kexec-tools/crashkernel-howto.txt
Tao Liu 6120984200 Update crashkernel-howto.txt
upstream: fedora
related:  bz2003832
conflict: none

commit 7435ecf3c4
Author: Kairui Song <kasong@redhat.com>
Date:   Wed Jul 21 14:05:25 2021 +0800

    Update crashkernel-howto.txt

    Fix some grammar issues.

    Signed-off-by: Kairui Song <kasong@redhat.com>

Signed-off-by: Tao Liu <ltao@redhat.com>
2021-12-08 09:01:11 +08:00

205 lines
8.1 KiB
Plaintext
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

Introduction
============
This document describes features the kexec-tools package provides for setting
and estimating the crashkernel value.
Kdump lives in a pre-reserved chunk of memory, and the size of the reserved
memory is specified by the `crashkernel=` kernel parameter. It's hard to
estimate an accurate `crashkernel=` value, so it's always recommended to test
kdump after you updated the `crashkernel=` value or changed the dump target.
Default crashkernel value
=========================
Latest kernel packages include a `crashkernel.default` file installed in kernel
modules folder, available as:
/usr/lib/modules/<kernel>/crashkernel.default
The content of the file will be taken as the default value of 'crashkernel=', or
take this file as a reference for setting crashkernel value manually.
New installed system
====================
Anaconda is the OS installer which sets all the kernel boot cmdline on a newly
installed system. If kdump is enabled during Anaconda installation, Anaconda
will use the `crashkernel.default` file as the default `crashkernel=` value on
the newly installed system.
Users can override the value during Anaconda installation manually.
Auto update of crashkernel boot parameter
=========================================
Following context in this section assumes all kernel packages have a
`crashkernel.default` file bundled, which is true for the latest official kernel
packages. For kexec-tools behavior with a kernel that doesn't have a
`crashkernel.default` file, please refer to the “Custom Kernel” section of this
doc.
When `crashkernel=` is using the default value, kexec-tools will need to update
the `crashkernel=` value of new installed kernels, since the default value may
change in new kernel packages.
kexec-tools does so by adding a kernel installation hook, which gets triggered
every time a new kernel is installed, so kexec-tools can do necessary checks and
updates.
Supported Bootloaders
---------------------
This auto update only works with GRUB2 and ZIPL, as kexec-tools heavily depends
on `grubby`. If other boot loaders are used, the user will have to update the
`crashkernel=` value manually.
Updating kernel package
-----------------------
When a new version of package kernel is released in the official repository, the
package will always come with a `crashkernel.default` file bundled. Kexec-tools
will act with following rules:
If current boot kernel is using the default `crashkernel=` boot param value from
its `crashkernel.default` file, then kexec-tools will update new installed
kernels `crashkernel=` boot param using the value from the new installed
kernels `crashkernel.default` file. This ensures `crashkernel=` is always using
the latest default value.
If current boot kernel's `crashkernel=` value is set to a non-default value, the
new installed kernel simply inherits this value.
On systems using GRUB2 as the bootloader, each kernel has its own boot entry,
making it possible to set different `crashkernel=` boot param values for
different kernels. So kexec-tools wont touch any already installed kernel's
boot param, only new installed kernel's `crashkernel=` boot param value will be
updated.
But some utilities like `grub2-mkconfig` and `grubby` can override all boot
entry's boot params with the boot params value from the GRUB config file
`/etc/defaults/grub`, so kexec-tools will also update the GRUB config file in
case old `crashkernel=` value overrides new installed kernels boot param.
Downgrading kernel package
--------------------------
When upgrading a kernel package, kexec-tools may update the `crashkernel=` value
in GRUB2 config file to the new value. So when downgrading the kernel package,
kexec-tools will also try to revert that update by setting GRUB2 config files
`crashkernel=` value back to the default value in the older kernel package. This
will only occur when the GRUB2 config file is using the default `crashkernel=`
value.
Custom kernel
=============
To make auto crashkernel update more robust, kexec-tools will try to keep
tracking the default 'crashkernel=` value with kernels that dont have a
`crashkernel.default` file, such kernels are referred to as “custom kernel” in
this doc. This is only a best-effort support to make it easier debugging and
testing the system.
When installing a custom kernel that doesnt have a `crashkernel.default` file,
the `crashkernel=` value will be simply inherited from the current boot kernel.
When installing a new official kernel package and current boot kernel is a
custom kernel, since the boot kernel doesnt have a `crashkernel.default` file,
kexec-tools will iterate installed kernels and check if the boot kernel
inherited the default value from any other existing kernels
`crashkernel.default` file. If a matching `crashkernel.default` file is found,
kexec-tools will update the new installed kernel `crashkernel=` boot param using
the value from the new installed kernels `crashkernel.default` file, ensures
the auto crashkernel value update wont break over one or two custom kernel
installations.
It is possible that the auto crashkernel value update will fail when custom
kernels are used. One example is a custom kernel inheriting the default
`crashkernel=` value from an older official kernel package, but later that
kernel package is uninstalled. So when booted with the custom kernel,
kexec-tools can't determine if the boot kernel is inheriting a default
`crashkernel=` value from any official build. In such a case, please refer to
the "Reset crashkernel to default value" section of this doc.
Reset crashkernel to default value
==================================
kexec-tools only perform the auto update of crashkernel value when it can
confirm the boot kernel's crashkernel value is using its corresponding default
value or inherited from any installed kernel.
kexec-tools may fail to determine if the boot kernel is using default
crashkernel value in some use cases:
- kexec-tools package is absent during a kernel package upgrade, and the new
kernel packages `crashkernel.default` value has changed.
- Custom kernel is used and the kernel it inherits `crashkernel=` value from is
uninstalled.
So it's recommended to reset the crashkernel value if users have uninstalled
kexec-tools or using a custom kernel.
Reset using kdumpctl
--------------------
To make it easier to reset the `crashkernel=` kernel cmdline to this default
value properly, `kdumpctl` also provides a sub-command:
`kdumpctl reset-crashkernel [<kernel version>]`
This command will read from the `crashkernel.default` file and reset
bootloader's kernel cmdline to the default value. It will also update bootloader
config if the bootloader has a standalone config file. User will have to reboot
the machine after this command to make it take effect.
Reset manually
--------------
To reset the crashkernel value manually, it's recommended to use utils like
`grubby`. A one liner script for resetting `crashkernel=` value of all installed
kernels to current boot kernel's crashkernel.default` is:
grubby --update-kernel ALL --args "$(cat /usr/lib/modules/$(uname -r)/crashkernel.default)"
Estimate crashkernel
====================
The best way to estimate a usable crashkernel value is by testing kdump
manually. And you can set crashkernel to a large value, then adjust the
crashkernel value to an acceptable value gradually.
`kdumpctl` also provides a sub-command for doing rough estimating without
triggering kdump:
`kdumpctl estimate`
The output will be like this:
```
Encrypted kdump target requires extra memory, assuming using the keyslot with minimun memory requirement
Reserved crashkernel: 256M
Recommended crashkernel: 655M
Kernel image size: 47M
Kernel modules size: 12M
Initramfs size: 19M
Runtime reservation: 64M
LUKS required size: 512M
Large modules:
xfs: 1892352
nouveau: 2318336
WARNING: Current crashkernel size is lower than recommended size 655M.
```
It will generate a summary report about the estimated memory consumption
of each component of kdump. The value may not be accurate enough, but
would be a good start for finding a suitable crashkernel value.