Please refer to http://grub4dos.sourceforge.net/wiki/ for DOCs on GRUB4DOS. | |
Main project page: https://gna.org/projects/grub4dos/ | |
Download site: http://download.gna.org/grub4dos/ | |
Download site: http://grub4dos.sourceforge.net/ | |
Download site: http://sarovar.org/projects/grub4dos/ | |
Download site: http://grub4dos.nufans.net/ | |
Download site: http://sites.google.com/site/grubdos/ | |
Download site: http://grub4dos.jot.com/ | |
Get the latest source code by using anonymous svn in this way: | |
svn co svn://svn.gna.org/svn/grub4dos/trunk grub4dos | |
or in this way: | |
svn co http://svn.gna.org/svn/grub4dos/trunk grub4dos | |
View the source code online with your web browser at: | |
http://svn.gna.org/viewcvs/grub4dos/trunk/ | |
GRUB4DOS mailing list: | |
grub4dos-devel@gna.org | |
Subscription page: | |
https://mail.gna.org/listinfo/grub4dos-devel/ | |
Discussion forum(Official technical support site): | |
http://www.boot-land.net/forums/index.php?showforum=66 | |
------------------------------------------------------------------------------ | |
Usage: | |
GRUB [--bypass] [--time-out=T] [--hot-key=K] [--config-file=FILE] | |
The FILE, for example, can be (hd0,0)/menu.lst | |
In CONFIG.SYS, the line looks like: | |
install=c:\some\where\grub.exe --config-file=FILE | |
If no options present, GRUB.EXE simply uses | |
(hd0,0)/menu.lst | |
as the configure file, if it exists. (Notice! We finally | |
changed the default file from (hd0,0)/boot/grub/menu.lst to | |
(hd0,0)/menu.lst) (Changed 2006-12-23. See Update 3 below.) | |
The partition (hd0,0) can be of a Windows partition or a Linux | |
partition, or any other partition type supported by GRUB. | |
Only GRUB-style filename is acceptable here for FILE. A DOS | |
filename won't work(it is certain we should use GRUB-style | |
filenames because DOS-filenames won't access a file in a | |
Linux ext2 partition for example).(See Update 2 below) | |
Update: FILE can be the contents of a menu. Use semi-colon | |
to delimitate the embedded commands here in FILE. The FILE | |
can be enclosed with a pair of double-quotes. For example: | |
GRUB --config-file="root (hd0,0);chainloader +1" | |
This command will boot the system in (hd0,0). | |
Another example: | |
GRUB --config-file="reboot" | |
This command will reboot the machine. | |
One more example: | |
GRUB --config-file="halt" | |
This command will halt the machine. | |
if --bypass is specified, GRUB will exit to DOS when | |
timeout reached. | |
The option `--time-out=T' specifies the timeout value in | |
seconds. T defaults to 5 if --bypass is specified and defaults | |
to 0 if --bypass is not specified. | |
The default hot key value is 0x3920(for space bar). If this | |
key is pressed, GRUB will boot normally. If another key is | |
pressed, GRUB will terminate immediately and return back to | |
DOS. See "int 16 keyboard scan codes" below. | |
Each option can be specified only once at most. | |
Update 2: DOS filenames have been supported(patched by John | |
Cobb). If the beginning two characters of FILE are "#@", then | |
the rest of FILE is taken as a DOS filename. Example: | |
GRUB --config-file="#@c:\menu.lst" | |
Only the beginning 4KB of the DOS file will be used. The file | |
should be an uncompressed text file. | |
Note: You may also use the `direct DOS file access' with the | |
SHELL or INSTALL line in CONFIG.SYS, but should not use it | |
with the DEVICE line. The DOS document said that a DOS device | |
driver should not call the `open file' DOS call. | |
Update 3(2006-12-23): By default, GRUB.EXE will locate its | |
config file in the following order: | |
(DOS file) .\menu.lst, the MENU.LST in the current dir. | |
(DOS file) \menu.lst, the MENU.LST in the root dir of | |
the current drive. | |
(GRUB file) /menu.lst, the MENU.LST in the root dir of | |
the boot device. | |
The default boot device is still (hd0,0). | |
-------------------------------------------------------- | |
Update 1: Version 0.2.0 also brings out a new thing, GRUB for NTLDR, | |
which could be used to boot into GRUB from the boot menu | |
of Windows NT/2000/XP. Copy GRLDR to the root directory of | |
drive C: of Windows NT/2000/XP and append to C:\BOOT.INI | |
this line: | |
C:\GRLDR="Start GRUB" | |
That will be done. The GRLDR should be in the same directory | |
as BOOT.INI and NTLDR. Note that BOOT.INI is usually hidden | |
and you must unhide it before you can see it. The filename | |
GRLDR shouldn't be changed. If GRLDR is in a NTFS partition, | |
it should be copied to the root directory of another non-NTFS | |
partition(and likewise should the menu.lst file be). If GRLDR | |
is compressed, e.g., in a NTFS partition, it will not work. | |
Even if the drive letter of this disk has been changed to | |
other than C by the Windows device manager, it seems you still | |
have to use the letter C here in BOOT.INI, otherwise, NTLDR | |
will fail to locate the GRLDR file. | |
And what's more, if you are booting NTLDR from a floppy, you | |
will have to write the GRLDR line in A:\BOOT.INI like this: | |
C:\GRLDR="Start GRUB" | |
and shouldn't use the letter A like this: | |
A:\GRLDR="Start GRUB" | |
(Note that in the case when BOOT.INI is on floppy A, the | |
notation "C:\GRLDR" actually refer to the file A:\GRLDR). | |
Update 2: GRUB for Linux is also introduced along with 0.2.0. You can | |
