Boot parameters are Linux kernel parameters which are generally used to make sure that peripherals are dealt with properly. For the most part, the kernel can auto-detect information about your peripherals. However, in some cases you'll have to help the kernel a bit.
If this is the first time you're booting the system, try the default boot parameters (i.e., don't try setting parameters) and see if it works correctly. It probably will. If not, you can reboot later and look for any special parameters that inform the system about your hardware.
Information on many boot parameters can be found in the Linux BootPrompt HOWTO, including tips for obscure hardware. This section contains only a sketch of the most salient parameters. Some common gotchas are included below in Section 5.3, “Troubleshooting the Install Process”.
When the kernel boots, a message
Memory:avail
k/total
k available
should be emitted early in the process.
total
should match the total amount of RAM,
in kilobytes. If this doesn't match the actual amount of RAM you have
installed, you need to use the
mem=
parameter,
where ram
ram
is set to the amount of memory,
suffixed with ``k'' for kilobytes, or ``m'' for megabytes. For
example, both mem=65536k
and
mem=64m
mean 64MB of RAM.
If you are booting with a serial console, generally the kernel will
autodetect
this.
If you have a videocard (framebuffer) and a keyboard also attached to
the computer which you wish to boot via serial console, you may have
to pass the
console=
argument to the kernel, where device
device
is
your serial device, which is usually something like
ttyS0
.
The installation system recognizes a few additional boot parameters[4] which may be useful.
This parameter sets the lowest priority of messages to be displayed.
The default installation uses debconf/priority=high
.
This means that both high and critical priority messages are shown, but medium,
and low priority messages are skipped.
If problems are encountered, the installer adjusts the priority as needed.
If you add debconf/priority=medium
as boot parameter, you
will be shown the installation menu and gain more control over the installation.
When debconf/priority=low
is used, all messages are shown
(this is equivalent to the expert boot method).
With debconf/priority=critical
, the installation system
will display only critical messages and try to do the right thing without fuss.
This boot parameter controls the type of user interface used for the installer. The current possible parameter settings are:
DEBIAN_FRONTEND=noninteractive
DEBIAN_FRONTEND=text
DEBIAN_FRONTEND=newt
DEBIAN_FRONTEND=slang
DEBIAN_FRONTEND=ncurses
DEBIAN_FRONTEND=bogl
DEBIAN_FRONTEND=gtk
DEBIAN_FRONTEND=corba
The default front end is DEBIAN_FRONTEND=newt
.
DEBIAN_FRONTEND=text
may be preferable for
serial console installs. Generally only the
newt
frontend is available on default install
media, so this is not very useful right now.
Passing this boot parameter will cause the boot to be more verbosely logged.
BOOT_DEBUG=0
This is the default.
BOOT_DEBUG=1
More verbose than usual.
BOOT_DEBUG=2
Lots of debugging information.
BOOT_DEBUG=3
Shells are run at various points in the boot process to allow detailed debugging. Exit the shell to continue the boot.
The value of the parameter is the path to the device to load the
Debian installer from. For example,
INSTALL_MEDIA_DEV=/dev/floppy/0
The boot floppy, which normally scans all floppies and USB storage devices it can to find the root floppy, can be overridden by this parameter to only look at the one device.
Some architectures use the kernel framebuffer to offer installation in
a number of languages. If framebuffer causes a problem on your system
you can disable the feature by the parameter
debian-installer/framebuffer=false
. Problem
symptoms are error messages about bterm or bogl, a blank screen, or
a freeze within a few minutes after starting the install.
The video=vga16:off
argument may also be used
to disable the framebuffer. Such problems have been reported on a Dell
Inspiron with Mobile Radeon card.
Set to false
to prevent probing for USB on
boot, if that causes problems.
By default, the debian-installer
automatically probes for network configuration
via DHCP. If the probe succeeds, you won't have a chance to review and
change the obtained settings. You can get to the manual network setup
only in case the DHCP probe fails.
If you have a DHCP server on your local network, but want to avoid it
because e.g. it gives wrong answers, you can use the parameter
netcfg/disable_dhcp=true
to prevent configuring
the network with DHCP and to enter the information manually.
Set to false
to prevent starting PCMCIA
services, if that causes problems. Some laptops are well known for
this misbehavior.
Specify the url to a preconfiguration file to download and use in automating the install. See Section 4.6, “Automatic Installation”.
Specify the url to a preconfiguration file to load to automating the install. See Section 4.6, “Automatic Installation”.
If you are using a 2.2.x kernel, you may need to set
ramdisk_size=13000
.
[4] Note that the kernel accepts a maximum of 8 command line options and 8 environment options (including any options added by default for the installer). If these numbers are exceeded, 2.4 kernels will drop any excess options and 2.6 kernels will panic.