parameter ``--shallow-since=`` to specify
|
|
an absolute (say ``'2023-07-15'``) or relative (``'12 months'``) date to
|
|
define the depth of the history you want to download. As a second
|
|
alternative, you can also specify a certain depth explicitly with a parameter
|
|
like ``--depth=1``, unless you add branches for stable/longterm kernels.
|
|
|
|
* When running ``git fetch``, remember to always specify the oldest version,
|
|
the time you care about, or an explicit depth as shown in the step-by-step
|
|
guide. Otherwise you will risk downloading nearly the entire git history,
|
|
which will consume quite a bit of time and bandwidth while also stressing the
|
|
servers.
|
|
|
|
Note, you do not have to use the same version or date all the time. But when
|
|
you change it over time, git will deepen or flatten the history to the
|
|
specified point. That allows you to retrieve versions you initially thought
|
|
you did not need -- or it will discard the sources of older versions, for
|
|
example in case you want to free up some disk space. The latter will happen
|
|
automatically when using ``--shallow-since=`` or
|
|
``--depth=``.
|
|
|
|
* Be warned, when deepening your clone you might encounter an error like
|
|
'fatal: error in object: unshallow cafecaca0c0dacafecaca0c0dacafecaca0c0da'.
|
|
In that case run ``git repack -d`` and try again``
|
|
|
|
* In case you want to revert changes from a certain version (say Linux 6.3) or
|
|
perform a bisection (v6.2..v6.3), better tell ``git fetch`` to retrieve
|
|
objects up to three versions earlier (e.g. 6.0): ``git describe`` will then
|
|
be able to describe most commits just like it would in a full git clone.
|
|
|
|
[:ref:`back to step-by-step guide <sources_sbs>`] [:ref:`back to section intro <sources>`]
|
|
|
|
.. _sources_archive:
|
|
|
|
Downloading the sources using a packages archive
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
People new to compiling Linux often assume downloading an archive via the
|
|
front-page of https://kernel.org is the best approach to retrieve Linux'
|
|
sources. It actually can be, if you are certain to build just one particular
|
|
kernel version without changing any code. Thing is: you might be sure this will
|
|
be the case, but in practice it often will turn out to be a wrong assumption.
|
|
|
|
That's because when reporting or debugging an issue developers will often ask to
|
|
give another version a try. They also might suggest temporarily undoing a commit
|
|
with ``git revert`` or might provide various patches to try. Sometimes reporters
|
|
will also be asked to use ``git bisect`` to find the change causing a problem.
|
|
These things rely on git or are a lot easier and quicker to handle with it.
|
|
|
|
A shallow clone also does not add any significant overhead. For example, when
|
|
you use ``git clone --depth=1`` to create a shallow clone of the latest mainline
|
|
codebase git will only retrieve a little more data than downloading the latest
|
|
mainline pre-release (aka 'rc') via the front-page of kernel.org would.
|
|
|
|
A shallow clone therefore is often the better choice. If you nevertheless want
|
|
to use a packaged source archive, download one via kernel.org; afterwards
|
|
extract its content to some directory and change to the subdirectory created
|
|
during extraction. The rest of the step-by-step guide will work just fine, apart
|
|
from things that rely on git -- but this mainly concerns the section on
|
|
successive builds of other versions.
