.\" $NetBSD: boot.8,v 1.11.4.5 2020/07/15 15:54:50 martin Exp $ .\" .\" Copyright (c) 1991, 1993 .\" The Regents of the University of California. All rights reserved. .\" .\" This code is derived from software written and contributed .\" to Berkeley by William Jolitz. .\" .\" 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. .\" 3. Neither the name of the University nor the names of its contributors .\" may be used to endorse or promote products derived from this software .\" without specific prior written permission. .\" .\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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 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. .\" .\" @(#)boot_i386.8 8.2 (Berkeley) 4/19/94 .\" .Dd July 15, 2020 .Dt BOOT 8 x86 .Os .Sh NAME .Nm boot .Nd system bootstrapping procedures .Sh DESCRIPTION Intel Architecture, 32-bit (IA-32) computers (the .Tn IBM PC and its clones) that can run .Nx Ns /i386 or .Nx Ns /amd64 can use any of the following boot procedures, depending on what the hardware and .Tn BIOS support: .Bl -tag -width "x86/pxeboot(8)" .It boot bootstrap .Nx from the system .Tn BIOS .It efiboot bootstrap .Nx from the system .Tn UEFI .It Xr x86/dosboot 8 bootstrap .Nx from .Tn MS-DOS .It Xr x86/pxeboot 8 network bootstrap .Nx from a .Tn TCP/IP .Tn LAN with .Tn DHCP , .Tn TFTP , and .Tn NFS . .El .Ss Power fail and crash recovery Normally, the system will reboot itself at power-up or after crashes. An automatic consistency check of the file systems will be performed, and unless this fails, the system will resume multi-user operations. .Ss Cold starts The 386 .Tn "PC AT" clones attempt to boot the floppy disk drive A (otherwise known as drive 0) first, and failing that, attempt to boot the hard disk C (otherwise known as hard disk controller 1, drive 0). The .Nx bootblocks are loaded and started either by the .Tn BIOS , or by a boot selector program (such as OS-BS, BOOTEASY, the OS/2 Boot Menu or .Nx Ns 's .No boot-selecting master boot record - see .Xr x86/mbr 8 ) . .Ss Normal Operation Once running, a banner similar to the following will appear: .Bd -unfilled -offset indent >> NetBSD BIOS Boot, revision 3.0 >> (user@buildhost, builddate) >> Memory: 637/15360 k Press return to boot now, any other key for boot menu booting hd0a:netbsd - starting in 5 .Ed .Pp After a countdown, the system image listed will be loaded. In the example above, it will be .Dq Li hd0a:netbsd which is the file .Pa /netbsd on partition .Dq a of the .Nx .Tn MBR partition of the first hard disk known to the .Tn BIOS .Po which is an .Tn IDE or similar device - see the .Sx BUGS section .Pc . .Pp Pressing a key within the time limit, or before the boot program starts, will enter interactive mode. When using a short or 0 timeout, it is often useful to interrupt the boot by holding down a shift key, as some BIOSes and BIOS extensions will drain the keystroke buffer at various points during POST. .Pp If present, the file .Pa /boot.cfg will be used to configure the behaviour of the boot loader including setting the timeout, choosing a console device, altering the banner text and displaying a menu allowing boot commands to be easily chosen. See .Xr boot.cfg 5 . .Ss Boot Protocol The .Nx Ns /x86 boot loader can boot a kernel using either the native .Nx boot protocol, or the .Dq multiboot protocol (which is compatible with some other operating systems). In the native .Nx boot protocol, options are passed from the boot loader to the kernel via flag bits in the .Va boothowto variable (see .Xr boothowto 9 ) . In the multiboot protocol, options are passed from the boot loader to the kernel as strings. .Ss Diagnostic Output If the first stage boot fails to load the boot, it will print a terse message indicating the reason for the failure. The possible error messages and their cause are listed in .Xr x86/mbr 8 . .Pp If the first stage boot succeeds, the banner will be shown and the error messages should be self-explanatory. .Ss Interactive mode In interactive mode, the boot loader will present a prompt, allowing input of these commands: .