Microcode
Processor manufacturers release stability and security updates to the processor microcode. These updates provide bug fixes that can be critical to the stability of your system. Without them, you may experience spurious crashes or unexpected system halts that can be difficult to track down.
All users with an AMD or Intel CPU should install the microcode updates to ensure system stability.
Microcode updates are usually shipped with the motherboard's firmware and applied during firmware initialization. Since OEMs might not release firmware updates in a timely fashion and old systems do not get new firmware updates at all, the ability to apply CPU microcode updates during boot was added to the Linux kernel. The Linux microcode loader supports three loading methods:
- Early loading updates the microcode very early during boot, before the initramfs stage, so it is the preferred method. This is mandatory for CPUs with severe hardware bugs, like the Intel Haswell and Broadwell processor families.
- Late loading updates the microcode after booting which could be too late since the CPU might have already tried to use a bugged instruction set. Even if already using early loading, late loading can still be used to apply a newer microcode update without needing to reboot.
- Built-in microcode can be compiled into the kernel that is then applied by the early loader.
Early loading
Installation
Depending on the processor, install the following package:
- amd-ucode for AMD processors,
- intel-ucode for Intel processors.
Microcode must be loaded by the boot loader. Because of the wide variability in users' early-boot configuration, microcode updates may not be triggered automatically by Arch's default configuration. Many AUR kernels have followed the path of the official Arch kernels in this regard.
These updates must be enabled by adding /boot/amd-ucode.img
or /boot/intel-ucode.img
as the first initrd in the bootloader config file. This is before the normal initrd file. See below for instructions for common bootloaders.
In the following sections replace cpu_manufacturer
with your CPU manufacturer, i.e. amd
or intel
.
initrd
to the boot loader configuration. Their order does not matter as long as they both are specified before the initramfs image.Configuration
Enabling early microcode loading in custom kernels
In order for early loading to work in custom kernels, "CPU microcode loading support" needs to be compiled into the kernel, not compiled as a module. This will enable the "Early load microcode" prompt which should be set to Y
.
CONFIG_BLK_DEV_INITRD=Y CONFIG_MICROCODE=y CONFIG_MICROCODE_INTEL=Y CONFIG_MICROCODE_AMD=y
GRUB
grub-mkconfig will automatically detect the microcode update and configure GRUB appropriately. After installing the microcode package, regenerate the GRUB config to activate loading the microcode update by running:
# grub-mkconfig -o /boot/grub/grub.cfg
Alternatively, users that manage their GRUB config file manually can add /boot/cpu_manufacturer-ucode.img
(or /cpu_manufacturer-ucode.img
if /boot
is a separate partition) as follows:
/boot/grub/grub.cfg
... echo 'Loading initial ramdisk' initrd /boot/cpu_manufacturer-ucode.img /boot/initramfs-linux.img ...
Repeat it for each menu entry.
systemd-boot
Use the initrd
option to load the microcode, before the initial ramdisk, as follows:
/boot/loader/entries/entry.conf
title Arch Linux linux /vmlinuz-linux initrd /cpu_manufacturer-ucode.img initrd /initramfs-linux.img ...
The latest microcode cpu_manufacturer-ucode.img
must be available at boot time in your EFI system partition (ESP). The ESP must be mounted as /boot
in order to have the microcode updated every time amd-ucode or intel-ucode is updated. Otherwise, copy /boot/cpu_manufacturer-ucode.img
to your ESP at every update of the microcode package.
Unified kernel images
See Unified kernel image#Manually.
EFISTUB
Append two initrd=
options:
initrd=\cpu_manufacturer-ucode.img initrd=\initramfs-linux.img
rEFInd
Edit boot options in /boot/refind_linux.conf
and add initrd=boot\cpu_manufacturer-ucode.img
(or initrd=cpu_manufacturer-ucode.img
if /boot
is a separate partition) as the first initramfs. For example:
"Boot using default options" "root=PARTUUID=XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX rw add_efi_memmap initrd=boot\cpu_manufacturer-ucode.img initrd=boot\initramfs-%v.img"
initrd
kernel parameter will need to follow the steps described in rEFInd#Configuration to enable passing of multiple initrd
parameters.Users employing manual stanzas in esp/EFI/refind/refind.conf
to define the kernels should simply add initrd=boot\cpu_manufacturer-ucode.img
(or initrd=cpu_manufacturer-ucode.img
if /boot
is a separate partition) as required to the options line, and not in the main part of the stanza. E.g.:
options "root=PARTUUID=XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX rw add_efi_memmap initrd=boot\cpu_manufacturer-ucode.img"
Syslinux
cpu_manufacturer-ucode.img
and initramfs-linux.img
initrd files. The INITRD
line must be exactly as illustrated below.Multiple initrd's can be separated by commas in /boot/syslinux/syslinux.cfg
:
LABEL arch MENU LABEL Arch Linux LINUX ../vmlinuz-linux INITRD ../cpu_manufacturer-ucode.img,../initramfs-linux.img ...