boot grub using a linux loader KEXEC, LILO, SYSLINUX or another | |
GRUB. (GRUB4LIN has merged into GRUB.EXE) | |
To boot GRUB off Linux, use this pair of commands: | |
kexec -l grub.exe | |
kexec -e | |
To boot GRUB via GRUB, use commands like the following: | |
kernel (hd0,0)/grub.exe | |
boot | |
To boot GRUB via LILO, use these lines in lilo.conf: | |
image=/boot/grub.exe | |
label=grub.exe | |
To boot GRUB via SYSLINUX, use these lines in syslinux.cfg: | |
label grub.exe | |
kernel grub.exe | |
LOADLIN may encounter problems when loading grub.exe, because | |
grub.exe requires some unchanged original BIOS interrupt | |
vectors, but DOS has destroyed them, and loadlin does not | |
recover them before it transfers control to grub.exe. | |
Update 3: Beginning at version 0.4.0, GRUB for DOS supports memdrives. | |
Example: | |
# boot into a floppy image | |
map --mem (hd0,0)/floppy.img (fd0) | |
map --hook | |
chainloader (fd0)+1 | |
rootnoverify (fd0) | |
map --floppies=1 | |
boot | |
Because the image will be copied to a memory area, the image | |
itself can be non-contiguous and even gzipped. | |
Another Example: | |
map --mem=-2880 (hd0,0)/floppy.img (fd0) | |
This memdrive (fd0) will occupy at least 1440 KB of memory. | |
This is useful when the size of a 1.44M-floppy image is less | |
than 1440 KB. | |
One more example: | |
map --mem --read-only (hd0,0)/hd.img (hd1) | |
This memdrive is a hard drive, and read-only. That means you | |
will not be able to write data to the memdrive (hd1). | |
You can use many memdrives and many ordinary virtual emulated | |
disk-based drives at the same time. | |
If the BIOS does not support int15/EAX=e820h, you will not be | |
able to use any memdrives. | |
Update 4: For memdrive emulation, a single-partition image can be used | |
instead of a whole-harddrive image. Example: | |
map --mem (hd0,7)/win98.img (hd0) | |
map --hook | |
chainloader (hd0)+1 | |
rootnoverify (hd0) | |
map --harddrives=1 | |
boot | |
Here win98.img is a partition image without the leading MBR | |
and partition table in it. Surely GRUB for DOS will build an | |
MBR and partition table for the memdrive (hd0). | |
Update 5: Now GRLDR can be used as a no-emulation-mode bootable CD-ROM | |
boot image. Example for Linux users: | |
mkdir iso_root | |
cp grldr iso_root | |
mkisofs -R -b grldr -no-emul-boot -boot-load-seg 0x1000 -o bootable.iso iso_root | |
As an alternative, grldr can also be used the same way as | |
stage2_eltorito. The -boot-info-table option is allowed but you | |
can omit it: | |
mkdir iso_root | |
cp grldr iso_root | |
mkisofs -R -b grldr -no-emul-boot -boot-load-size 4 -o grldr.iso iso_root | |
Also note that the bootable.iso above must be created with the | |
-boot-load-seg 0xHHHH option where HHHH is greater than or | |
equal to 1000(hex). If HHHH < 1000(hex), QEMU will hang. This | |
is a bug in QEMU. The grldr.iso can be created with or without | |
-boot-load-seg 0xHHHH option. | |
The menu.lst file should be placed in the root dir of the CD. | |
Update 6: The Chinese special build is in the "chinese" subdirectory. | |
(patched by Gandalf, 2005-06-27) | |
The Chinese special build also has scdrom builtin. | |
(update: scdrom has been dropped since 2006-07-20) | |
Update 7: Added memory drive (md). Like (nd) for network drive and (cd) | |
for CD-ROM drive, a new drive (md) is implemented for accessing | |
the whole memory as a disk drive. (md) only works for systems | |
with BIOS int15/EAX=E820h support. | |
The cat command now has a few new options: --hex for hexdump, | |
and --locate=STRING for string search in file. | |
Typical examples: | |
cat --hex (hd0)+1 | |
It will display the MBR sector in hex form. | |
cat --hex (md)+2 | |
It will display 1KB of your memory(in fact, it is the real-mode | |
IDT table), also in hexdump form. | |
cat --hex (md)0x800+1 | |
It will display 1 sector of your extended memory. | |
cat --hex (hd0,0)+1 | |
It will display the first sector of partition (hd0,0). Usually | |
this sector contains the boot record of an operating system. | |
Update 8: Added ram drive (rd). The (md) device accesses the memory | |
starting at physical address 0. But (rd) accesses memory | |
starting at any base address. The base and length of the ram | |
drive can be specified through the map command. "help map" for | |
details. You can even specify the BIOS drive number used for | |
the (rd) drive, e.g., map --ram-drive=0xf0. The default drive | |
number for (rd) is 0x7F which is a floppy. If (rd) is a hard | |
drive image, you should change the drive number to a value | |
greater than or equal to 0x80(but should avoid using 0xffff, | |
because 0xffff is for the (md) device). | |
Update 9: Directly boot NTLDR of WinNT/2K/XP and IO.SYS of Win9x/ME and | |
KERNEL.SYS of FreeDOS. Examples: | |
chainloader --edx=0xPPYY (hd0,0)/ntldr | |
boot | |
chainloader --edx=0xYY (hd0,0)/io.sys | |
boot | |
chainloader --ebx=0xYY (hd0,0)/kernel.sys | |
boot | |
Hex YY specifies the boot drive number, and hex PP specifies | |
the boot partition number of NTLDR. If the boot drive is | |
floppy, PP should be the hex value ff, i.e., decimal 255. | |
For KERNEL.SYS of FreeDOS, the --edx won't work, | |
use --ebx please. | |
The option --edx ( --ebx ) can be omitted if the file is in | |
its normal place. But in some cases, those options are needed. | |
If, e.g., the ntldr file is in an ext2 partition called | |