\" NOTE: much of this text is duplicated in the MI boot.8. .\" Some of it is .\" also duplicated in the x86-specific x86/dosboot.8 and x86/pxeboot.8; .\" please try to keep all relevant files synchronized. .Bl -tag -width 04n -offset 04n .It Ic boot Oo Va device : Oc Ns Oo Va filename Oc Oo Fl 1234abcdmqsvxz Oc The default .Va device will be set to the disk from which the boot loader was loaded. The partition is set to the first match in this list: .Bl -enum -compact .It The first .Xr gpt 8 partition with the .Va bootme attribute set. .It The partition from which the boot loader was loaded from, if that can be detected. .It The first partition with a file system that could be bootable. .It The first partition. .El To boot from an alternate disk, the full name of the device should be given at the prompt. .Va device is of the form .Va NAME=partition_label when booting from a .Xr gpt 8 partitioned disk. Otherwise, the syntax is .Xo Va xd .Op Va N Ns Op Va x .Xc where .Va xd is the device from which to boot, .Va N is the unit number, and .Va x is the partition letter. .Pp In the later case, the following list of supported devices may vary from installation to installation: .Pp .Bl -hang -compact .It hd Hard disks as numbered by the BIOS. This includes ST506, IDE, ESDI, RLL disks on a WD100[2367] or lookalike controller(s), and SCSI disks on SCSI controllers recognized by the BIOS. .It fd Floppy drives as numbered by the BIOS. .It cd CD-ROM drives as numbered by the BIOS. .It raid RAIDframe configured from hard disks recognized by the BIOS. Only RAID level 1 sets are supported by bootstrap code. If the RAID is partitioned, the first partition is used, or the first .Xr gpt 8 partition that has the .Va bootme attribute set. Inner RAIDframe partitions can also be given to the .Ic dev command using he .Va NAME=partition_label syntax. .El .Pp The default .Va filename is .Pa netbsd ; if the boot loader fails to successfully open that image, it then tries .Pa netbsd.gz (expected to be a kernel image compressed by gzip), followed by .Pa netbsd.old , .Pa netbsd.old.gz , .Pa onetbsd , and finally .Pa onetbsd.gz . Alternate system images can be loaded by just specifying the name of the image. .Pp Options are: .Bl -tag -width xxx .It Fl 1 Sets the machine-dependent flag .Sy RB_MD1 in .Va boothowto . In .Nx Ns /x86 , this disables multiprocessor boot; the kernel will boot in uniprocessor mode. .It Fl 2 Sets the machine-dependent flag .Sy RB_MD2 in .Va boothowto . In .Nx Ns /x86 , this disables ACPI. .It Fl 3 Sets the machine-dependent flag .Sy RB_MD3 in .Va boothowto . In .Nx Ns /x86 , this has no effect. .It Fl 4 Sets the machine-dependent flag .Sy RB_MD4 in .Va boothowto . In .Nx Ns /x86 , this has no effect. .It Fl a Sets the .Sy RB_ASKNAME flag in .Va boothowto . This causes the kernel to prompt for the root file system device, the system crash dump device, and the path to .Xr init 8 . .It Fl b Sets the .Sy RB_HALT flag in .Va boothowto . This causes subsequent reboot attempts to halt instead of rebooting. .It Fl c Sets the .Sy RB_USERCONF flag in .Va boothowto . This causes the kernel to enter the .Xr userconf 4 device configuration manager as soon as possible during the boot. .Xr userconf 4 allows devices to be enabled or disabled, and allows device locators (such as hardware addresses or bus numbers) to be modified before the kernel attempts to attach the devices. .It Fl d Sets the .Sy RB_KDB flag in .Va boothowto . Requests the kernel to enter debug mode, in which it waits for a connection from a kernel debugger; see .Xr ddb 4 . .It Fl m Sets the .Sy RB_MINIROOT flag in .Va boothowto . Informs the kernel that a mini-root file system is present in memory. .It Fl q Sets the .Sy AB_QUIET flag in .Va boothowto . Boot the system in quiet mode. .It Fl s Sets the .Sy RB_SINGLE flag in .Va boothowto . Boot the system in single-user mode. .It Fl v Sets the .Sy AB_VERBOSE flag in .Va boothowto . Boot the system in verbose mode. .It Fl x Sets the .Sy AB_DEBUG flag in .Va boothowto . Boot the system with debug messages enabled. .It Fl z Sets the .Sy AB_SILENT flag in .Va boothowto . Boot the system in silent mode. .El .It Ic consdev Va dev Ns Oo Ns , Ns Va speed Oc Immediately switch the console to the specified device .Va dev and reprint the banner. .Va dev must be one of .