Custom Kernel: Difference between revisions

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You want to build a custom kernel to enable experimental hardware or features or outdated hardware, to reduce bloat further, to tune the kernel to the hardware.
You want to build a custom kernel to enable experimental hardware or features or outdated hardware, to reduce bloat further, to tune the kernel to the hardware.


The lts kernel for most Alpine ARCHs uses defaults to balance throughput at the expense of some responsiveness, and support for many devices.  You can tweak the kernel for desktop use and low latency and responsiveness.


The vanilla kernel uses defaults for servers and many devicesYou can tweak the kernel for desktop use and low latency.
You should disable modules to increase security.  By default, Alpine will install modules but not disable most of them.  Disabling modules will reduce an DMA attack but not eliminate it completely.  If you have a newer processor with VT-d, you can mitigate as long as you:
 
Leave <code>CONFIG_INTEL_IOMMU_DEFAULT_ON=y</code> or pass <code>intel_iommu=on</code> as a kernel parameter and disable kernel logging so the attacker doesn't gain DMAR address information through dmesg.[https://blog.frizk.net/2016/11/disable-virtualization-based-security.html] Also remove references to the kernel version to calculate the IOMMU addresses.[https://link.springer.com/content/pdf/10.1186/s13173-017-0066-7.pdf]
 
To increase the security of the boot process, if you have a TPM, you could set <code>CONFIG_INTEL_TXT=y</code> (Enable Intel(R) Trusted Execution Technology (Intel(R) TXT)) (which is not enabled in the hardened kernel by default), then you would need the SINIT module (provided only by Intel)[https://software.intel.com/en-us/articles/intel-trusted-execution-technology], a possibly compiled TrustedGrub2[https://github.com/Rohde-Schwarz-Cybersecurity/TrustedGRUB2], trousers[https://sourceforge.net/projects/trousers/?source=navbar], tboot[https://sourceforge.net/projects/tboot/].  These packages are not in aports and it is unknown if these tools work on musl.  It's not recommended for Edge.  Also, there would be trigger packages to generate hashes for the kernel and the mkinitfs updates.


== Setting up the Alpine Build System ==
== Setting up the Alpine Build System ==


First, you need to follow the steps in [[Creating_an_Alpine_package#Setup_your_system_and_account|Setup your system and account for building packages]].  You also need to configure your /etc/apk/repositories so that they search locally for your apks.  See [[Creating_an_Alpine_package#Testing_the_package_locally|Testing the package locally]] for details.
First, you need to follow the steps in [[Creating_an_Alpine_package#Setup_your_system_and_account|Setup your system and account for building packages]].  You also need to configure your {{path|/etc/apk/repositories}} so that they search locally for your apks.  See [[Creating_an_Alpine_package#Testing_the_package_locally|Testing the package locally]] for details.
 
After setting up accounts and repos, change your shell's current working directory to '''aports''' that you just cloned.
 
{{cmd|$ cd aports}}


== Working with aports ==
== Working with aports ==


There are several ways to maintain a kernel.  The first option is to create a new kernel package.  The other option is to just use the existing vanilla kernel just tweaking the configure-vanilla.ARCH file.  
We will try using an existing lts kernel just tweaking the {{path|lts.ARCH.config}} file.


=== Switching to the proper release version ===
=== Switching to the proper release version ===
Line 24: Line 33:
{| cellpadding="5" border="1" class="wikitable"
{| cellpadding="5" border="1" class="wikitable"
|-  
|-  
! Friendly name
! Alpine version
! Remote branch
! Remote branch
|-
|-
Line 30: Line 39:
| master
| master
|-
|-
| 3.7
| 3.17.0
| 3.7-stable
| 3.17-stable
|-  
|-  
|}
|}


The following is required to get access to the APKBUILD released for that version of Alpine and which you will create a commit for.
The following is required to get access to the {{path|APKBUILD}} released for that version of Alpine and which you will create a commit for.