|
|
|
|
[:ref:`back to step-by-step guide <sources_sbs>`] [:ref:`back to section intro <sources>`]
|
|
|
|
.. _sources_full:
|
|
|
|
Downloading the sources using a full git clone
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
If downloading and storing a lot of data (~4,4 Gigabyte as of early 2023) is
|
|
nothing that bothers you, instead of a shallow clone perform a full git clone
|
|
instead. You then will avoid the specialties mentioned above and will have all
|
|
versions and individual commits at hand at any time::
|
|
|
|
curl -L \
|
|
https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git/clone.bundle \
|
|
-o linux-stable.git.bundle
|
|
git clone linux-stable.git.bundle ~/linux/
|
|
rm linux-stable.git.bundle
|
|
cd ~/linux/
|
|
git remote set-url origin \
|
|
https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git
|
|
git fetch origin
|
|
git checkout --detach origin/master
|
|
|
|
[:ref:`back to step-by-step guide <sources_sbs>`] [:ref:`back to section intro <sources>`]
|
|
|
|
.. _sources_snapshot:
|
|
|
|
Proper pre-releases (RCs) vs. latest mainline
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
When cloning the sources using git and checking out origin/master, you often
|
|
will retrieve a codebase that is somewhere between the latest and the next
|
|
release or pre-release. This almost always is the code you want when giving
|
|
mainline a shot: pre-releases like v6.1-rc5 are in no way special, as they do
|
|
not get any significant extra testing before being published.
|
|
|
|
There is one exception: you might want to stick to the latest mainline release
|
|
(say v6.1) before its successor's first pre-release (v6.2-rc1) is out. That is
|
|
because compiler errors and other problems are more likely to occur during this
|
|
time, as mainline then is in its 'merge window': a usually two week long phase,
|
|
in which the bulk of the changes for the next release is merged.
|
|
|
|
[:ref:`back to step-by-step guide <sources_sbs>`] [:ref:`back to section intro <sources>`]
|
|
|
|
.. _sources_fresher:
|
|
|
|
Avoiding the mainline lag
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
The explanations for both the shallow clone and the full clone both retrieve the
|
|
code from the Linux stable git repository. That makes things simpler for this
|
|
document's audience, as it allows easy access to both mainline and
|
|
stable/longterm releases. This approach has just one downside:
|
|
|
|
Changes merged into the mainline repository are only synced to the master branch
|
|
of the Linux stable repository every few hours. This lag most of the time is
|
|
not something to worry about; but in case you really need the latest code, just
|
|
add the mainline repo as additional remote and checkout the code from there::
|
|
|
|
git remote add mainline \
|
|
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
|
|
git fetch mainline
|
|
git checkout --detach mainline/master
|
|
|
|
When doing this with a shallow clone, remember to call ``git fetch`` with one
|
|
of the parameters described earlier to limit the depth.
|
|
|
|
[:ref:`back to step-by-step guide <sources_sbs>`] [:ref:`back to section intro <sources>`]
|
|
|
|
.. _patching:
|
|
|
|
Patch the sources (optional)
|
|
----------------------------
|
|
|
|
*In case you want to apply a kernel patch, do so now.*
|
|
[:ref:`...<patching_sbs>`]
|
|
|
|
This is the point where you might want to patch your kernel -- for example when
|
|
a developer proposed a fix and asked you to check if it helps. The step-by-step
|
|
guide already explains everything crucial here.
|
|
|
|
[:ref:`back to step-by-step guide <patching_sbs>`]
|
|
|
|
.. _tagging:
|
|
|
|
Tagging this kernel build (optional, often wise)
|
|
------------------------------------------------
|
|
|
|
*If you patched your kernel or already have that kernel version installed,
|
|
better tag your kernel by extending its release name:*
|
|
[:ref:`...<tagging_sbs>`]
|
|
|
|
Tagging your kernel will help avoid confusion later, especially when you patched
|
|
your kernel. Adding an individual tag will also ensure the kernel's image and
|
|
its modules are installed in parallel to any existing kernels.
|
|
|
|
There are various ways to add such a tag. The step-by-step guide realizes one by
|
|
creating a 'localversion' file in your build directory from which the kernel
|
|
build scripts will automatically pick up the tag. You can later change that file
|
|
to use a different tag in subsequent builds or simply remove that file to dump
|
|
the tag.
