The main purpose of this program is to load the system kernel.
As described in boot_socppc(8), this program is loaded by the firmware and provides a convenient way to load the kernel. This program acts as an enhanced boot monitor for socppc systems, providing a common interface for the kernel to start from.
Basic operations include:
- Loading kernels from hard disk.
- Loading kernels compressed by gzip(1).
- Providing an interactive command line.
The sequence of its operation is as follows: initialization,
parsing the configuration file, then an interactive command line. While at
the command line you have 5 seconds to type any commands, if needed. If time
expires, the kernel will be loaded according to the current variable
settings (see the
set command). Each time a kernel
load fails, the timeout is increased by one second. The sequence of
boot operations is as follows:
- If the file /etc/boot.conf exists on the
filesystem in slice ‘a’ on the first disk drive (wd0), open
and parse it. Lines beginning with the ‘#’ character, as
well as whitespace at the beginning of lines, are ignored. The file may
contain any commands
bootaccepts at the interactive prompt. Though default settings usually suffice, they can be changed here.
- The header line
>> OpenBSD/socppc BOOT [x.xx]
is displayed to the active console, where x.xx is the version number of the
bootprogram, followed by the
prompt, which means you are in interactive mode and may enter commands. If you do not,
bootwill proceed to load the kernel with the current parameters after the timeout period has expired.
boot attempts to load the
kernel executable /bsd. If it fails to find the
kernel and no alternative kernel image has been specified, the system will
be unable to boot.
The following commands are accepted at the
- boot [[device:]image]
- Boots the specified kernel image with any options given. If
device or image are omitted,
bootvariables will be used.
The only bootable devices, at the moment, are IDE devices connected to the internal controller; they are detected as ‘wd’ devices. Therefore, to boot kernel /bsd from slice ‘a’ on the first hard drive, specify “boot wd0a:/bsd”.
- Causes the kernel to ask for the
rootdevice to use.
- Causes the kernel to go into boot_config(8) before performing autoconf(4) procedures.
- Causes the kernel to drop into ddb(4) at the earliest convenient point.
- Causes the kernel to boot single-user.
- echo [args]
- Displays args on the console device.
- Prints a list of available commands.
- ls [directory]
- Prints contents of the specified directory in long format including: attributes and file type, owner, group, size, filename.
- Reboots the machine by initiating a warm boot procedure.
- set [varname [value]]
- If invoked without arguments, prints a list of variables and their values.
If only varname is specified, displays contents of
that variable. If varname and
value are both specified, sets that variable to the
given value. Variables include:
- Address at which to load the kernel.
- Debug flag if
bootwas compiled with DEBUG defined.
- Boot device name (e.g.,
- Options to pass to the loaded kernel.
- File name containing the kernel image.
- Number of seconds boot will wait for human intervention before booting the default kernel image.
- Displays system time and date.
- system bootstrap
- system bootstrap's startup file
- kernel image
- kernel image for installation/recovery
Boot the default kernel:
Remove the 5 second pause at boot-time permanently, causing
boot to load the kernel immediately without
# echo "boot" > /etc/boot.conf
Boot the kernel named /bsd from the second
hard disk in “User Kernel Configuration” mode (see
boot_config(8)). This mechanism allows for the explicit
enabling and disabling of devices during the current boot sequence, as well
as the modification of device parameters. Once booted, such changes can be
made permanent by using
boot> boot wd1a:/bsd -c
gzip(1), autoconf(4), ddb(4), boot_config(8), boot_socppc(8), fdisk(8), reboot(8)
This program was written by Michael Shalayeff for OpenBSD 2.1 on the i386 platform, and was later ported to the socppc platform for OpenBSD 4.4.