If you are on 3.7 do:
If you are on 3.17 do:


  git checkout -b 3.7-stable origin/3.7-stable
{{cmd|$ git checkout -b 3.17-stable origin/3.17-stable}}


If you are on Edge do:
If you are on Edge do:


  git checkout master
{{cmd|$ git checkout master}}
 
=== Creating your config ===
 
You can use {{pkg|linux-lts}} but what you should do is create a local branch by doing:


=== Option A: Creating a new kernel package ===
For Alpine Edge:


Use this option only if you want to want to be a kernel package maintainer or have custom patches.
{{cmd|$ git checkout -b my-custom-kernel}}


What you need to do is copy ''main/linux-vanilla'' folder to ''testing/linux-NAME'', where NAME could be anything but usually initials or a project name to a special kernel patch or patchset.  Just use your last name if you don't know what to put.  Rename all files from vanilla to NAME.  Rename everything in APKBUILD with vanilla to NAME.
For Alpine 3.17:


Next step is to edit the inside of the kernel to change the value of _flavor to NAME.
{{cmd|$ git checkout -b my-custom-kernel origin/3.17-stable}}


=== Option B: Vanilla with native settings and minimal edits ===
Doing it this way, you do less work in maintaining.  All you need to do is keep ''master'' or ''3.17-stable'' in sync[https://help.github.com/articles/syncing-a-fork/][https://help.github.com/articles/configuring-a-remote-for-a-fork/] and merge any conflicts. 


Most users will want to use this option.
First switch to the branch by doing <code>git checkout my-custom-kernel</code>.  Then, you need to navigate to the {{path|main/linux-lts}} folder where you should see a APKBUILD and some config- files.  When you are done with your edits either by editing directly the APKBUILD and copying the {{path|lts.ARCH.config}} as {{path|.config}} in the {{path|linux-4.15}} folder.  You will then move the {{path|.config}} back overriding the {{path|lts.ARCH.config}} generated by <code>make menuconfig</code> (discussed below in the ''Configuring kernel'' section).  After generating your config, you need to <code>abuild checksum</code>.  Then, do <code>git add APKBUILD lts.ARCH.config</code> where ARCH is whatever architecture (x86, x86_64, ...) you use.  Then, you need to do <code>git commit APKBUILD config-NAME.ARCH -m "Enabled these options ...."</code> for your customization the ARCHitecture of your system.  You do this so that git can keep your code separate from Alpine's and so your changes float forward between kernel updates.


You can use linux-vanilla but what you should do is create a local branch by doing:
== Adding custom patches ==


For Alpine Edge:
Custom patches should be added to ''sources=''.


  git checkout -b my-custom-kernel
After you added the URL, you need to produce a checksum by doing <code>abuild checksum</code>.


For Alpine 3.7:
The custom patches may not be autopatched, due to being distributed as an archive or different patch level, so you need to define what to do with it in the prepare().


  git checkout -b my-custom-kernel origin/3.7-stable
== Configuring kernel ==


Doing it this way, you do less work in maintainingAll you need to do is keep ''master'' or ''3.7-stable'' in sync[https://help.github.com/articles/syncing-a-fork/][https://help.github.com/articles/configuring-a-remote-for-a-fork/] and merge any conflicts.   
Attempt to build the kernel firstTo do that, you do <code>abuild -rK</code> to install most of the dependencies. If it complains about a dependency like {{pkg|elfutils-dev}} use <code>-rKd</code>. Then, when it prompts for values for new found config options just hold enter till it starts compiling the kernel. There should be two sets one for -lts and the other for the -virt.  Just {{Key|Ctrl}}+{{Key|C}} out of the compilation process after the second set so you can further customize the config.  Then you go into the {{path|src/linux-VER}} and edit the config fileCopy the {{path|.config}} file overriding the {{path|lts.ARCH.config}} in the srcdir.


First switch to the branch by doing <code>git checkout my-custom-kernel</code>.  Then, you need to navigate to the ''main/linux-vanilla'' folder where you should see a APKBUILD and some config- files.  When you are done with your edits either by editing directly the APKBUILD config-vanilla.ARCH or copying the .config overriding the config-vanilla.ARCH generated by <code>make menuconfig</code> (discussed below in the ''Configuring kernel'' section) do <code>git add APKBUILD config-vanilla.ARCH</code> where ARCH is whatever architecture (x86, x86_64, ...) you use.  Then, you need to do <code>git commit APKBUILD config-NAME.ARCH -m "Enabled these options ...."</code> for your custom _flavor and the ARCHitecture of your system.  You do this so that git can keep your code separate from Alpine's and so your changes float forward between kernel updates.
The alternative is to use the kernel configuration menu in the build-NAME folder, but before yo do that you need to <code>sudo apk add {{pkg|ncurses-dev}}</code>


