.\" $OpenBSD: boot.8,v 1.10 2007/05/31 19:20:02 jmc Exp $ .\" .\" Copyright (c) 1997-2001 Michael Shalayeff .\" All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" .\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR .\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES .\" OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. .\" IN NO EVENT SHALL THE AUTHOR OR HIS RELATIVES BE LIABLE FOR ANY DIRECT, .\" INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES .\" (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR .\" SERVICES; LOSS OF MIND, USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) .\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, .\" STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING .\" IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF .\" THE POSSIBILITY OF SUCH DAMAGE. .\" .\" .Dd $Mdocdate: May 31 2007 $ .Dt BOOT 8 amd64 .Os .Sh NAME .Nm boot , .Nm boot.conf .Nd amd64-specific second-stage bootstrap .Sh DESCRIPTION The main purpose of this program is to load the system kernel while dealing with the downfalls of the PC BIOS architecture. .Pp As described in .Xr boot_amd64 8 , this program is loaded by the .Xr biosboot 8 primary bootstrap loader and provides a convenient way to load the kernel. This program acts as an enhanced boot monitor for PC systems, providing a common interface for the kernel to start from. .Pp Basic operations include: .Pp .Bl -bullet -compact .It Detecting and switching between multiple consoles. .It Loading kernels from any device supported by your system BIOS. .It Loading kernels compressed by .Xr gzip 1 . .It Passing system parameters queried from the BIOS to the kernel. .It Providing an interactive command line. .El .Pp 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 .Nm set command). Each time a kernel load fails, the timeout is increased by one second. The sequence of .Nm operations is as follows: .Bl -enum .It Set up a protected mode environment which catches and reports processor exceptions and provides a simple protected-mode BIOS interface. .It Probe for console devices, which includes the (default) PC VGA+Keyboard console .Pq Li pc0 and up to four serial consoles .Pf ( Li com0 through .Li com3 ) connected to the serial ports. Display messages to the default console about the devices found. .It Detect memory. Conventional memory is detected by querying the BIOS. Extended memory is detected by probing page-by-page through the address space, rather than asking the BIOS; many BIOS's cannot report larger than 64M of memory. All memory found is reported to the default console device. .It Probe for APM support in the BIOS. Display a message if support is present. .It If the file .Pa /etc/boot.conf exists on the filesystem .Nm was loaded from, open and parse it. This file may contain any commands .Nm accepts at the interactive prompt. Though default settings usually suffice, they can be changed here. .Pp .Pa boot.conf processing can be skipped by holding down either Control key as .Nm starts. .It The header line .Pp .Dl >> OpenBSD/amd64 BOOT [x.xx] .Pp is displayed to the active console, where .Ar x.xx is the version number of the .Nm program, followed by the .Pp .Dl boot> .Pp prompt, which means you are in interactive mode and may enter commands. If you do not, .Nm will proceed to load the kernel with the current parameters after the timeout period has expired. .El .Pp By default, .Nm attempts to load the kernel executable .Pa /bsd . If it fails to find the kernel and no alternative kernel image has been specified, the system will be unable to boot. .Sh COMMANDS The following commands are accepted at the .Nm prompt: .Bl -tag -width shorten .It boot Op Ar image Op Fl acds Boots the kernel image specified by .Ar image with any options given. Image specification consists of a pair .Ar device : Ns Ar filename ; either or both can be omitted (`:' is not needed if both are omitted), in which case values from .Nm variables will be used. .Pp When selecting the .Ar device to boot from, .Nm makes no distinction between SCSI and IDE type drives; they are detected as .Sq hd devices. Therefore, to boot kernel .Pa /bsd from slice .Sq a on the first hard drive .Pq irrespective of device type , specify .Dq boot hd0a:/bsd . .Bl -tag -width _a_ .It Fl a Causes the kernel to ask for the .Nm root device to use. .It Fl c Causes the kernel to go into .Xr boot_config 8 before performing .Xr autoconf 4 procedures. .It Fl d Causes the kernel to drop into .Xr ddb 4 at the earliest convenient point. .It Fl s Causes the kernel to boot single-user. .El .It echo Op Ar args Displays .Ar args on the console device. .It help Prints a list of available commands and machine dependent commands, if any. .It machine Op Ar command Issues machine-dependent commands. These are defined for amd64 architecture: .Bl -tag -width diskinfo .It Nm diskinfo Prints a list of hard disks installed on your system including: BIOS device number, and the BIOS geometry. .It Nm memory If used without any arguments, this command will print out the memory configuration as determined through BIOS routines. Otherwise the arguments specify how to modify the memory configuration. They take the form of: .Pp .Dl [+-]@
