Chapter 4. Configuring kernel command-line parameters
With kernel command-line parameters, you can change the behavior of certain aspects of the Red Hat Enterprise Linux kernel at boot time. As a system administrator, you have full control over what options get set at boot. Certain kernel behaviors can only be set at boot time, so understanding how to make these changes is a key administration skill.
Changing the behavior of the system by modifying kernel command-line parameters may have negative effects on your system. Always test changes prior to deploying them in production. For further guidance, contact Red Hat Support.
4.1. What are kernel command-line parameters
With kernel command-line parameters, you can overwrite default values and set specific hardware settings. At boot time, you can configure the following features:
- The Red Hat Enterprise Linux kernel
- The initial RAM disk
- The user space features
By default, the kernel command-line parameters for systems using the GRUB boot loader are defined in the kernelopts
variable of the /boot/grub2/grubenv
file for each kernel boot entry.
For IBM Z, the kernel command-line parameters are stored in the boot entry configuration file because the zipl
boot loader does not support environment variables. Thus, the kernelopts
environment variable cannot be used.
You can manipulate boot loader configuration files by using the grubby
utility. With grubby
, you can perform these actions:
- Change the default boot entry.
- Add or remove arguments from a GRUB menu entry.
Additional resources
-
kernel-command-line(7)
,bootparam(7)
anddracut.cmdline(7)
manual pages - How to install and boot custom kernels in Red Hat Enterprise Linux 8
-
The
grubby(8)
manual page
4.2. Understanding boot entries
A boot entry is a collection of options which are stored in a configuration file and tied to a particular kernel version. In practice, you have at least as many boot entries as your system has installed kernels. The boot entry configuration file is located in the /boot/loader/entries/
directory and can look like this:
6f9cc9cb7d7845d49698c9537337cedc-4.18.0-5.el8.x86_64.conf
The file name above consists of a machine ID stored in the /etc/machine-id
file, and a kernel version.
The boot entry configuration file contains information about the kernel version, the initial ramdisk image, and the kernelopts
environment variable, which contains the kernel command-line parameters. The example contents of a boot entry config can be seen below:
title Red Hat Enterprise Linux (4.18.0-74.el8.x86_64) 8.0 (Ootpa) version 4.18.0-74.el8.x86_64 linux /vmlinuz-4.18.0-74.el8.x86_64 initrd /initramfs-4.18.0-74.el8.x86_64.img $tuned_initrd options $kernelopts $tuned_params id rhel-20190227183418-4.18.0-74.el8.x86_64 grub_users $grub_users grub_arg --unrestricted grub_class kernel
The kernelopts
environment variable is defined in the /boot/grub2/grubenv
file.
Additional resources
4.3. Changing kernel command-line parameters for all boot entries
Change kernel command-line parameters for all boot entries on your system.
Prerequisites
-
Verify that the
grubby
utility is installed on your system. -
Verify that the
zipl
utility is installed on your IBM Z system.
Procedure
To add a parameter:
# grubby --update-kernel=ALL --args="<NEW_PARAMETER>"
For systems that use the GRUB boot loader, the command updates the
/boot/grub2/grubenv
file by adding a new kernel parameter to thekernelopts
variable in that file.On IBM Z, update the boot menu:
# zipl
To remove a parameter:
# grubby --update-kernel=ALL --remove-args="<PARAMETER_TO_REMOVE>"
On IBM Z, update the boot menu:
# zipl
Newly installed kernels inherit the kernel command-line parameters from your previously configured kernels.
Additional resources
- What are kernel command-line parameters
-
grubby(8)
andzipl(8)
manual pages - grubby tool
4.4. Changing kernel command-line parameters for a single boot entry
Make changes in kernel command-line parameters for a single boot entry on your system.
Prerequisites
-
Verify that the
grubby
andzipl
utilities are installed on your system.
Procedure
To add a parameter:
# grubby --update-kernel=/boot/vmlinuz-$(uname -r) --args="<NEW_PARAMETER>"
On IBM Z, update the boot menu:
# zipl
To remove a parameter:
# grubby --update-kernel=/boot/vmlinuz-$(uname -r) --remove-args="<PARAMETER_TO_REMOVE>"
On IBM Z, update the boot menu:
# zipl
On systems that use the grub.cfg
file, there is, by default, the options
parameter for each kernel boot entry, which is set to the kernelopts
variable. This variable is defined in the /boot/grub2/grubenv
configuration file.
On GRUB2 systems:
-
If the kernel command-line parameters are modified for all boot entries, the
grubby
utility updates thekernelopts
variable in the/boot/grub2/grubenv
file. -
If kernel command-line parameters are modified for a single boot entry, the
kernelopts
variable is expanded, the kernel parameters are modified, and the resulting value is stored in the respective boot entry’s/boot/loader/entries/<RELEVANT_KERNEL_BOOT_ENTRY.conf>
file.
On zIPL systems:
-
grubby
modifies and stores the kernel command-line parameters of an individual kernel boot entry in the/boot/loader/entries/<ENTRY>.conf
file.
Additional resources
- What are kernel command-line parameters
-
grubby(8)
andzipl(8)
manual pages - grubby tool
4.5. Changing kernel command-line parameters temporarily at boot time
Make temporary changes to a Kernel Menu Entry by changing the kernel parameters only during a single boot process.
This procedure applies only for a single boot and does not persistently make the changes.
Procedure
- Boot into the GRUB 2 boot menu.
- Select the kernel you want to start.
- Press the e key to edit the kernel parameters.
-
Find the kernel command line by moving the cursor down. The kernel command line starts with
linux
on 64-Bit IBM Power Series and x86-64 BIOS-based systems, orlinuxefi
on UEFI systems. Move the cursor to the end of the line.
NotePress Ctrl+a to jump to the start of the line and Ctrl+e to jump to the end of the line. On some systems, Home and End keys might also work.
Edit the kernel parameters as required. For example, to run the system in emergency mode, add the
emergency
parameter at the end of thelinux
line:linux ($root)/vmlinuz-4.18.0-348.12.2.el8_5.x86_64 root=/dev/mapper/rhel-root ro crashkernel=auto resume=/dev/mapper/rhel-swap rd.lvm.lv=rhel/root rd.lvm.lv=rhel/swap rhgb quiet emergency
To enable the system messages, remove the
rhgb
andquiet
parameters.- Press Ctrl+x to boot with the selected kernel and the modified command line parameters.
If you press the Esc key to leave command line editing, it will drop all the user made changes.
4.6. Configuring GRUB settings to enable serial console connection
The serial console is beneficial when you need to connect to a headless server or an embedded system and the network is down. Or when you need to avoid security rules and obtain login access on a different system.
You need to configure some default GRUB settings to use the serial console connection.
Prerequisites
- You have root permissions.
Procedure
Add the following two lines to the
/etc/default/grub
file:GRUB_TERMINAL="serial" GRUB_SERIAL_COMMAND="serial --speed=9600 --unit=0 --word=8 --parity=no --stop=1"
The first line disables the graphical terminal. The
GRUB_TERMINAL
key overrides values ofGRUB_TERMINAL_INPUT
andGRUB_TERMINAL_OUTPUT
keys.The second line adjusts the baud rate (
--speed
), parity and other values to fit your environment and hardware. Note that a much higher baud rate, for example 115200, is preferable for tasks such as following log files.Update the GRUB configuration file.
On BIOS-based machines:
# grub2-mkconfig -o /boot/grub2/grub.cfg
On UEFI-based machines:
# grub2-mkconfig -o /boot/efi/EFI/redhat/grub.cfg
- Reboot the system for the changes to take effect.