|
|
|
|
[:ref:`back to step-by-step guide <tagging_sbs>`]
|
|
|
|
.. _configuration:
|
|
|
|
Define the build configuration for your kernel
|
|
----------------------------------------------
|
|
|
|
*Create the build configuration for your kernel based on an existing
|
|
configuration.* [:ref:`... <configuration_sbs>`]
|
|
|
|
There are various aspects for this steps that require a more careful
|
|
explanation:
|
|
|
|
Pitfalls when using another configuration file as base
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Make targets like localmodconfig and olddefconfig share a few common snares you
|
|
want to be aware of:
|
|
|
|
* These targets will reuse a kernel build configuration in your build directory
|
|
(e.g. '~/linux/.config'), if one exists. In case you want to start from
|
|
scratch you thus need to delete it.
|
|
|
|
* The make targets try to find the configuration for your running kernel
|
|
automatically, but might choose poorly. A line like '# using defaults found
|
|
in /boot/config-6.0.7-250.fc36.x86_64' or 'using config:
|
|
'/boot/config-6.0.7-250.fc36.x86_64' tells you which file they picked. If
|
|
that is not the intended one, simply store it as '~/linux/.config'
|
|
before using these make targets.
|
|
|
|
* Unexpected things might happen if you try to use a config file prepared for
|
|
one kernel (say v6.0) on an older generation (say v5.15). In that case you
|
|
might want to use a configuration as base which your distribution utilized
|
|
when they used that or an slightly older kernel version.
|
|
|
|
Influencing the configuration
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
The make target olddefconfig and the ``yes "" |`` used when utilizing
|
|
localmodconfig will set any undefined build options to their default value. This
|
|
among others will disable many kernel features that were introduced after your
|
|
base kernel was released.
|
|
|
|
If you want to set these configurations options manually, use ``oldconfig``
|
|
instead of ``olddefconfig`` or omit the ``yes "" |`` when utilizing
|
|
localmodconfig. Then for each undefined configuration option you will be asked
|
|
how to proceed. In case you are unsure what to answer, simply hit 'enter' to
|
|
apply the default value.
|
|
|
|
Big pitfall when using localmodconfig
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
As explained briefly in the step-by-step guide already: with localmodconfig it
|
|
can easily happen that your self-built kernel will lack modules for tasks you
|
|
did not perform before utilizing this make target. That's because those tasks
|
|
require kernel modules that are normally autoloaded when you perform that task
|
|
for the first time; if you didn't perform that task at least once before using
|
|
localmodonfig, the latter will thus assume these modules are superfluous and
|
|
disable them.
|
|
|
|
You can try to avoid this by performing typical tasks that often will autoload
|
|
additional kernel modules: start a VM, establish VPN connections, loop-mount a
|
|
CD/DVD ISO, mount network shares (CIFS, NFS, ...), and connect all external
|
|
devices (2FA keys, headsets, webcams, ...) as well as storage devices with file
|
|
systems you otherwise do not utilize (btrfs, ext4, FAT, NTFS, XFS, ...). But it
|
|
is hard to think of everything that might be needed -- even kernel developers
|
|
often forget one thing or another at this point.
|
|
|
|
Do not let that risk bother you, especially when compiling a kernel only for
|
|
testing purposes: everything typically crucial will be there. And if you forget
|
|
something important you can turn on a missing feature later and quickly run the
|
|
commands to compile and install a better kernel.
|
|
|
|
But if you plan to build and use self-built kernels regularly, you might want to
|
|
reduce the risk by recording which modules your system loads over the course of
|
|
a few weeks. You can automate this with `modprobed-db
|
|
<https://github.com/graysky2/modprobed-db>`_. Afterwards use ``LSMOD=<path>`` to
|
|
point localmodconfig to the list of modules modprobed-db noticed being used::
|
|
|
|
yes "" | make LSMOD="${HOME}"/.config/modprobed.db localmodconfig
|
|
|
|
Remote building with localmodconfig
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
If you want to use localmodconfig to build a kernel for another machine, run
|
|
``lsmod > lsmod_foo-machine`` on it and transfer that file to your build host.
|
|
Now point the build scripts to the file like this: ``yes "" | make
|
|
LSMOD=~/lsmod_foo-machine localmodconfig``. Note, in this case
|
|
you likely want to copy a base kernel configuration from the other machine over
|
|
as well and place it as .config in your build directory.