.Pp Meaning to add(+) or exempt(-) the amount of memory specified by .Ar at the location specified by .Ar
. Both size and base address can be specified as octal, decimal, or hexadecimal numbers, as accepted by the .Xr strtoul 3 routine. .Pp Memory segments are not required to be adjacent to each other; the only requirement is that there is real physical memory under the range added. The following example adds 32M of memory right after the first 16M: .Bd -unfilled -offset indent machine mem +0x2000000@0x1000000 .Ed .Pp Another useful command is to withdraw a range of memory from OS usage (it may have been wrongfully reported as useful by the BIOS). This example effectively excludes the 15\(en16M range from the map of useful memory: .Bd -unfilled -offset indent machine mem -0x100000@0xf00000 .Ed .It Nm regs Prints contents of processor registers if compiled with .Em DEBUG . .El .It ls Op Ar directory Prints contents of the specified .Ar directory in long format including: attributes and file type, owner, group, size, filename. .It reboot Reboots the machine by initiating a warm boot procedure. .It set Op Ar varname Op Ar value If invoked without arguments, prints a list of variables and their values. If only .Ar varname is specified, displays contents of that variable. If .Ar varname and .Ar value are both specified, sets that variable to the given value. Variables include: .Pp .Bl -tag -compact -width boothow .It Nm addr Address at which to load the kernel. .It Nm debug Debug flag if .Nm was compiled with DEBUG defined. .It Nm device Boot device name (e.g., .Li fd0a , .Li hd0a ) . .It Nm howto Options to pass to the loaded kernel. .It Nm image File name containing the kernel image. .It Nm timeout Number of seconds boot will wait for human intervention before booting the default kernel image. .It Nm tty Active console device name (e.g., .Li com0 , .Li com1 , .Li pc0 ) . Currently, only the first serial port .Pq Li com0 is supported for console on amd64. .El .It stty Op Ar device Op Ar speed Displays or sets the .Ar speed for a console .Ar device . If changing the baudrate for the currently active console, .Nm offers you five seconds of grace time before committing the change to allow you to change your terminal's speed to match. If changing speed .Em not for the active console, the baudrate is set for the .Em next time you switch to a serial console. The baudrate value is not used for the .Li pc0 console. .Pp The default baudrate is 9600bps. .It time Displays system time and date. .El .Sh FILES .Bl -tag -width /usr/mdec/biosbootxx -compact .It Pa /usr/mdec/biosboot first stage bootstrap .It Pa /usr/mdec/pxeboot PXE bootstrap .It Pa /boot system bootstrap .It Pa /etc/boot.conf system bootstrap's startup file .It Pa /bsd kernel image .It Pa /bsd.mp kernel image for multiprocessor machines .It Pa /bsd.rd kernel image for installation/recovery .El .Sh EXAMPLES Boot the default kernel: .Pp .Dl boot> boot .Pp Remove the 5 second pause at boot-time permanently, causing .Nm to load the kernel immediately without prompting: .Pp .Dl # echo \&"boot\&" > /etc/boot.conf .Pp Use serial console. A null modem cable should connect the specified serial port to a terminal. Useful for debugging. .Pp .Dl boot> set tty com0 .Pp Invoke the serial console at every boot: .Pp .Dl # echo \&"set tty com0\&" > /etc/boot.conf .Pp Boot the kernel named .Pa /bsd from the second hard disk in .Dq User Kernel Configuration mode (see .Xr 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 .Xr config 8 Ns 's .Fl e option. .Pp .Dl boot> boot hd1a:/bsd -c .Sh SEE ALSO .Xr gzip 1 , .Xr autoconf 4 , .Xr ddb 4 , .Xr biosboot 8 , .Xr boot_amd64 8 , .Xr boot_config 8 , .Xr fdisk 8 , .Xr installboot 8 , .Xr pxeboot 8 , .Xr reboot 8 .Pp RFC 1950 describes the zlib library interface. .Pp The official home page for the version of zlib used in this operating system is at http://www.gzip.org/zlib/. .Sh HISTORY This program was written by Michael Shalayeff for .Ox 2.1 on the i386 platform, and was later ported to the amd64 platform.