grubby/boot/grub/persistent/docs/05_booting

244 lines
9.4 KiB
Text

5 Booting
*********
GRUB can load Multiboot-compliant kernels in a consistent way, but for
some free operating systems you need to use some OS-specific magic.
5.1 How to boot operating systems
=================================
GRUB has two distinct boot methods. One of the two is to load an
operating system directly, and the other is to chain-load another boot
loader which then will load an operating system actually. Generally
speaking, the former is more desirable, because you don't need to
install or maintain other boot loaders and GRUB is flexible enough to
load an operating system from an arbitrary disk/partition. However, the
latter is sometimes required, since GRUB doesn't support all the
existing operating systems natively.
5.1.1 How to boot an OS directly with GRUB
------------------------------------------
Multiboot (*note Multiboot Specification: (multiboot)Top.) is the native
format supported by GRUB. For the sake of convenience, there is also
support for Linux, FreeBSD, NetBSD and OpenBSD. If you want to boot
other operating systems, you will have to chain-load them (*note
Chain-loading::).
FIXME: this section is incomplete.
1. Run the command 'boot' (*note boot::).
However, DOS and Windows have some deficiencies, so you might have to
use more complicated instructions. *Note DOS/Windows::, for more
information.
5.1.2 Chain-loading an OS
-------------------------
Operating systems that do not support Multiboot and do not have specific
support in GRUB (specific support is available for Linux, FreeBSD,
NetBSD and OpenBSD) must be chain-loaded, which involves loading another
boot loader and jumping to it in real mode.
The 'chainloader' command (*note chainloader::) is used to set this
up. It is normally also necessary to load some GRUB modules and set the
appropriate root device. Putting this together, we get something like
this, for a Windows system on the first partition of the first hard
disk:
menuentry "Windows" {
insmod chain
insmod ntfs
set root=(hd0,1)
chainloader +1
}
On systems with multiple hard disks, an additional workaround may be
required. *Note DOS/Windows::.
Chain-loading is only supported on PC BIOS and EFI platforms.
5.2 Loopback booting
====================
GRUB is able to read from an image (be it one of CD or HDD) stored on
any of its accessible storages (refer to *note loopback:: command).
However the OS itself should be able to find its root. This usually
involves running a userspace program running before the real root is
discovered. This is achieved by GRUB loading a specially made small
image and passing it as ramdisk to the kernel. This is achieved by
commands 'kfreebsd_module', 'knetbsd_module_elf', 'kopenbsd_ramdisk',
'initrd' (*note initrd::), 'initrd16' (*note initrd::),
'multiboot_module', 'multiboot2_module' or 'xnu_ramdisk' depending on
the loader. Note that for knetbsd the image must be put inside
miniroot.kmod and the whole miniroot.kmod has to be loaded. In kopenbsd
payload this is disabled by default. Aditionally behaviour of initial
ramdisk depends on command line options. Several distributors provide
the image for this purpose or it's integrated in their standard ramdisk
and activated by special option. Consult your kernel and distribution
manual for more details. Other loaders like appleloader, chainloader
(BIOS, EFI, coreboot), freedos, ntldr and plan9 provide no possibility
of loading initial ramdisk and as far as author is aware the payloads in
question don't support either initial ramdisk or discovering loopback
boot in other way and as such not bootable this way. Please consider
alternative boot methods like copying all files from the image to actual
partition. Consult your OS documentation for more details
5.3 Some caveats on OS-specific issues
======================================
Here, we describe some caveats on several operating systems.
5.3.1 GNU/Hurd
--------------
Since GNU/Hurd is Multiboot-compliant, it is easy to boot it; there is
nothing special about it. But do not forget that you have to specify a
root partition to the kernel.
1. Set GRUB's root device to the same drive as GNU/Hurd's. The
command 'search --set=root --file /boot/gnumach.gz' or similar may
help you (*note search::).
2. Load the kernel and the modules, like this:
grub> multiboot /boot/gnumach.gz root=device:hd0s1
grub> module /hurd/ext2fs.static ext2fs --readonly \
--multiboot-command-line='${kernel-command-line}' \
--host-priv-port='${host-port}' \
--device-master-port='${device-port}' \
--exec-server-task='${exec-task}' -T typed '${root}' \
'$(task-create)' '$(task-resume)'
grub> module /lib/ld.so.1 exec /hurd/exec '$(exec-task=task-create)'
3. Finally, run the command 'boot' (*note boot::).
5.3.2 GNU/Linux
---------------
It is relatively easy to boot GNU/Linux from GRUB, because it somewhat
resembles to boot a Multiboot-compliant OS.