\" .Bl -item -width com[0123]kbd -offset indent -compact .Ar pc , com0 , com1 , com2 , .Ar com3 , com0kbd , com1kbd , com2kbd , .Ar com3kbd , or .Ar auto . See .Sx Console Selection Policy in .Xr x86/boot_console 8 . .Pp A .Va speed for the serial port is optional and defaults to 9600. If a value of zero is specified, then the current baud rate (set by the BIOS) will be used. Setting the .Va speed with the .Ar pc device is not possible. .It Ic dev Op Va device Set the default drive and partition for subsequent file system operations. Without an argument, print the current setting. .Va device is of the form specified in .Cm boot . .It Ic fs Va file Load a file system image from the specified .Ar file , and request the kernel to use it as the root file system. The .Xr makefs 8 utility may be used to create suitable file system images. .It Ic help Print an overview about commands and arguments. .It Ic load Va module Op Ar arguments Load the specified kernel .Va module , and pass it the specified .Ar arguments . If the module name is not an absolute path, .Pa /stand/ Xo Ns .Aq Sy arch Ns .Pa / Ns .Aq Sy osversion Ns .Pa /modules/ Ns .Aq Sy module Ns .Pa / Ns .Aq Sy module Ns .Pa .kmod .Xc is used. Possible uses of the .Ic load command include loading a memory disk image before booting a kernel, or loading a .Tn Xen DOM0 kernel before booting the .Tn Xen hypervisor. See .Xr boot.cfg 5 for examples. .Pp In addition to the .Cm boot options specified above, the .Tn Xen DOM0 kernel accepts .Po Ar arguments being separated with spaces .Pc : .Bl -tag -width xxx .It Ic bootdev Ns = Ns Ar dev Po or Ic root Ns = Ns Ar dev Pc Override the default boot device. .Ar dev is of the form .Va NAME=partition_label for .Xr gpt 8 partitionned disks. It can also be a unit name .Po Dq wd0 .Pc , or an interface name .Po Dq bge0 , .Dq wm0 , \&... .Pc for cases where the root file system has to be loaded from network (see the .Sx BUGS section in .Xr x86/pxeboot 8 ) . .It Ic console Ns = Ns Ar dev Console used by DOM0 kernel during boot. .Ar dev accepts the same values as the ones given for the .Cm consdev command. See .Sx Console Selection Policy in .Xr x86/boot_console 8 . .It Xo Ic ip Ns = Ns .Ar my_ip Ns : Ns Ar serv_ip Ns : Ns Ar gw_ip Ns : Ns .Ar mask Ns : Ns Ar host Ns : Ns Ar iface .Xc Specify various parameters for a network boot (IPs are in dot notation), each one separated by a colon: .Bl -tag -width xxxxxxx .It Va my_ip address of the host .It Va serv_ip address of the NFS server .It Va gw_ip address of the gateway .It Va mask network mask .It Va host address of the host .It Va iface interface .Po e.g., Dq xennet0 or .Dq eth0 .Pc .El .It Ic nfsroot Ns = Ns Ar address Ns : Ns Ar rootpath Boot the system with root on NFS. .Ar address is the address of the NFS server, and .Ar rootpath is the remote mount point for the root file system. .It Ic pciback.hide Ns = Ns Ar pcidevs Pass a list of PCI IDs for use with the PCI backend driver, .Xr pciback 4 . .Ar pcidevs is formed of multiple IDs (in bus:device.function notation), each ID being surrounded with brackets. PCI domain IDs are currently ignored. See .Xr pciback 4 . .El .It Ic ls Op Pa path Print a directory listing of .Pa path , containing inode number, filename, and file type. .Pa path can contain a device specification. .It Ic menu Display the boot menu and initiate a countdown, similarly to what would have happened if interactive mode had not been entered. .It Ic modules