|
|
|
|
[:ref:`back to step-by-step guide <configuration_sbs>`]
|
|
|
|
.. _configmods:
|
|
|
|
Adjust build configuration
|
|
--------------------------
|
|
|
|
*Check if you might want to or have to adjust some kernel configuration
|
|
options:*
|
|
|
|
Depending on your needs you at this point might want or have to adjust some
|
|
kernel configuration options.
|
|
|
|
.. _configmods_debugsymbols:
|
|
|
|
Debug symbols
|
|
~~~~~~~~~~~~~
|
|
|
|
*Evaluate how you want to handle debug symbols.*
|
|
[:ref:`...<configmods_sbs>`]
|
|
|
|
Most users do not need to care about this, it's often fine to leave everything
|
|
as it is; but you should take a closer look at this, if you might need to decode
|
|
a stack trace or want to reduce space consumption.
|
|
|
|
Having debug symbols available can be important when your kernel throws a
|
|
'panic', 'Oops', 'warning', or 'BUG' later when running, as then you will be
|
|
able to find the exact place where the problem occurred in the code. But
|
|
collecting and embedding the needed debug information takes time and consumes
|
|
quite a bit of space: in late 2022 the build artifacts for a typical x86 kernel
|
|
configured with localmodconfig consumed around 5 Gigabyte of space with debug
|
|
symbols, but less than 1 when they were disabled. The resulting kernel image and
|
|
the modules are bigger as well, which increases load times.
|
|
|
|
Hence, if you want a small kernel and are unlikely to decode a stack trace
|
|
later, you might want to disable debug symbols to avoid above downsides::
|
|
|
|
./scripts/config --file .config -d DEBUG_INFO \
|
|
-d DEBUG_INFO_DWARF_TOOLCHAIN_DEFAULT -d DEBUG_INFO_DWARF4 \
|
|
-d DEBUG_INFO_DWARF5 -e CONFIG_DEBUG_INFO_NONE
|
|
make olddefconfig
|
|
|
|
You on the other hand definitely want to enable them, if there is a decent
|
|
chance that you need to decode a stack trace later (as explained by 'Decode
|
|
failure messages' in Documentation/admin-guide/tainted-kernels.rst in more
|
|
detail)::
|
|
|
|
./scripts/config --file .config -d DEBUG_INFO_NONE -e DEBUG_KERNEL
|
|
-e DEBUG_INFO -e DEBUG_INFO_DWARF_TOOLCHAIN_DEFAULT -e KALLSYMS -e KALLSYMS_ALL
|
|
make olddefconfig
|
|
|
|
Note, many mainstream distributions enable debug symbols in their kernel
|
|
configurations -- make targets like localmodconfig and olddefconfig thus will
|
|
often pick that setting up.
|
|
|
|
[:ref:`back to step-by-step guide <configmods_sbs>`]
|
|
|
|
.. _configmods_distros:
|
|
|
|
Distro specific adjustments
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
*Are you running* [:ref:`... <configmods_sbs>`]
|
|
|
|
The following sections help you to avoid build problems that are known to occur
|
|
when following this guide on a few commodity distributions.
|
|
|
|
**Debian:**
|
|
|
|
* Remove a stale reference to a certificate file that would cause your build to
|
|
fail::
|
|
|
|
./scripts/config --file .config --set-str SYSTEM_TRUSTED_KEYS ''
|
|
|
|
Alternatively, download the needed certificate and make that configuration
|
|
option point to it, as `the Debian handbook explains in more detail
|
|
<https://debian-handbook.info/browse/stable/sect.kernel-compilation.html>`_
|
|
-- or generate your own, as explained in
|
|
Documentation/admin-guide/module-signing.rst.