1. Set GRUB's root device to the same drive as GNU/Linux's. The
command 'search --set=root --file /vmlinuz' or similar may help you
(*note search::).
2. Load the kernel using the command 'linux' (*note linux::):
grub> linux /vmlinuz root=/dev/sda1
If you need to specify some kernel parameters, just append them to
the command. For example, to set 'acpi' to 'off', do this:
grub> linux /vmlinuz root=/dev/sda1 acpi=off
See the documentation in the Linux source tree for complete
information on the available options.
With 'linux' GRUB uses 32-bit protocol. Some BIOS services like
APM or EDD aren't available with this protocol. In this case you
need to use 'linux16'
grub> linux16 /vmlinuz root=/dev/sda1 acpi=off
3. If you use an initrd, execute the command 'initrd' (*note initrd::)
after 'linux':
grub> initrd /initrd
If you used 'linux16' you need to use 'initrd16':
grub> initrd16 /initrd
4. Finally, run the command 'boot' (*note boot::).
*Caution:* If you use an initrd and specify the 'mem=' option to the
kernel to let it use less than actual memory size, you will also have to
specify the same memory size to GRUB. To let GRUB know the size, run the
command 'uppermem' _before_ loading the kernel. *Note uppermem::, for
more information.
5.3.3 NetBSD
------------
Booting a NetBSD kernel from GRUB is also relatively easy: first set
GRUB's root device, then load the kernel and the modules, and finally
run 'boot'.
1. Set GRUB's root device to the partition holding the NetBSD root
file system. For a disk with a NetBSD disk label, this is usually
the first partition (a:). In that case, and assuming that the
partition is on the first hard disk, set GRUB's root device as
follows:
grub> insmod part_bsd
grub> set root=(hd0,netbsd1)
For a disk with a GUID Partition Table (GPT), and assuming that the
NetBSD root partition is the third GPT partition, do this:
grub> insmod part_gpt
grub> set root=(hd0,gpt3)
2. Load the kernel using the command 'knetbsd':
grub> knetbsd /netbsd
Various options may be given to 'knetbsd'. These options are, for
the most part, the same as in the NetBSD boot loader. For
instance, to boot the system in single-user mode and with verbose
messages, do this:
grub> knetbsd /netbsd -s -v
3. If needed, load kernel modules with the command
'knetbsd_module_elf'. A typical example is the module for the root
file system:
grub> knetbsd_module_elf /stand/amd64/6.0/modules/ffs/ffs.kmod
4. Finally, run the command 'boot' (*note boot::).
5.3.4 DOS/Windows
-----------------
GRUB cannot boot DOS or Windows directly, so you must chain-load them
(*note Chain-loading::). However, their boot loaders have some critical
deficiencies, so it may not work to just chain-load them. To overcome
the problems, GRUB provides you with two helper functions.
If you have installed DOS (or Windows) on a non-first hard disk, you
have to use the disk swapping technique, because that OS cannot boot
from any disks but the first one. The workaround used in GRUB is the
command 'drivemap' (*note drivemap::), like this:
drivemap -s (hd0) (hd1)
This performs a "virtual" swap between your first and second hard
drive.
*Caution:* This is effective only if DOS (or Windows) uses BIOS to
access the swapped disks. If that OS uses a special driver for the
disks, this probably won't work.
Another problem arises if you installed more than one set of
DOS/Windows onto one disk, because they could be confused if there are
more than one primary partitions for DOS/Windows. Certainly you should
avoid doing this, but there is a solution if you do want to do so. Use
the partition hiding/unhiding technique.
If GRUB "hides" a DOS (or Windows) partition (*note parttool::), DOS
(or Windows) will ignore the partition. If GRUB "unhides" a DOS (or
Windows) partition, DOS (or Windows) will detect the partition. Thus,
if you have installed DOS (or Windows) on the first and the second
partition of the first hard disk, and you want to boot the copy on the
first partition, do the following:
parttool (hd0,1) hidden-
parttool (hd0,2) hidden+
set root=(hd0,1)
chainloader +1
parttool ${root} boot+
boot