== Custom patches ==
After you are done using the menu in the build-NAME folder by doing <code>make menuconfig</code>, you want to remove <code>ncurses-dev</code>.  When you are done, it will be stored in ''.config'' which you need to again override the {{path|lts.ARCH.config}} file.  When you are done updating the {{path|config-NAME.ARCH}}, you need to do <code>abuild checksum</code>.


Custom patches should be added to ''sources=''.
The options in the kernel config are typically defaults.  If your device is old, it may be set to n by default.


After you added the URL, you need to produce a checksum by doing <code>abuild checksum</code>.
=== Vanilla targets and tuning ===


The custom patches may not be autopatched, due to being distributed as an archive or different patch level, so you need to define what to do with it in the prepare.
{|cellpadding="5" border="1" class="wikitable"
!ARCH
!Processor Type / CPU Selection / System Type
!Code Generation / Instruction Extensions
!Timer Frequency
!Preemption Model
!Bitness
|-
|s390x
|IBM zEnterprise 114 and 196
|IBM zBC12 and zEC12 (<code>-march=zEC12 -mtune=zEC12</code>)
|100 Hz
|No Forced Preemption (Server)
|64
|-
|ppc64le
|Server processors
|POWER8 (<code>-mcpu=power8</code>), AltiVec (<code>-Wa,-maltivec</code> to assembler or <code>-maltivec -mabi=altivec</code>), VSX
|100 HZ
|No Forced Preemption (Server)
|64
|-
|ppc
|
512x/52xx/6xx/7xx/74xx/82xx/83xx/86xx
* Apple PowerMac based machines
|AltiVec (<code>-Wa,-maltivec</code> to assembler or <code>-maltivec -mabi=altivec</code>) on >=74xx
|250 HZ
|No Forced Preemption (Server)
|32
|-
|x86_64
|Generic-x86-64
|(-mtune=generic ; SIMD assembly modules enabled based on simple compile test and/or presence of CPU flag)
|300 HZ
|Voluntary Kernel Preemption (Desktop)
|64
|-
|x86
|586/K5/5x86/6x86/6x86MX
|(-mtune=generic ; SIMD assembly modules enabled based on simple compile test and/or presence of CPU flag)
|300 HZ
|Voluntary Kernel Preemption (Desktop)
|32
|-
|armhf
|
* ARMv7 based platforms (Cortex-A, PJ4, Scorpion, Krait)
* Freescale i.MX family -- Cortex A (i.MX51, i.MX53, i.MX6 Quad/DualLite, i.MX6 SoloLite, i.MX6 SoloX, i.MX6 UltraLite, i.MX7 Dual)
* Qualcomm -- (MSM8X60, MSM8960, MSM8974)
* Allwinner SoCs -- (A10 (sun4i), A10s / A13 (sun5i), A31 (sun6i), A20 (sun7i), sun8i Family, (sun9i))
* ARM Ldt Versatile Express family --
|Either <code>-march=armv7-a</code> or <code>-march=armv5t -Wa,-march=armv7-a</code> based on a compile test. <code>-mfpu=vfp</code>
|100 Hz
|Voluntary Kernel Preemption (Desktop)
|32
|-
|aarch64
|
* Allwinner sunxi 64-bit SoC Family
* Broadcom BCM2835 family
* Marvell Berlin SoC Family
* ARMv8 based Samsung Exynos SoC family
* ARMv8 based Freescale Layerscape SoC family
* Hisilicon SoC Family
* Mediatek MT65xx & MT81xx ARMv8 SoC
* Marvell EBU SoC Family
* Qualcomm Platforms
* Rockchip Platforms
* AMD Seattle SoC Family
* Altera's Stratix 10 SoCFPGA Family
* NVIDIA Tegra SoC Family
* Spreadtrum SoC platform
* Cavium Inc. Thunder SoC Family
* ARMv8 software model (Versatile Express)
* AppliedMicro X-Gene SOC Family
* Xilinx ZynqMP Family
|
|300 HZ
|Voluntary Kernel Preemption (Desktop)
|64
|-
|}
If you do desktop multitasking, you may want to switch to Voluntary Kernel Preemption (Desktop) or Preemptible Kernel (Low-Latency Desktop) and up the Timer Frequency.  If you run a dedicated render farm node or a dedicated bitcoin miner use No Forced Preemption (Server) and decrease the Timer Frequency.