(hd2,8) while you want it to think of the Windows partition | |
(hd0,7) as the boot partition, then --edx is required: | |
chainloader --edx=0x0780 (hd2,8)/ntldr | |
For DOS kernels(i.e., IO.SYS and KERNEL.SYS), the boot | |
partition number is meaningless, so you only need to specify | |
the correct boot drive number YY(but specifying the boot | |
partition number is harmless). | |
The above PPYY can also be specified by using a root or | |
rootnoverify command after the chainloader command. Examples: | |
chainloader (hd2,6)/kernel.sys | |
rootnoverify (hd0) <-------- YY=80 | |
boot | |
chainloader (hd0,0)/ntldr | |
rootnoverify (hd0,5) <-------- YY=80, PP=05 | |
boot | |
Tip: CMLDR (the ComMand LoaDeR, which is used to load the | |
Windows Fault Recovery Console) can be chainloaded as well | |
as NTLDR. | |
Bean has successfully decompressed and booted IO.SYS of WinME. | |
Thanks for the great job! | |
-------------------------------------------------------- | |
There is no full documentation in English at present. Here are some | |
examples showing the usage of disk emulation commands: | |
1. Emulates HD partition C: as floppy drive A: and boot win98 from C: | |
map --read-only (hd0,0)+1 (fd0) | |
chainloader (hd0,0)+1 | |
rootnoverify (hd0) | |
boot | |
In the above example, (hd0,0) is drive C: with win98 on it. After win98 | |
boot complete, you will find that A: contains all files of C:, and if | |
you delete files in A:, the files in C: will also disappear. | |
At the map command line, the notation (hdm,n)+1 is interpreted to | |
represent the whole partition (hdm,n), not just the first sector of the | |
partition. | |
2. Emulates HD partition C: as floppy drive A: and boot win98 from A: | |
map --read-only (hd0,0)+1 (fd0) | |
map --hook | |
chainloader (fd0)+1 | |
rootnoverify (fd0) | |
map --floppies=1 | |
boot | |
After the "map --hook" command, the emulation takes effect instantly | |
even in the GRUB command line. | |
Note that the (fd0) in "chainloader (fd0)+1" is the emulated virtual | |
floppy A:, not the real floppy diskette(because map is hooked now). | |
3. Emulates an image file as floppy drive A: and boot win98 from C: | |
map --read-only (hd0,0)/floppy.img (fd0) | |
chainloader (hd0,0)+1 | |
rootnoverify (hd0) | |
map --floppies=1 | |
map --harddrives=1 | |
boot | |
4. Emulates an HD partition as the first hard disk and boot DOS from it: | |
map --read-only (hd2,6)+1 (hd0) | |
map --hook | |
chainloader (hd0,0)+1 | |
rootnoverify (hd0) | |
map --harddrives=1 | |
boot | |
In this example, (hd2,6)+1 represents an extended logical DOS partition | |
of the third BIOS hard disk (hd2). | |
If a DOS partition is used to emulate a hard disk, GRUB for DOS will | |
first try to locate the partition table, usually 63 sectors ahead of | |
the DOS partition. GRUB for DOS will refuse the emulation if the | |
partition table is not there. | |
5. Emulates an image file as the first hard disk and boot DOS from it: | |
map --read-only (hd0,0)/harddisk.img (hd0) | |
chainloader --load-length=512 (hd0,0)/harddisk.img | |
rootnoverify (hd0) | |
map --harddrives=1 | |
boot | |
If an image file is used to emulate a hard disk, the image file must | |
contain an MBR. In other word, the first sector of HARDDISK.IMG must | |
contain the partition table of the emulated virtual hard disk. | |
Note: Counters for floppies and harddrives in the BIOS Data Area remain | |
unchanged during the mapping. You should manually set them to proper | |
values with `map --floppies=' and/or `map --harddrives=', especially, | |
e.g., when there is no real floppy drive attached to the mother board. | |
If not doing so, DOS might fail to start. | |
`map --status' can report the values. Note also that `map --floppies=' | |
and `map --harddrives=' can be used independently without the | |
appearance of mappings. | |
0.4.2 has introduced a new variable, memdisk_raw, to simulate the | |
memdisk-like raw mode. If the BIOS has no int15/87h, or if it has | |
buggy int15/87h support, you should set this variable before any | |
memdrives are used. Here is an example: | |
map --memdisk-raw=1 | |
map --mem (hd0,0)/floppy.img (fd0) | |
map --hook | |
chainloader (fd0)+1 | |
rootnoverify (fd0) | |
boot | |
If you encountered a memdrive failure without using | |
map --memdisk-raw=1, you should have a try with `map --memdisk-raw=1'. | |
If you `map --memdisk-raw=0' later, you should afterwards do a | |
`map --unhook'(and followed by a `map --hook' if needed). | |
Update: memdisk_raw now defaults to 1. You should `map --memdisk-raw=0' | |
if you want to use int15/87h to access memdrives. | |
-------------------------------------------------------- | |
Floppies/harddisks of any size can be emulated with GRUB for DOS 0.2.0. | |
Image file must be contiguous, or else GRUB for DOS will refuse it. | |
The `blocklist' command can list fragments or pieces of a file. | |
Type "help map" at the GRUB prompt to get a brief description of the | |
command. | |
The form | |
map ... (fd?) | |
is a floppy emulation, and the form | |
map ... (hd?) | |
is a hard disk emulation. | |
When a HARD DISK emulation is used, better not start Windows for | |
security reasons. Windows may even destroy all data and all information | |
on all your real hard disks!!!!!!!! | |
Update for --mem: when --mem is used, it seems rather safe even after | |
