In order to properly document GRUB, I have been reviewing some of the
code at a rather detailed level. My efforts are directed at developing
an intimate level of understanding as a prerequisite for the
documentation effort. I fully understand that many of the details below
are not appropriate for grub.texi, but they may be appropriate for other
venues such as a wiki.
The GRUB code is fairly complex. Below is a summary of the GRUB boot
process as I understand it from the code. I would appreciate any
corrections or problems you may observe in the description below.
Thanks.
-- Bruce
My analysis so far assumes a i386 pc platform booting from a generic
disk drive and booting linux.
Booting the MBR: boot.img (architecture specific)
The PC BIOS determines the boot device and loads the first physical
sector of that device, commonly known as the Master Boot Record (MBR)
into memory. The memory location is an absolute physical address of
0x07C000, which is one 512-byte sector below the 1st 32K memory
boundary. I think, but cannot confirm, that this memory location is for
historical reasons only.
The BIOS passes the disk drive being booted via the DL register.
This value would normally be 0x80 for the first hard drive and is
equivalent to GRUB's (hd0), but grub-setup may over-ride it and set it
to 0x80.
The MBR code is generated from GRUB's /boot/i386/pc/boot.S source
code. This is installed by grub-setup (grub-setup.c), but copies any
BIOS Parameter Block (BPB) and Partition Table from the existing MBR
code before overwriting the sector.
The MBR functions by reading exactly one sector using the BIOS INT
13h, function 042h, from the second physical disk sector (address 1) on
the boot disk to memory location 0x70000. Then the memory at 0x70000 is
copied to 0x80000 and the code at 0x80000 is then executed.
----------------------
Second stage: core.img
For historical reasons, disk partitions on the pc are considered to
be aligned on track boundaries where the number of sectors per track is
63. The first partition is at track 1 reserving track 0 for the boot
process. The MBR is sector 0 and sectors 1 to 62 can then be used for
other boot code like core.img. Therefore the maximum size of core.img
is 31744 bytes (31K). The core.img is binary code partially compressed
with the LZMA algorithm.
core.img is created by grub-mkimage (usually via grub-install) from
kernel.img and other system specific parameters. The default i386
built-in modules and dependencies are:
biosdisk.mod
ata.mod (pci.mod, scsi.mod)
file system : determined by grub-probe (e.g. ext2.mod, fshelp.mod)
partition type: determined by grub-probe( e.g. part_msdos.mod)
core.img is installed into the first logical track (sectors 1 to 63) of
the disk drive by grub-setup.
The first sector of pc core.img is generated from the
boot/i386/pc/diskboot.S file. Note: There appears to be a comment
error in this file. It says it starts at location 0x02000, but boot.S
and conf/i386-pc.rmk indicates it is at 0x80000.
After the first sector of core.image is loaded by the MBR, it loads
the rest of itself into memory using BIOS INT 13h calls. At a
relatively early point, the code transitions from the CPU's real mode to
protected mode to effectively remove memory limits, loads default
modules from the boot drive, reads the GRUB configuration file and
proceeds according to the instructions there or from the command line.
The final task then is to load the kernel image or the next
chainloader disk sector and transfer execution to that code. At that
point GRUB considers the boot process complete.
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