== Configuring kernel ==
Optimized modules (most are already compiled as modules):
* raid6 -- altivec, avx512, ssse3, avx2, mmx, sse, sse2, neon
* some operations of raid5 -- mmx (32 bit), sse (64 bit), avx
For Kernel API:
* 32-bit memcpy -- 3dnow
* 32-bit memory page clearing and copying -- sse (Athlon/K7 only), mmx
From x86/crypto, arm/crypto, powerpc/crypto:
* CAMELLIA -- avx2, avx, aes-ni
* CHACHA20 -- avx2, neon
* CAST5 -- avx
* CAST6 -- avx
* TWOFISH -- avx
* SERPENT -- avx2, avx, sse2
* SHA1 -- avx2, ssse3, neon, spe
* SHA2 -- avx2
* SHA256 -- ssse3, neon, spe
* SHA512 -- avx2, ssse3, neon
* POLY1305 -- avx2
* GHASH -- pclmulqdq (part of aes-ni), vmx (power8)
* AES -- aes-ni, neon, vmx (power8), spe
* CRC32 -- pclmulqdq, sse, neon, vmx (power8)
* CRCT10DIF -- pclmulqdq, sse, neon, vmx (power8)


Attempt to build the kernel first.  To do that, you do abuild -rK to install most of the dependencies.  If it complains about a dependency like elfutils-dev use -rKd.  Then, when it prompts for values for new found config options just hold enter till it starts compiling the kernel.  There should be two sets one for -vanilla and the other for the -virt.  Just Ctrl+C out of the compilation process after the second set so you can further customize the config.  Then you go into the src/build-NAME and edit the config file.  Copy the .config file overriding the config-NAME.ARCH in the srcdir.
=== Fast reboots with kexec ===
{{main|kexec}}


The alternative is to use the kernel configuration menu in the build-NAME folder, but before yo do that you need to <code>sudo apk add ncurses-dev</code>
If you want to reboot the kernel fast avoiding the POST test, you need {{ic|doas apk add {{pkg|kexec-tools}}}} and enable kexec in the kernel:


After you are done using the menu in the build-NAME folder by doing <code>make menuconfig</code>, you want to remove <code>ncurses-dev</code>.  When you are done, it will be stored in ''.config'' which you need to again override the config-NAME.ARCH file.
  Processor type and features
    [*] kexec system call


The options in the kernel config are typically defaults.  If your device is old, it may be set to n by default.
=== Hibernation to prevent data loss ===


=== For kernel package maintainer ===
  Power management and ACPI options
    [*] Hibernation (aka 'suspend to disk')


Each config-NAME.ARCH should be updated for all ARCH so that it doesn't disrupt the building processTo do this:
Hibernation should be used if you have a laptop.  You don't want the laptop to suddenly shut off resulting in data loss, you want it to save your work based on a percentage of battery life (this requires special script)When hibernation resumes, should lock and ask for credentials.  Depending on your needs, the hibernated image can be encrypted/decrypted which again requires additional customization to scripts.


  cd src/build-NAME
Hibernation with an unsanitized swap file is generally insecure because data and unlocked memory pages are swapped out in plaintext. To increase the security either disable swap or use an encrypted swap. The swap file/partition is typically used as the hibernation resume image.
  cp ../../config-NAME.ARCH .config
  make oldconfig
  (hold enter to accept all default options)
  make menuconfig (optional to tweak it for the particular arch)
  cp .config ../../config-NAME.ARCH


== Building ==
== Building ==


You should then do a abuild -r to attempt to build it.
Before building, you may want to remove as many modules as possible.  This will reduce the time to compile greatly.  Also, you may want to use [https://github.com/ccache/ccache/ ccache] for faster recompiles especially if you are searching for the minimal set of options or modules to use or include.
 