|
|
|
|
[:ref:`back to step-by-step guide <configmods_sbs>`]
|
|
|
|
.. _configmods_individual:
|
|
|
|
Individual adjustments
|
|
~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
*If you want to influence the other aspects of the configuration, do so
|
|
now* [:ref:`... <configmods_sbs>`]
|
|
|
|
You at this point can use a command like ``make menuconfig`` to enable or
|
|
disable certain features using a text-based user interface; to use a graphical
|
|
configuration utilize, use the make target ``xconfig`` or ``gconfig`` instead.
|
|
All of them require development libraries from toolkits they are based on
|
|
(ncurses, Qt5, Gtk2); an error message will tell you if something required is
|
|
missing.
|
|
|
|
[:ref:`back to step-by-step guide <configmods_sbs>`]
|
|
|
|
.. _build:
|
|
|
|
Build your kernel
|
|
-----------------
|
|
|
|
*Build the image and the modules of your kernel* [:ref:`... <build_sbs>`]
|
|
|
|
A lot can go wrong at this stage, but the instructions below will help you help
|
|
yourself. Another subsection explains how to directly package your kernel up as
|
|
deb, rpm or tar file.
|
|
|
|
Dealing with build errors
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
When a build error occurs, it might be caused by some aspect of your machine's
|
|
setup that often can be fixed quickly; other times though the problem lies in
|
|
the code and can only be fixed by a developer. A close examination of the
|
|
failure messages coupled with some research on the internet will often tell you
|
|
which of the two it is. To perform such a investigation, restart the build
|
|
process like this::
|
|
|
|
make V=1
|
|
|
|
The ``V=1`` activates verbose output, which might be needed to see the actual
|
|
error. To make it easier to spot, this command also omits the ``-j $(nproc
|
|
--all)`` used earlier to utilize every CPU core in the system for the job -- but
|
|
this parallelism also results in some clutter when failures occur.
|
|
|
|
After a few seconds the build process should run into the error again. Now try
|
|
to find the most crucial line describing the problem. Then search the internet
|
|
for the most important and non-generic section of that line (say 4 to 8 words);
|
|
avoid or remove anything that looks remotely system-specific, like your username
|
|
or local path names like ``/home/username/linux/``. First try your regular
|
|
internet search engine with that string, afterwards search Linux kernel mailing
|
|
lists via `lore.kernel.org/all/ <https://lore.kernel.org/all/>`_.
|
|
|
|
This most of the time will find something that will explain what is wrong; quite
|
|
often one of the hits will provide a solution for your problem, too. If you
|
|
do not find anything that matches your problem, try again from a different angle
|
|
by modifying your search terms or using another line from the error messages.
|
|
|
|
In the end, most trouble you are to run into has likely been encountered and
|
|
reported by others already. That includes issues where the cause is not your
|
|
system, but lies the code. If you run into one of those, you might thus find a
|
|
solution (e.g. a patch) or workaround for your problem, too.
|
|
|
|
Package your kernel up
|
|
~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
The step-by-step guide uses the default make targets (e.g. 'bzImage' and
|
|
'modules' on x86) to build the image and the modules of your kernel, which later
|
|
steps of the guide then install. You instead can also directly build everything
|
|
and directly package it up by using one of the following targets:
|
|
|
|
* ``make -j $(nproc --all) bindeb-pkg`` to generate a deb package
|
|
|
|
* ``make -j $(nproc --all) binrpm-pkg`` to generate a rpm package
|
|
|
|
* ``make -j $(nproc --all) tarbz2-pkg`` to generate a bz2 compressed tarball
|
|
|
|
This is just a selection of available make targets for this purpose, see
|
|
``make help`` for others. You can also use these targets after running
|
|
``make -j $(nproc --all)``, as they will pick up everything already built.
|
|
|
|
If you employ the targets to generate deb or rpm packages, ignore the
|
|
step-by-step guide's instructions on installing and removing your kernel;
|
|
instead install and remove the packages using the package utility for the format
|
|
(e.g. dpkg and rpm) or a package management utility build on top of them (apt,
|
|
aptitude, dnf/yum, zypper, ...). Be aware that the packages generated using
|
|
these two make targets are designed to work on various distributions utilizing
|
|
those formats, they thus will sometimes behave differently than your
|
|
distribution's kernel packages.
