A kernel panic occurs when the Linux kernel enters an unrecoverable failure state. The state typically originates from buggy hardware drivers resulting in the machine being deadlocked, non-responsive, and requiring a reboot. Just prior to deadlock, a diagnostic message is generated, consisting of: the machine state when the failure ocurred, a call trace leading to the kernel function that recognized the failure, and a listing of currently loaded modules. Thankfully, kernel panics don't happen very often using mainline versions of the kernel--such as those supplied by the official repositories--but when they do happen, you need to know how to deal with them.
oops=panicat boot or write
/proc/sys/kernel/panic_on_oopsto force a recoverable oops to issue a panic instead. This is advisable is you are concerned about the small chance of system instability resulting from an oops recovery which may make future errors difficult to diagnose.
Option 2: Reinstall kernel
Reinstalling the kernel is probably the best bet when no other major system modifications have taken place recently.
Start from the installation CD
The first step is booting the installation CD. Once booted, you are presented with an automatically logged-in virtual console as the root user.
Mount your partitions
When booted, you are in a minimal but functional live GNU/Linux environment with some basic tools.
Now, you have to mount your normal root disk (or partition) to
# mount /dev/sdXY /mnt
If you are using legacy IDE drives, then use the command:
# mount /dev/hdXY /mnt
If you use a separate boot partition, do not forget to mount it with:
# mount /dev/sdXZ /mnt/boot
Gather your files for later troubleshooting
This is a good point to stop and gather your information onto another drive or partition so that it can be analyzed and/or emailed for outside viewing before the files change again. Simply create a separate directory on your main partition or mount a USB drive to contain the files. Then you may copy any files you will need to keep unchanged during the next boot with your new kernel.
Chroot to your normal root
Now, you will have to chroot to the partition mounted in
/mnt. Newer kernels use an initial ramdisk to set up the kernel environment: when you reinstall a kernel, that initial ramdisk will be regenerated with mkinitcpio. One of mkinitcpio's features is that it does automatic detection to find out what kernel modules are required for starting up your computer. For this autodetection to work,
/proc need to mounted in your chroot; make sure to read Change root.
To chroot to your normal root mounted at
/mnt, run this command:
# arch-chroot /mnt /bin/bash
If you do not want to use the Bash shell, remove
/bin/bash from the
Roll back to previous kernel version
If you keep your downloaded pacman packages, you now can easily roll back. If you did not keep them, you have to find a way[broken link: invalid section] to get a previous kernel version on your system now.
Let us suppose you kept the previous versions. We will now install the last working one.
First, you need to get the kernel details:
# find /var/cache/pacman/pkg -name 'linux-4*'
Now, use the kernel details in the command below.
# pacman -U /var/cache/pacman/pkg/linux-4.xx-x.pkg.tar.xz
(Of course, make sure that you adapt this line to your own kernel version. You can find the ones you still have in your cache by examining the directory above.)
Now is the time to reboot and see if the system modifications have stopped the panic. If reverting to an older kernel works, do not forget to check the arch-newspage to check what went wrong with the kernel build. If there is no mention of the problem there, then go to the bug reporting area and search for it there. If you still do not find it, open a new bug report and attach those files you saved during the troubleshooting step above.