You should then do an <code>abuild -r</code> to attempt to build it.


== Installing ==
== Installing ==


To install it you do a <code>sudo apk add linux-NAME</code> where NAME is your custom kernel release name or vanilla if you used option B.
To install it you do a {{ic|doas apk add linux-NAME}} where NAME is your custom kernel name.
 
== Testing ==
 
Before you test, you should install the lts kernel too, using <code>apk add {{pkg|linux-lts}}</code>.  You may be missing a module and can't boot, so you use the other kernel as the fallback boot kernel.  Don't forget to update your bootloader configuration.
 
To test, first you should make a bootable Alpine USB image.  Then, when you have your rescue USB done, you <code>reboot</code> the computer.
 
To test it, you basically do trial and error.  Sometimes your config is missing something if you want to have a bare minimum setting.


== Bootloader ==
If you are curious about correctness testing, some kernel modules or components do preform self tests at the beginning of the boot process.  The tools may have test suites that you run with the make command.


You need to configure your bootloader to use the kernel. The naming scheme should be similar but with the tag. You should make sure that the _flavor name is attached for new kernel packages and do not override the existing vanilla kernel and the existing vanilla initramfs.
== See Also ==
* [https://wiki.archlinux.org/title/Kernel Archwiki Kernels]
* [https://wiki.gentoo.org/wiki/Kernel Gentoo Wiki Kernel]
* [https://wiki.gentoo.org/wiki/Kernel/Configuration Gentoo Wiki Kernel Configuration]


[[Category:Kernel]]
[[Category:Kernel]]

Latest revision as of 10:08, 25 September 2024

This material is work-in-progress ...

Do not follow instructions here until this notice is removed.
(Last edited by Gsora on 25 Sep 2024.)

This process of building a custom configured kernel assumes you are running on Alpine Linux utilizing abuild & aports.

But why?

You want to build a custom kernel to enable experimental hardware or features or outdated hardware, to reduce bloat further, to tune the kernel to the hardware.

The lts kernel for most Alpine ARCHs uses defaults to balance throughput at the expense of some responsiveness, and support for many devices. You can tweak the kernel for desktop use and low latency and responsiveness.

You should disable modules to increase security. By default, Alpine will install modules but not disable most of them. Disabling modules will reduce an DMA attack but not eliminate it completely. If you have a newer processor with VT-d, you can mitigate as long as you:

Leave CONFIG_INTEL_IOMMU_DEFAULT_ON=y or pass intel_iommu=on as a kernel parameter and disable kernel logging so the attacker doesn't gain DMAR address information through dmesg.[1] Also remove references to the kernel version to calculate the IOMMU addresses.[2]

To increase the security of the boot process, if you have a TPM, you could set CONFIG_INTEL_TXT=y (Enable Intel(R) Trusted Execution Technology (Intel(R) TXT)) (which is not enabled in the hardened kernel by default), then you would need the SINIT module (provided only by Intel)[3], a possibly compiled TrustedGrub2[4], trousers[5], tboot[6]. These packages are not in aports and it is unknown if these tools work on musl. It's not recommended for Edge. Also, there would be trigger packages to generate hashes for the kernel and the mkinitfs updates.

Setting up the Alpine Build System

First, you need to follow the steps in Setup your system and account for building packages. You also need to configure your /etc/apk/repositories so that they search locally for your apks. See Testing the package locally for details.

After setting up accounts and repos, change your shell's current working directory to aports that you just cloned.

$ cd aports

Working with aports

We will try using an existing lts kernel just tweaking the lts.ARCH.config file.

Switching to the proper release version

You need to switch to the proper branch that matches the release so that the kernel compiles against the dependencies properly.

Alpine version Remote branch
Edge master
3.17.0 3.17-stable

The following is required to get access to the APKBUILD released for that version of Alpine and which you will create a commit for.

If you are on 3.17 do:

$ git checkout -b 3.17-stable origin/3.17-stable

If you are on Edge do:

$ git checkout master

Creating your config

You can use linux-lts but what you should do is create a local branch by doing:

For Alpine Edge:

$ git checkout -b my-custom-kernel

For Alpine 3.17:

$ git checkout -b my-custom-kernel origin/3.17-stable

Doing it this way, you do less work in maintaining. All you need to do is keep master or 3.17-stable in sync[7][8] and merge any conflicts.