|
|
|
|
[:ref:`back to step-by-step guide <build_sbs>`]
|
|
|
|
.. _install:
|
|
|
|
Install your kernel
|
|
-------------------
|
|
|
|
*Now install your kernel* [:ref:`... <install_sbs>`]
|
|
|
|
What you need to do after executing the command in the step-by-step guide
|
|
depends on the existence and the implementation of an ``installkernel``
|
|
executable. Many commodity Linux distributions ship such a kernel installer in
|
|
``/sbin/`` that does everything needed, hence there is nothing left for you
|
|
except rebooting. But some distributions contain an installkernel that does
|
|
only part of the job -- and a few lack it completely and leave all the work to
|
|
you.
|
|
|
|
If ``installkernel`` is found, the kernel's build system will delegate the
|
|
actual installation of your kernel's image and related files to this executable.
|
|
On almost all Linux distributions it will store the image as '/boot/vmlinuz-
|
|
<your kernel's release name>' and put a 'System.map-<your kernel's release
|
|
name>' alongside it. Your kernel will thus be installed in parallel to any
|
|
existing ones, unless you already have one with exactly the same release name.
|
|
|
|
Installkernel on many distributions will afterwards generate an 'initramfs'
|
|
(often also called 'initrd'), which commodity distributions rely on for booting;
|
|
hence be sure to keep the order of the two make targets used in the step-by-step
|
|
guide, as things will go sideways if you install your kernel's image before its
|
|
modules. Often installkernel will then add your kernel to the bootloader
|
|
configuration, too. You have to take care of one or both of these tasks
|
|
yourself, if your distributions installkernel doesn't handle them.
|
|
|
|
A few distributions like Arch Linux and its derivatives totally lack an
|
|
installkernel executable. On those just install the modules using the kernel's
|
|
build system and then install the image and the System.map file manually::
|
|
|
|
sudo make modules_install
|
|
sudo install -m 0600 $(make -s image_name) /boot/vmlinuz-$(make -s kernelrelease)
|
|
sudo install -m 0600 System.map /boot/System.map-$(make -s kernelrelease)
|
|
|
|
If your distribution boots with the help of an initramfs, now generate one for
|
|
your kernel using the tools your distribution provides for this process.
|
|
Afterwards add your kernel to your bootloader configuration and reboot.
|
|
|
|
[:ref:`back to step-by-step guide <install_sbs>`]
|
|
|
|
.. _another:
|
|
|
|
Another round later
|
|
-------------------
|
|
|
|
*To later build another kernel you need similar, but sometimes slightly
|
|
different commands* [:ref:`... <another_sbs>`]
|
|
|
|
The process to build later kernels is similar, but at some points slightly
|
|
different. You for example do not want to use 'localmodconfig' for succeeding
|
|
kernel builds, as you already created a trimmed down configuration you want to
|
|
use from now on. Hence instead just use ``oldconfig`` or ``olddefconfig`` to
|
|
adjust your build configurations to the needs of the kernel version you are
|
|
about to build.
|
|
|
|
If you created a shallow-clone with git, remember what the :ref:`section that
|
|
explained the setup described in more detail <sources>`: you need to use a
|
|
slightly different ``git fetch`` command and when switching to another series
|
|
need to add an additional remote branch.
|
|
|
|
[:ref:`back to step-by-step guide <another_sbs>`]
|
|
|
|
.. _uninstall:
|
|
|
|
Uninstall the kernel later
|
|
--------------------------
|
|
|
|
*All parts of your installed kernel are identifiable by its release name and
|
|
thus easy to remove later.* [:ref:`... <uninstall_sbs>`]
|
|
|
|
Do not worry installing your kernel manually and thus bypassing your
|
|
distribution's packaging system will totally mess up your machine: all parts of
|
|
your kernel are easy to remove later, as files are stored in two places only and
|
|
normally identifiable by the kernel's release name.