entering Windows. Win98 can operate the memdrive normally. | |
Windows NT/2000/XP does not recognize the emulated drives no matter | |
whether the --mem option is present. | |
****************************************************************************** | |
*** Explanation of the grldr-bootable floppies or harddisk partitions *** | |
****************************************************************************** | |
1. Ext2 Boot Sector/Boot Record Layout (for loading grldr) | |
------------------------------------------------------------------------------ | |
An EXT2/EXT3 volume can be GRUB-bootable. Copy grldr and an optional menu.lst | |
to the root dir of the EXT2/EXT3 volume, and build the boot sector based on the | |
fifth sector of grldr(some fields need to be changed as detailed in the | |
following table). And then the EXT2/EXT3 volume is GRUB-bootable. | |
Update: bootlace.com is a DOS/Linux utility that can install the GRLDR boot | |
record onto the first sector of an EXT2/EXT3 volume. | |
Offset Length Description | |
====== ====== ============================================================== | |
00h 2 Machine code for short jump over the data. | |
02h 1 LBA indicator. Valid values are 0x02 for CHS mode, or 0x42 for | |
LBA mode. | |
If the BIOS int13 supports LBA, this byte can be safely set to | |
0x42. | |
Some USB BIOSes might have bugs when using CHS mode, so the | |
format program should set this byte to 0x42. It seems that | |
(generally) all USB BIOSes have LBA support. | |
If the format program does not know whether the BIOS has LBA | |
support, it may operate this way: | |
if (partition_start + total_sectors_in_partition) exceeds the | |
CHS addressing ability(especially when it is greater than | |
1024*256*63), the caller should set this byte to 0x42, | |
otherwise, set to 0x02. | |
Note that Windows98 uses the value 0x0e as the LBA indicator. | |
Update: this byte of LBA indicator is ignored. The boot | |
record can probe the LBA support of BIOS. | |
03h 10 OEM name string (of OS which formatted the disk). | |
Update: this field is now used for error message of "I/O error" | |
0Dh 1 Sectors per block. Valid values are 2, 4, 8, 16 and 32. | |
0Eh 2 Bytes per block. Valid values are 0x400, 0x800, 0x1000, 0x2000 | |
and 0x4000. | |
10h 4 Pointers in pointers-per-block blocks, that is, number of | |
blocks covered by a double-indirect block. | |
Valid values are 0x10000, 0x40000, 0x100000, 0x400000 and | |
0x1000000. | |
14h 4 Pointers per block, that is, number of blocks covered by an | |
indirect block. | |
Valid values are 0x100, 0x200, 0x400, 0x800, 0x1000. | |
18h 2 Sectors per track. | |
1Ah 2 Number of heads/sides. | |
1Ch 4 Number of hidden sectors (those preceding the boot sector). | |
Also referred to as the starting sector of the partition. | |
For floppies, it should be 0. | |
20h 4 Total number of sectors in the filesystem(or in the partition). | |
24h 1 BIOS drive number of the boot device. | |
Actually this byte is ignored for read. The boot code will | |
write DL onto this byte. The BIOS or the caller should set | |
drive number in DL. | |
We assume all BIOSes pass correct drive number in DL. | |
Buggy BIOSes are not supported!! | |
25h 1 Partition number of this partition on the boot drive. | |
0, 1, 2, 3 are primary partitions. | |
4, 5, 6, ... are logical partitions in the extended partition. | |
0xff is for whole drive. So for floppies, it should be 0xff. | |
26h 2 inode size in bytes. (Notice! We use the formerly reserved | |
word here for inode size!) | |
28h 4 Number of inodes per group. | |
Normally a 1.44M floppy has only one group, and the total | |
number of inodes is 184. So the value should be 184 or | |
greater. | |
2Ch 4 The block number for group descriptors. | |
Valid values are 2 for 1024-byte blocks, and 1 otherwise. | |
The value here is equal to (s_first_data_block + 1). | |
30h 1 code for "cld"(0xFC). | |
31h 2 code for "xor ax,ax"(0x31, 0xC0). | |
33h 1 code for "nop"(0x90) or "cwd"(0x99) | |
34h 458 The rest of the machine code. | |
1FEh 2 Boot Signature AA55h. | |
2. FAT12/FAT16 Boot Sector/Boot Record Layout (for loading grldr) | |
------------------------------------------------------------------------------ | |
A FAT12/16 volume can be GRUB-bootable. Copy grldr and an optional menu.lst to | |
the root dir of the FAT12/16 volume, and build the boot sector based on the | |
fourth sector of grldr(some fields need to be changed as detailed in the | |
following table). And then the FAT12/16 volume is GRUB-bootable. | |
Update: bootlace.com is a DOS/Linux utility that can install the GRLDR boot | |
record onto the boot sector of an FAT12/16 volume. | |
Offset Length Description | |
====== ====== ============================================================== | |
00h 2 Machine code for short jump over the data. | |
02h 1 LBA indicator. Valid values are 0x90 for CHS mode, or 0x0e for | |
LBA mode. | |
If the BIOS int13 supports LBA, this byte can be safely set to | |
0x0e. | |
Some USB BIOSes might have bugs when using CHS mode, so the | |
format program should set this byte to 0x0e. It seems that | |
(generally) all USB BIOSes have LBA support. | |
If the format program does not know whether the BIOS has LBA | |
support, it may operate this way: | |
if (partition_start + total_sectors_in_partition) exceeds the | |