First switch to the branch by doing git checkout my-custom-kernel. Then, you need to navigate to the main/linux-lts folder where you should see a APKBUILD and some config- files. When you are done with your edits either by editing directly the APKBUILD and copying the lts.ARCH.config as .config in the linux-4.15 folder. You will then move the .config back overriding the lts.ARCH.config generated by make menuconfig (discussed below in the Configuring kernel section). After generating your config, you need to abuild checksum. Then, do git add APKBUILD lts.ARCH.config where ARCH is whatever architecture (x86, x86_64, ...) you use. Then, you need to do git commit APKBUILD config-NAME.ARCH -m "Enabled these options ...." for your customization the ARCHitecture of your system. You do this so that git can keep your code separate from Alpine's and so your changes float forward between kernel updates.

Adding custom patches

Custom patches should be added to sources=.

After you added the URL, you need to produce a checksum by doing abuild checksum.

The custom patches may not be autopatched, due to being distributed as an archive or different patch level, so you need to define what to do with it in the prepare().

Configuring kernel

Attempt to build the kernel first. To do that, you do abuild -rK to install most of the dependencies. If it complains about a dependency like elfutils-dev use -rKd. Then, when it prompts for values for new found config options just hold enter till it starts compiling the kernel. There should be two sets one for -lts and the other for the -virt. Just Ctrl+C out of the compilation process after the second set so you can further customize the config. Then you go into the src/linux-VER and edit the config file. Copy the .config file overriding the lts.ARCH.config in the srcdir.

The alternative is to use the kernel configuration menu in the build-NAME folder, but before yo do that you need to sudo apk add ncurses-dev

After you are done using the menu in the build-NAME folder by doing make menuconfig, you want to remove ncurses-dev. When you are done, it will be stored in .config which you need to again override the lts.ARCH.config file. When you are done updating the config-NAME.ARCH, you need to do abuild checksum.

The options in the kernel config are typically defaults. If your device is old, it may be set to n by default.

Vanilla targets and tuning

ARCH Processor Type / CPU Selection / System Type Code Generation / Instruction Extensions Timer Frequency Preemption Model Bitness
s390x IBM zEnterprise 114 and 196 IBM zBC12 and zEC12 (-march=zEC12 -mtune=zEC12) 100 Hz No Forced Preemption (Server) 64
ppc64le Server processors POWER8 (-mcpu=power8), AltiVec (-Wa,-maltivec to assembler or -maltivec -mabi=altivec), VSX 100 HZ No Forced Preemption (Server) 64
ppc

512x/52xx/6xx/7xx/74xx/82xx/83xx/86xx

  • Apple PowerMac based machines
AltiVec (-Wa,-maltivec to assembler or -maltivec -mabi=altivec) on >=74xx 250 HZ No Forced Preemption (Server) 32
x86_64 Generic-x86-64 (-mtune=generic ; SIMD assembly modules enabled based on simple compile test and/or presence of CPU flag) 300 HZ Voluntary Kernel Preemption (Desktop) 64
x86 586/K5/5x86/6x86/6x86MX (-mtune=generic ; SIMD assembly modules enabled based on simple compile test and/or presence of CPU flag) 300 HZ Voluntary Kernel Preemption (Desktop) 32
armhf
  • ARMv7 based platforms (Cortex-A, PJ4, Scorpion, Krait)
  • Freescale i.MX family -- Cortex A (i.MX51, i.MX53, i.MX6 Quad/DualLite, i.MX6 SoloLite, i.MX6 SoloX, i.MX6 UltraLite, i.MX7 Dual)
  • Qualcomm -- (MSM8X60, MSM8960, MSM8974)
  • Allwinner SoCs -- (A10 (sun4i), A10s / A13 (sun5i), A31 (sun6i), A20 (sun7i), sun8i Family, (sun9i))
  • ARM Ldt Versatile Express family --
Either -march=armv7-a or -march=armv5t -Wa,-march=armv7-a based on a compile test. -mfpu=vfp 100 Hz Voluntary Kernel Preemption (Desktop) 32
aarch64
  • Allwinner sunxi 64-bit SoC Family
  • Broadcom BCM2835 family
  • Marvell Berlin SoC Family
  • ARMv8 based Samsung Exynos SoC family
  • ARMv8 based Freescale Layerscape SoC family
  • Hisilicon SoC Family
  • Mediatek MT65xx & MT81xx ARMv8 SoC
  • Marvell EBU SoC Family
  • Qualcomm Platforms
  • Rockchip Platforms
  • AMD Seattle SoC Family
  • Altera's Stratix 10 SoCFPGA Family
  • NVIDIA Tegra SoC Family
  • Spreadtrum SoC platform
  • Cavium Inc. Thunder SoC Family
  • ARMv8 software model (Versatile Express)
  • AppliedMicro X-Gene SOC Family
  • Xilinx ZynqMP Family
300 HZ Voluntary Kernel Preemption (Desktop) 64