|
|
|
|
One of the two places is a directory in /lib/modules/, which holds the modules
|
|
for each installed kernel. This directory is named after the kernel's release
|
|
name; hence, to remove all modules for one of your kernels, simply remove its
|
|
modules directory in /lib/modules/.
|
|
|
|
The other place is /boot/, where typically one to five files will be placed
|
|
during installation of a kernel. All of them usually contain the release name in
|
|
their file name, but how many files and their name depends somewhat on your
|
|
distribution's installkernel executable (:ref:`see above <install>`) and its
|
|
initramfs generator. On some distributions the ``kernel-install`` command
|
|
mentioned in the step-by-step guide will remove all of these files for you --
|
|
and the entry for your kernel in the bootloader configuration at the same time,
|
|
too. On others you have to take care of these steps yourself. The following
|
|
command should interactively remove the two main files of a kernel with the
|
|
release name '6.0.1-foobar'::
|
|
|
|
rm -i /boot/{System.map,vmlinuz}-6.0.1-foobar
|
|
|
|
Now remove the belonging initramfs, which often will be called something like
|
|
``/boot/initramfs-6.0.1-foobar.img`` or ``/boot/initrd.img-6.0.1-foobar``.
|
|
Afterwards check for other files in /boot/ that have '6.0.1-foobar' in their
|
|
name and delete them as well. Now remove the kernel from your bootloader's
|
|
configuration.
|
|
|
|
Note, be very careful with wildcards like '*' when deleting files or directories
|
|
for kernels manually: you might accidentally remove files of a 6.0.11 kernel
|
|
when all you want is to remove 6.0 or 6.0.1.
|
|
|
|
[:ref:`back to step-by-step guide <uninstall_sbs>`]
|
|
|
|
.. _faq:
|
|
|
|
FAQ
|
|
===
|
|
|
|
Why does this 'how-to' not work on my system?
|
|
---------------------------------------------
|
|
|
|
As initially stated, this guide is 'designed to cover everything typically
|
|
needed [to build a kernel] on mainstream Linux distributions running on
|
|
commodity PC or server hardware'. The outlined approach despite this should work
|
|
on many other setups as well. But trying to cover every possible use-case in one
|
|
guide would defeat its purpose, as without such a focus you would need dozens or
|
|
hundreds of constructs along the lines of 'in case you are having <insert
|
|
machine or distro>, you at this point have to do <this and that>
|
|
<instead|additionally>'. Each of which would make the text longer, more
|
|
complicated, and harder to follow.
|
|
|
|
That being said: this of course is a balancing act. Hence, if you think an
|
|
additional use-case is worth describing, suggest it to the maintainers of this
|
|
document, as :ref:`described above <submit_improvements>`.
|
|
|
|
|
|
..
|
|
end-of-content
|
|
..
|
|
This document is maintained by Thorsten Leemhuis <linux@leemhuis.info>. If
|
|
you spot a typo or small mistake, feel free to let him know directly and
|
|
he'll fix it. You are free to do the same in a mostly informal way if you
|
|
want to contribute changes to the text -- but for copyright reasons please CC
|
|
linux-doc@vger.kernel.org and 'sign-off' your contribution as
|
|
Documentation/process/submitting-patches.rst explains in the section 'Sign
|
|
your work - the Developer's Certificate of Origin'.
|
|
..
|
|
This text is available under GPL-2.0+ or CC-BY-4.0, as stated at the top
|
|
of the file. If you want to distribute this text under CC-BY-4.0 only,
|
|
please use 'The Linux kernel development community' for author attribution
|
|
and link this as source:
|
|
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/plain/Documentation/admin-guide/quickly-build-trimmed-linux.rst
|
|
..
|
|
Note: Only the content of this RST file as found in the Linux kernel sources
|
|
is available under CC-BY-4.0, as versions of this text that were processed
|
|
(for example by the kernel's build system) might contain content taken from
|
|
files which use a more restrictive license.
|
|
|