CHS addressing ability(especially when it is greater than | |
1024*256*63), the caller should set this byte to 0x0e, | |
otherwise, set to 0x90. | |
Update: this byte of LBA indicator is ignored. The boot | |
record can probe the LBA support of BIOS. | |
Update(2006-07-31): Though GRLDR won't use this LBA-indicator | |
byte, Windows 98 uses it. Usually this byte should be 0x90 for | |
CHS mode(especially for floppies). If this byte is not set | |
properly, Windows 98 will not recognize the floppy or | |
partition. This problem was reported by neiljoy. Many thanks! | |
03h 8 OEM name string (of OS which formatted the disk). | |
0Bh 2 Bytes per sector. Must be 512. | |
0Dh 1 Sectors per cluster. Valid values are 1, 2, 4, 8, 16, 32, 64 | |
and 128. But a cluster size larger than 32K should not occur. | |
0Eh 2 Reserved sectors(number of sectors before the first FAT, | |
including the boot sector), usually 1. | |
10h 1 Number of FATs(nearly always 2). | |
11h 2 Maximum number of root directory entries. | |
13h 2 Total number of sectors (for small disks only, if the disk is | |
too big this is set to 0 and offset 20h is used instead). | |
15h 1 Media descriptor byte, pretty meaningless now (see below). | |
16h 2 Sectors per FAT. | |
18h 2 Sectors per track. | |
1Ah 2 Total number of heads/sides. | |
1Ch 4 Number of hidden sectors (those preceding the boot sector). | |
Also referred to as the starting sector of the partition. | |
For floppies, it should be 0. | |
20h 4 Total number of sectors for large disks. | |
24h 1 BIOS drive number of the boot device. | |
Actually this byte is ignored for read. The boot code will | |
write DL onto this byte. The BIOS or the caller should set | |
drive number in DL. | |
We assume all BIOSes pass correct drive number in DL. | |
Buggy BIOSes are not supported!! | |
25h 1 Partition number of this filesystem in the boot drive. | |
This byte is ignored for read. The boot code will write | |
partition number onto this byte. See offset 41h below. | |
26h 1 Signature (must be 28h or 29h to be recognised by NT). | |
27h 4 Volume serial number. | |
2Bh 11 Volume label. | |
36h 8 File system ID. "FAT12 ", "FAT16 " or "FAT ". | |
3Eh 1 code for "cli". | |
3Fh 1 code for "cld". | |
40h 1 code for "mov dh, imm8". | |
41h 1 Partition number of this partition on the boot drive. | |
0, 1, 2, 3 are primary partitions. | |
4, 5, 6, ... are logical partitions in the extended partition. | |
0xff is for whole drive. So for floppies, it should be 0xff. | |
42h 442 The rest of the machine code. | |
1FCh 4 Boot Signature AA550000h. (Win9x uses 4 bytes as magic value) | |
3. FAT32 Boot Sector/Boot Record Layout (for loading grldr) | |
------------------------------------------------------------------------------ | |
A FAT32 volume can be GRUB-bootable. Copy grldr and an optional menu.lst to | |
the root dir of the FAT32 volume, and build the boot sector based on the | |
third sector of grldr(some fields need to be changed as detailed in the | |
following table). And then the FAT32 volume is GRUB-bootable. | |
Update: bootlace.com is a DOS/Linux utility that can install the GRLDR boot | |
record onto the boot sector of an FAT32 volume. | |
Offset Length Description | |
====== ====== ============================================================== | |
00h 2 Machine code for short jump over the data. | |
02h 1 LBA indicator. Valid values are 0x90 for CHS mode, or 0x0e for | |
LBA mode. | |
If the BIOS int13 supports LBA, this byte can be safely set to | |
0x0e. | |
Some USB BIOSes might have bugs when using CHS mode, so the | |
format program should set this byte to 0x0e. It seems that | |
(generally) all USB BIOSes have LBA support. | |
If the format program does not know whether the BIOS has LBA | |
support, it may operate this way: | |
if (partition_start + total_sectors_in_partition) exceeds the | |
CHS addressing ability(especially when it is greater than | |
1024*256*63), the caller should set this byte to 0x0e, | |
otherwise, set to 0x90. | |
Update: this byte of LBA indicator is ignored. The boot | |
record can probe the LBA support of BIOS. | |
Update(2006-07-31): Though GRLDR won't use this LBA-indicator | |
byte, Windows 98 uses it. Usually this byte should be 0x90 for | |
CHS mode(especially for floppies). If this byte is not set | |
properly, Windows 98 will not recognize the floppy or | |
partition. This problem was reported by neiljoy. Many thanks! | |
03h 8 OEM name string (of OS which formatted the disk). | |
0Bh 2 Bytes per sector. Must be 512. | |
0Dh 1 Sectors per cluster. Valid values are 1, 2, 4, 8, 16, 32, 64 | |
and 128. But a cluster size larger than 32K should not occur. | |
0Eh 2 Reserved sectors(number of sectors before the first FAT, | |
including the boot sector), usually 1. | |
10h 1 Number of FATs(nearly always 2). | |
11h 2 (Maximum number of root directory entries)Must be 0. | |
13h 2 (Total number of sectors for small disks only)Must be 0. | |
15h 1 Media descriptor byte, pretty meaningless now (see below). | |
16h 2 (Sectors per FAT)Must be 0. | |
18h 2 Sectors per track. | |
1Ah 2 Total number of heads/sides. | |
1Ch 4 Number of hidden sectors (those preceding the boot sector). | |
Also referred to as the starting sector of the partition. | |
For floppies, it should be 0. | |
20h 4 Total number of sectors for large disks. | |
24h 4 FAT32 sectors per FAT. | |