If you do desktop multitasking, you may want to switch to Voluntary Kernel Preemption (Desktop) or Preemptible Kernel (Low-Latency Desktop) and up the Timer Frequency. If you run a dedicated render farm node or a dedicated bitcoin miner use No Forced Preemption (Server) and decrease the Timer Frequency.

Optimized modules (most are already compiled as modules):

  • raid6 -- altivec, avx512, ssse3, avx2, mmx, sse, sse2, neon
  • some operations of raid5 -- mmx (32 bit), sse (64 bit), avx

For Kernel API:

  • 32-bit memcpy -- 3dnow
  • 32-bit memory page clearing and copying -- sse (Athlon/K7 only), mmx

From x86/crypto, arm/crypto, powerpc/crypto:

  • CAMELLIA -- avx2, avx, aes-ni
  • CHACHA20 -- avx2, neon
  • CAST5 -- avx
  • CAST6 -- avx
  • TWOFISH -- avx
  • SERPENT -- avx2, avx, sse2
  • SHA1 -- avx2, ssse3, neon, spe
  • SHA2 -- avx2
  • SHA256 -- ssse3, neon, spe
  • SHA512 -- avx2, ssse3, neon
  • POLY1305 -- avx2
  • GHASH -- pclmulqdq (part of aes-ni), vmx (power8)
  • AES -- aes-ni, neon, vmx (power8), spe
  • CRC32 -- pclmulqdq, sse, neon, vmx (power8)
  • CRCT10DIF -- pclmulqdq, sse, neon, vmx (power8)

Fast reboots with kexec

If you want to reboot the kernel fast avoiding the POST test, you need doas apk add kexec-tools and enable kexec in the kernel:

 Processor type and features
   [*] kexec system call

Hibernation to prevent data loss

 Power management and ACPI options
   [*] Hibernation (aka 'suspend to disk')

Hibernation should be used if you have a laptop. You don't want the laptop to suddenly shut off resulting in data loss, you want it to save your work based on a percentage of battery life (this requires special script). When hibernation resumes, should lock and ask for credentials. Depending on your needs, the hibernated image can be encrypted/decrypted which again requires additional customization to scripts.

Hibernation with an unsanitized swap file is generally insecure because data and unlocked memory pages are swapped out in plaintext. To increase the security either disable swap or use an encrypted swap. The swap file/partition is typically used as the hibernation resume image.

Building

Before building, you may want to remove as many modules as possible. This will reduce the time to compile greatly. Also, you may want to use ccache for faster recompiles especially if you are searching for the minimal set of options or modules to use or include.

You should then do an abuild -r to attempt to build it.

Installing

To install it you do a doas apk add linux-NAME where NAME is your custom kernel name.

Testing

Before you test, you should install the lts kernel too, using apk add linux-lts. You may be missing a module and can't boot, so you use the other kernel as the fallback boot kernel. Don't forget to update your bootloader configuration.

To test, first you should make a bootable Alpine USB image. Then, when you have your rescue USB done, you reboot the computer.

To test it, you basically do trial and error. Sometimes your config is missing something if you want to have a bare minimum setting.

If you are curious about correctness testing, some kernel modules or components do preform self tests at the beginning of the boot process. The tools may have test suites that you run with the make command.

See Also