Bro Ar on | off | enabled | disabled Brc The values .Ar enabled , on will enable module loading for .Cm boot and .Cm multiboot , whereas .Ar disabled , off will turn off the feature. .It Ic multiboot Va kernel Op Ar arguments Boot the specified .Va kernel , using the .Dq multiboot protocol instead of the native .Nx boot protocol. The .Va kernel is specified in the same way as with the .Ic boot command. .Pp The multiboot protocol may be used in the following cases: .Bl -tag -width indent .It Nx Ns / Ns Xen No kernels The .Tn Xen DOM0 kernel must be loaded as a module using the .Ic load command, and the .Tn Xen hypervisor must be booted using the .Ic multiboot command. Options for the DOM0 kernel (such as .Dq -s for single user mode) must be passed as options to the .Ic load command. Options for the hypervisor (such as .Dq dom0_mem=256M to reserve 256 MB of memory for DOM0) must be passed as options to the .Ic multiboot command. See .Xr boot.cfg 5 for examples on how to boot .Nx Ns / Ns Xen. .It Nx No multiboot kernels A .Nx kernel that was built with .Cd options MULTIBOOT (see .Xr x86/multiboot 8 ) may be booted with either the .Ic boot or .Ic multiboot command, passing the same .Ar arguments in either case. .It Non- Ns Nx No kernels A kernel for a .No non- Ns Nx operating system that expects to be booted using the multiboot protocol (such as by the GNU .Dq GRUB boot loader) may be booted using the .Ic multiboot command. See the foreign operating system's documentation for the available .Ar arguments . .El .It Ic quit Reboot the system. .It Ic rndseed Ar file Load the specified .Ar file and request the kernel to use it as a seed for the .Xr rnd 4 random number generator. The .Ar file should be in the private format used by .Xr rndctl 8 , and should have been saved by .Ql "rndctl -S" shortly before the previous shutdown. See the .Va random_seed and .Va random_file variables in .Xr rc.conf 5 , and the .Pa /etc/rc.d/random_seed script, for a way to manage the seed file. Using the same seed file on more then one host, or for more than one boot on the same host, will reduce the quality of random numbers and may impact system security. .It Ic userconf Va command Pass command .Va command to .Xr userconf 4 at boot time. These commands are processed before the interactive .Xr userconf 4 shell is executed, if requested. .It Ic splash Ar file Load a graphical image from the specified .Ar file and request the kernel to use it as a splash screen. The .Ar file should contain an image in one of these formats: JPEG (baseline only, not progressive), PNG (8-bit only), TGA, BMP (non-1bpp, non-RLE), GIF, PSD (composited view only), or PIC. .It Ic vesa Bro Va modenum | Ar on | off | enabled | disabled | list Brc Initialise the video card to the specified resolution and bit depth. The .Va modenum should be in the form of .Ar 0x100 , 800x600 , 800x600x32 . The values .Ar enabled , on put the display into the default mode, and .Ar disabled , off returns the display into standard vga mode. The value .Ar list lists all supported modes. .El .Pp In an emergency, the bootstrap methods described in the .Nx installation notes for the x86 architectures can be used to boot from floppy or other media, or over the network. .Ss Locating the root file system The kernel uses information from the bootloader to locate the file system to mount as root. There are three methods: .Bl -tag -width 04n -offset 04n .It Ic BTINFO_ROOTDEVICE Va from .Xr boot.cfg 5 or multiboot. The bootloader passes the root device name as driver, unit, and partition (like sd0a). This will be automatically substituted by a .Xr dk 4 wedge if one is discovered. .Pp The bootloader passes a wedge name as "wedge:" followed by the name. The kernel will search for a .Xr dk 4 device with that name. .It Ic BTINFO_BOOTWEDGE Va determined by bootblock The bootloader passes start offset and length of a hard disk partition and a offset, size and hash of a "boot area". Then kernel