28h 2 If bit 7 is clear then all FATs are updated, otherwise bits | |
0-3 give the current active FAT, all other bits are reserved. | |
2Ah 2 High byte is major revision number, low byte is minor revision | |
number, currently both are 0. | |
2Ch 4 Root directory starting cluster. | |
30h 2 File system information sector. | |
32h 2 If non-zero this gives the sector which holds a copy of the | |
boot record, usually 6. | |
34h 12 Reserved, set to 0. | |
40h 1 BIOS drive number of the boot device. | |
80h is first HDD, 00h is first FDD. | |
Actually this byte is ignored for read. The boot code will | |
write DL onto this byte. The BIOS or the caller should set | |
drive number in DL. | |
We assume all BIOSes pass correct drive number in DL. | |
Buggy BIOSes are not supported!! | |
41h 1 Partition number of this filesystem in the boot drive. | |
This byte is ignored for read. The boot code will write | |
partition number onto this byte. See offset 5Dh below. | |
42h 1 Signature (must be 28h or 29h to be recognised by NT). | |
43h 4 Volume serial number. | |
47h 11 Volume label. | |
52h 8 File system ID. "FAT32 ". | |
5Ah 1 opcode for "cli". | |
5Bh 1 opcode for "cld". | |
5Ch 1 opcode for "mov dh, imm8". | |
5Dh 1 Partition number of this partition on the boot drive. | |
0, 1, 2, 3 are primary partitions. | |
4, 5, 6, ... are logical partitions in the extended partition. | |
0xff is for whole drive. So for floppies, it should be 0xff. | |
5Eh 414 The rest of the machine code. | |
1FCh 4 Boot Signature AA550000h. (Win9x uses 4 bytes as magic value) | |
4. NTFS Boot Sector/Boot Record Layout (for loading grldr) | |
------------------------------------------------------------------------------ | |
An NTFS volume can be GRUB-bootable. Copy grldr and an optional menu.lst to | |
the root dir of the NTFS volume, and build the boot sector based on the | |
6th-9th sectors of grldr(some fields need to be changed as detailed in the | |
following table). And then the NTFS volume is GRUB-bootable. | |
Update: bootlace.com is a DOS/Linux utility that can install the GRLDR boot | |
record onto the leading 4 sectors of an NTFS volume. | |
Offset Length Description | |
====== ====== ============================================================== | |
00h 2 Machine code for short jump over the data. | |
02h 1 LBA indicator. Valid values are 0x90 for CHS mode, or 0x0e for | |
LBA mode. | |
If the BIOS int13 supports LBA, this byte can be safely set to | |
0x0e. | |
Some USB BIOSes might have bugs when using CHS mode, so the | |
format program should set this byte to 0x0e. It seems that | |
(generally) all USB BIOSes have LBA support. | |
If the format program does not know whether the BIOS has LBA | |
support, it may operate this way: | |
if (partition_start + total_sectors_in_partition) exceeds the | |
CHS addressing ability(especially when it is greater than | |
1024*256*63), the caller should set this byte to 0x0e, | |
otherwise, set to 0x90. | |
Update: this byte of LBA indicator is ignored. The boot | |
record can probe the LBA support of BIOS. | |
Update(2006-07-31): Though GRLDR won't use this LBA-indicator | |
byte, Windows 98 uses it. Usually this byte should be 0x90 for | |
CHS mode(especially for floppies). If this byte is not set | |
properly, Windows 98 will not recognize the floppy or | |
partition. This problem was reported by neiljoy. Many thanks! | |
03h 8 OEM name string (of OS which formatted the disk). | |
0Bh 2 Bytes per sector. Must be 512. | |
0Dh 1 Sectors per cluster. Valid values are 1, 2, 4, 8, 16, 32, 64 | |
and 128. But a cluster size larger than 32K should not occur. | |
0Eh 2 (Reserved sectors)Unused. | |
10h 1 (Number of FATs)Must be 0. | |
11h 2 (Maximum number of root directory entries)Must be 0. | |
13h 2 (Total number of sectors for small disks only)Must be 0. | |
15h 1 Media descriptor byte, pretty meaningless now (see below). | |
16h 2 (Sectors per FAT)Must be 0. | |
18h 2 Sectors per track. | |
1Ah 2 Total number of heads/sides. | |
1Ch 4 Number of hidden sectors (those preceding the boot sector). | |
Also referred to as the starting sector of the partition. | |
For floppies, it should be 0. | |
20h 4 (Total number of sectors for large disks)Must be 0. | |
24h 4 (FAT32 sectors per FAT) - Usually 80 00 80 00, A value of | |
80 00 00 00 has been seen on a USB thumb drive which is | |
formatted with NTFS under Windows XP. Note this is removable | |
media and is not partitioned, the drive as a whole is NTFS | |
formatted. | |
28h 8 Number of sectors in the volume. | |
30h 8 LCN of VCN 0 of the $MFT. | |
38h 8 LCN of VCN 0 of the $MFTMirr. | |
40h 4 Clusters per MFT Record. | |
44h 4 Clusters per Index Record. | |
48h 8 Volume serial number. | |
50h 4 Checksum, usually 0. | |
54h 1 opcode for "cli". | |
55h 1 opcode for "cld". | |
56h 1 opcode for "mov dh, imm8". | |
57h 1 Partition number of this partition on the boot drive. | |
0, 1, 2, 3 are primary partitions. | |
4, 5, 6, ... are logical partitions in the extended partition. | |
0xff is for whole drive. So for floppies, it should be 0xff. | |
58h 420 The rest of the machine code in the first sector. | |
1FCh 4 Boot Signature AA550000h. (Win9x uses 4 bytes as magic value) | |
200h 1536 The rest of the machine code in the last 3 sectors. | |
------------------------------------------------------------------------------ | |