LILO
LILO and potentially other old bootloaders do not support multiple initrd images. In that case, cpu_manufacturer-ucode.img
and initramfs-linux.img
will have to be merged into one image.
initramfs-linux.img
must be placed after cpu_manufacturer-ucode.img
in the resulting image.To merge both images into one image named initramfs-merged.img
, the following command can be used:
# cat /boot/cpu_manufacturer-ucode.img /boot/initramfs-linux.img > /boot/initramfs-merged.img
Now, edit /etc/lilo.conf
to load the new image.
... initrd=/boot/initramfs-merged.img ...
And run lilo
as root:
# lilo
Late loading
Late loading of microcode updates happens after the system has booted. It uses files in /usr/lib/firmware/amd-ucode/
and /usr/lib/firmware/intel-ucode/
.
For AMD processors the microcode update files are provided by linux-firmware.
For Intel processors no package provides the microcode update files (FS#59841). To use late loading you need to manually extract intel-ucode/
from Intel's provided archive.
Enabling late microcode updates
Unlike early loading, late loading of microcode updates on Arch Linux are enabled by default using /usr/lib/tmpfiles.d/linux-firmware.conf
. After boot the file gets parsed by systemd-tmpfiles-setup.service(8) and CPU microcode gets updated.
To manually reload the microcode, e.g. after updating the microcode files in /usr/lib/firmware/amd-ucode/
or /usr/lib/firmware/intel-ucode/
, run:
# echo 1 > /sys/devices/system/cpu/microcode/reload
This allows to apply newer microcode updates without rebooting the system. For linux-firmware you can automate it with a pacman hook, e.g.:
/etc/pacman.d/hooks/microcode_reload.hook
[Trigger] Operation = Upgrade Type = Path Target = usr/lib/firmware/amd-ucode/* [Action] Description = Applying CPU microcode updates... When = PostTransaction Depends = sh Exec = /bin/sh -c 'echo 1 > /sys/devices/system/cpu/microcode/reload'
Disabling late microcode updates
For AMD systems the CPU microcode will get updated even if amd-ucode is not installed since the files in /usr/lib/firmware/amd-ucode/
are provided by the linux-firmware package (FS#59840).
For virtual machines and containers (FS#46591) it is not possible to update the CPU microcode, so you may want to disable microcode updates. To do so, you must override the tmpfile /usr/lib/tmpfiles.d/linux-firmware.conf
that is provided by linux-firmware. It can be done by creating a file with the same filename in /etc/tmpfiles.d/
:
# ln -s /dev/null /etc/tmpfiles.d/linux-firmware.conf
Microcode built in the initramfs
If the initramfs generator you use already prepends the microcode cpio into the initramfs, then #Early loading and #Late loading are not necessary. dracut, for example, already does this by default; see dracut.conf(5) § DESCRIPTION.
Verifying that microcode got updated on boot
Check the kernel messages with journalctl to see if the microcode has been updated:
# journalctl -k --grep=microcode
On Intel systems one should see something similar to the following on every boot, indicating that microcode is updated very early on:
microcode: microcode updated early to revision 0xde, date = 2020-05-18 microcode: sig=0x806ec, pf=0x80, revision=0xde microcode: Microcode Update Driver: v2.2.
It is entirely possible, particularly with newer hardware, that there is no microcode update for the CPU. In that case, the output may look like this:
microcode: sig=0x806ec, pf=0x80, revision=0xde microcode: Microcode Update Driver: v2.2.
On AMD systems using early loading the output would look something like this:
microcode: microcode updated early to new patch_level=0x0700010f microcode: CPU0: patch_level=0x0700010f microcode: CPU1: patch_level=0x0700010f microcode: CPU2: patch_level=0x0700010f microcode: CPU3: patch_level=0x0700010f microcode: Microcode Update Driver: v2.2.
On AMD systems using late loading the output will show the version of the old microcode before reloading the microcode and the new one once it is reloaded. It would look something like this:
microcode: CPU0: patch_level=0x0700010b microcode: CPU1: patch_level=0x0700010b microcode: CPU2: patch_level=0x0700010b microcode: CPU3: patch_level=0x0700010b microcode: Microcode Update Driver: v2.2. microcode: CPU2: new patch_level=0x0700010f microcode: CPU0: new patch_level=0x0700010f microcode: CPU1: new patch_level=0x0700010f microcode: CPU3: new patch_level=0x0700010f x86/CPU: CPU features have changed after loading microcode, but might not take effect.
Which CPUs accept microcode updates
Users may consult either Intel or AMD at the following links to see if a particular model is supported:
Detecting available microcode update
It is possible to find out if the intel-ucode.img
contains a microcode image for the running CPU with iucode-tool.
- Install intel-ucode (changing initrd is not required for detection)
- Install iucode-tool
- Load the
cpuid
kernel module:# modprobe cpuid
- Extract microcode image and search it for your cpuid:
# bsdtar -Oxf /boot/intel-ucode.img | iucode_tool -tb -lS -
- If an update is available, it should show up below selected microcodes
- The microcode might already be in your vendor bios and not show up loading in dmesg. Compare to the current microcode running
grep microcode /proc/cpuinfo