searches all disks and wedges for a block sequence at that offset with a matching hash. If one is found, the kernel will look for a wedge on that device at the same offset. .Pp An additional partition number is provided if the bootloader also passed a BTINFO_BOOTDISK record. This (or partition 'a') will be used by the kernel as a fallback if there is no matching wedge. .It Ic BTINFO_BOOTDISK Va determined by bootblock This uses the device number passed by the BIOS that distinguishes between floppy, hard drive and CD-ROM boot. .Bl -tag -width xxx .It Ic Floppy The kernel searches for the .Xr fd 4 device with the correct unit, the partition number is used to select a specific disk format. See .Xr fd 4 for details. .It Ic Hard drive The bootloader passed a partition number and disklabel data (offset, type, checksum, packname). The kernel searches all disks for a matching disklabel. If one is found, the kernel will use that device and partition number. .It Ic CDROM The BIOS does not distinguish between multiple CD devices. The kernel searches for the first .Xr cd 4 device. So you can only boot from unit 0. .El .El .Sh FILES .Bl -tag -width /usr/mdec/bootxx_fstype -compact .It Pa /boot boot program code loaded by the primary bootstrap .It Pa /boot.cfg optional configuration file .It Pa /netbsd system code .It Pa /netbsd.gz gzip-compressed system code .It Pa /usr/mdec/boot master copy of the boot program (copy to /boot) .It Pa /usr/mdec/bootxx_fstype primary bootstrap for file system type fstype, copied to the start of the .Nx partition by .Xr installboot 8 . .It Pa /usr/mdec/bootia32.efi .It Pa /usr/mdec/bootx64.efi .Tn UEFI bootstraps for .Nx Ns /i386 and .Nx Ns /amd64 , which should be copied to the .Pa /efi/boot directory in a .Tn FAT formatted partition of type .Tn EFI (Either .Xr mbr 8 and .Xr gpt 8 , see the .Sx BUGS section). .Nx .Tn UEFI bootstrap reads its configuration from the .Pa /efi/netBSD/boot.cfg file in the .Tn EFI partition. .El .Sh SEE ALSO .Xr ddb 4 , .Xr fd 4 , .Xr pciback 4 , .Xr userconf 4 , .Xr boot.cfg 5 , .Xr halt 8 , .Xr installboot 8 , .Xr reboot 8 , .Xr rescue 8 , .Xr shutdown 8 , .Xr x86/boot_console 8 , .Xr x86/dosboot 8 , .Xr x86/mbr 8 , .Xr x86/multiboot 8 , .Xr x86/pxeboot 8 , .Xr boothowto 9 .Sh BUGS The kernel file name must be specified before, not after, the boot options. Any .Ar filename specified after the boot options, e.g.: .Pp .Bd -unfilled -offset indent -compact .Cm boot -d netbsd.test .Ed .Pp is ignored, and the default kernel is booted. .Pp Hard disks are always accessed by .Tn BIOS functions. Unit numbers are .Tn BIOS device numbers which might differ from numbering in the .Nx kernel or physical parameters .Po e.g., .Tn SCSI slave numbers .Pc . There isn't any distinction between .Dq sd and .Dq wd devices at the bootloader level. This is less a bug of the bootloader code than a shortcoming of the PC architecture. The default disk device's name printed in the starting message is derived from the .Dq type field of the .Nx disklabel (if it is a hard disk). .Pp .Tn UEFI implementation are supposed to support either .Xr mbr 8 or .Xr gpt 8 partitionning, but some do not handle the later. .Tn UEFI Booting from a .Xr gpt 8 partitioned disk is still possible in this case, by adding an overlapping .Tn EFI partition in the protective .Xr mbr 8 block. This can be achieved using the following commands (you must adapt the hard disk and .Tn EFI partition start end size to fit your setup): .Dl Ic dd if=/dev/rwd0d bs=512 count=1 of=mbr .Dl Ic fdisk -FIfaui1s 4/34/32768 -c /usr/mdec/mbr mbr .Dl Ic dd if=mbr bs=512 count=1 of=/dev/rwd0d conv=notrunc The resulting .Xr mbr 8 partition table will look like this: .Bd -unfilled -offset indent 0: GPT Protective MBR (sysid 238) start 1, size 2097151 (1024 MB, Cyls 0-130/138/8) PBR is not bootable: Bad magic number (0x0000) 1: Primary DOS with 16 bit FAT <32M (sysid 4) start 34, size 32768 (16 MB, Cyls 0/0/35-2/10/42), Active 2: 3: .Ed