Appendix A: File System Information Sector of FAT32(not used by grldr) | |
Offset Length Description | |
====== ====== ============================================================== | |
0h 4 Leading Signature 41615252h. | |
4h 480 Reserved, set to 0. | |
1E4h 4 FSI structure signature 61417272h. | |
1E8h 4 Contains the last known count of free clusters, if this is | |
equal to FFFFFFFFh, then the count is unknown. | |
1ECh 4 Cluster number at which you should begin a search for a free | |
cluster, if this is equal to FFFFFFFFh then the field has not | |
been set. | |
1F0h 12 Reserved, set to 0. | |
1FCh 4 Trailing Signature AA550000h. | |
------------------------------------------------------------------------------ | |
Appendix B: Media Descriptor Byte(not used by grldr) | |
The Media descriptor byte is meaningless because of the duplications, F0h for | |
example. | |
Byte Type of disk Sectors Heads Tracks Capacity | |
---- ------------ ------- ----- ------ -------- | |
FFh 5 1/4" 8 2 40 320KB | |
FEh 5 1/4" 8 1 40 160KB | |
FDh 5 1/4" 9 2 40 360KB | |
FCh 5 1/4" 9 1 40 180KB | |
FBh both 9 2 80 640KB | |
FAh both 9 1 80 320KB | |
F9h 5 1/4" 15 2 80 1200KB | |
F9h 3 1/2" 9 2 80 720KB | |
F0h 3 1/2" 18 2 80 1440KB | |
F0h 3 1/2" 36 2 80 2880KB | |
F8h hard disk NA NA NA NA | |
****************************************************************************** | |
*** grldr.mbr - How to write it to Master Boot Track of the hard disk *** | |
****************************************************************************** | |
grldr.mbr contains code that can be used as Master Boot Record. The code is | |
responsible for searching all partitions for grldr and when found, loading it. | |
Currently supported partition types are: FAT12/FAT16/FAT32, NTFS, EXT2/EXT3. | |
Logical partitions in the extended partition are supported, provided that the | |
extended partition type is Microsoft-compatible. In fact, the Linux extended | |
partition type(0x85) is not fully tested for the search mechanism. | |
How to write GRLDR.MBR to the Master Boot Track of a hard disk? | |
First, read the Windows disk signature and partition information bytes | |
(72 bytes in total, from offset 0x01b8 to 0x01ff of the MBR sector), and put | |
them on the same range from offset 0x01b8 to 0x01ff of the beginning sector of | |
GRLDR.MBR. | |
Optionally, if the MBR in the hard disk is a single sector MBR created by | |
Microsoft FDISK, it may be copied onto the second sector of GRLDR.MBR. | |
The second sector of GRLDR.MBR is called "previous MBR". When GRLDR not found, | |
"previous MBR" will be started. | |
No other steps needed, after all necessary changes stated above have been made, | |
now simply write GRLDR.MBR on to the Master Boot Track. That's all. | |
Note: The Master Boot Track means the first track of the hard drive. | |
Note: The bootstrap code of GRLDR.MBR only finds GRLDR file in the root dir of | |
a partition. You'd better place menu.lst file accompanying with GRLDR(i.e., in | |
the same root dir of the same partition as GRLDR). | |
The filename "grldr" in an ext2 partition must be in lower case letters, and | |
the file type of grldr must be plain regular. Other types, e.g., a symbolic | |
link, won't work. | |
Update: bootlace.com is a DOS/Linux utility for installing grldr.mbr to MBR. | |
The whole grldr.mbr is embedded in the body of the bootlace.com utility, so | |
bootlace.com can be used independently. See below. | |
****************************************************************************** | |
*** grldr.mbr - Details about the control bytes *** | |
****************************************************************************** | |
Six bytes can be used to control the boot process of GRLDR.MBR. | |
Offset Length Description | |
====== ====== ============================================================== | |
02h 1 bit0=1: disable the search for GRLDR on floppy | |
bit0=0: enable the search for GRLDR on floppy | |
bit1=1: disable the boot of PREVIOUS MBR with invalid | |
partition table(usually an OS boot sector) | |
bit1=0: enable the boot of PREVIOUS MBR with invalid | |
partition table(usually an OS boot sector) | |
bit2=1: disable the feature of unconditional entrance to | |
the command-line(See below `--duce') | |
bit2=0: enable the feature of unconditional entrance to | |
the command-line(See below `--duce') | |
bit3=1: disable geometry tune(See below `--chs-no-tune') | |
bit3=0: enable geometry tune(See below `--chs-no-tune') | |
bit4 - bit6: reserved | |
bit7=1: try to boot PREVIOUS MBR after the search for GRLDR | |
bit7=0: try to boot PREVIOUS MBR before the search for GRLDR | |
03h 1 timeout in seconds to wait for a key press. 0xff stands for | |
waiting all the time(endless). | |
04h 2 hot-key code. high byte is scan code, low byte is ASCII code. | |
the default value is 0x3920, which stands for the space bar. | |
if this key is pressed, GRUB will be started prior to the boot | |
of previous MBR. See "int 16 keyboard scan codes" below. | |
06h 1 preferred boot drive number, 0xff for no-drive | |
07h 1 preferred partition number, 0xff for whole drive | |
if the preferred boot drive number is 0xff, the order of the | |
search for GRLDR will be: | |
(hd0,0), (hd0,1), ..., (hd0,L),(L=max partition number) | |
(hd1,0), (hd1,1), ..., (hd1,M),(M=max partition number) | |
... ... ... ... ... ... ... ... | |
(hdX,0), (hdX,1), ..., (hdX,N),(N=max partition number) | |
(X=max harddrive number) | |
(fd0) | |
otherwise, if the preferred boot drive number is Y(not equal to | |
0xff) and the preferred partition number is K, then the order of | |
the search for GRLDR will be: | |
(Y) if K=0xff; or (Y,K) otherwise | |
(hd0,0), (hd0,1), ..., (hd0,L),(L=max partition number) | |
(hd1,0), (hd1,1), ..., (hd1,M),(M=max partition number) | |
... ... ... ... ... ... ... ... | |
(hdX,0), (hdX,1), ..., (hdX,N),(N=max partition number) | |
(X=max harddrive number) | |
(fd0) | |
Note: if Y < 0x80, then (Y) is floppy, else (Y) is harddrive, | |
and (Y,K) is partition number K on harddrive (Y). | |
****************************************************************************** | |
*** bootlace.com - Install GRLDR.MBR bootstrap code to MBR *** | |
****************************************************************************** | |
BOOTLACE.COM installs GRLDR.MBR boot record to the MBR of a harddrive or of a | |
harddrive image file, or to the boot sector of a floppy or a floppy image. | |
Usage: | |
bootlace.com [OPTIONS] DEVICE_OR_FILE | |
OPTIONS: | |
--read-only do everything except the actual write to the | |
specified DEVICE_OR_FILE. | |
--restore-mbr restore the previous mbr. | |
--mbr-no-bpb do not copy BPB in the boot sector of the | |
leading FAT partition to MBR. | |
--no-backup-mbr do not copy the old MBR to the second sector of | |
DEVICE_OR_FILE. | |
--force-backup-mbr force the copy of old MBR to the second sector | |
of DEVICE_OR_FILE. | |
--mbr-enable-floppy enable the search for GRLDR on floppy. | |
--mbr-disable-floppy disable the search for GRLDR on floppy. | |
--mbr-enable-osbr enable the boot of PREVIOUS MBR with invalid | |
partition table(usually an OS boot sector). | |
--mbr-disable-osbr disable the boot of PREVIOUS MBR with invalid | |
partition table(usually an OS boot sector). | |
--duce disable the feature of unconditional entrance | |
to the command-line. | |
Normally one can unconditionally get the | |
command-line console by a keypress of `C', | |
bypassing all config-files(including the | |
preset-menu). This is a security hole. So we | |
need this option to disable the feature. | |
DUCE is for Disable Unconditional Command-line | |
Entrance. | |
--chs-no-tune disable the feature of geometry tune. | |
--boot-prevmbr-first try to boot PREVIOUS MBR before the search for | |
GRLDR. | |
--boot-prevmbr-last try to boot PREVIOUS MBR after the search for | |
GRLDR. | |
--preferred-drive=D preferred boot drive number, 0 <= D < 255. | |
--preferred-partition=P preferred partition number, 0 <= P < 255. | |
--serial-number=SN setup a new serial number for the hard drive. | |
SN must be non-zero. | |
--time-out=T wait T seconds before booting PREVIOUS MBR. if | |
T is 0xff, wait forever. The default is 5. | |
--hot-key=K if the desired key K is pressed, start GRUB | |
before booting PREVIOUS MBR. K is a word | |
value, just as the value in AX register | |
returned from int16/AH=1. The high byte is the | |
scan code and the low byte is ASCII code. The | |
default is 0x3920 for space bar. See "int 16 | |
keyboard scan codes" below. | |
--floppy if DEVICE_OR_FILE is floppy, use this option. | |
--floppy=N if DEVICE_OR_FILE is a partition on a hard | |
drive, use this option. N is used to specify | |
the partition number: 0,1,2 and 3 for the | |
primary partitions, and 4,5,6,... for the | |
logical partitions. | |
--sectors-per-track=S specifies sectors per track for --floppy. | |
1 <= S <= 63, default is 63. | |
--heads=H specifies number of heads for --floppy. | |
1 <= H <= 256, default is 255. | |
--start-sector=B specifies hidden sectors for --floppy=N. | |
--total-sectors=C specifies total sectors for --floppy. | |
default is 0. | |
--lba use lba mode for --floppy. If the floppy BIOS | |
has LBA support, you can specify --lba here. | |
It is assumed that all floppy BIOSes have CHS | |
support. So you would rather specify --chs. | |
If neither --chs nor --lba is specified, then | |
the LBA indicator(i.e., the third byte of the | |
boot sector) will not be touched. | |
--chs use chs mode for --floppy. You should specify | |
--chs if the floppy BIOS does not support LBA. | |
We assume all floppy BIOSes have CHS support. | |
So it is likely you want to specify --chs. | |
If neither --chs nor --lba is specified, then | |
the LBA indicator(i.e., the third byte of the | |
boot sector) will not be touched. | |
--fat12 FAT12 is allowed to be installed for --floppy. | |
--fat16 FAT16 is allowed to be installed for --floppy. | |
--fat32 FAT32 is allowed to be installed for --floppy. | |
--vfat FAT12/16/32 are allowed to be installed for | |
--floppy. | |
--ntfs NTFS is allowed to be installed for --floppy. | |
--ext2 EXT2 is allowed to be installed for --floppy. | |
--install-partition=I Install the boot record onto the boot area of | |
partition number I of the specified hard drive | |
or harddrive image DEVICE_OR_FILE. | |
DEVICE_OR_FILE: Filename of the device or the image file. For DOS, a BIOS drive | |
number(hex 0xHH or decimal DDD) can be used to access the drive. BIOS drive | |
number 0 is for the first floppy, 1 is for the second floppy; 0x80 is for the | |
first hard drive, 0x81 is for the second hard drive, etc. | |
Note: BOOTLACE.COM writes only the boot code to MBR. The boot code needs to | |
load GRLDR as the second(and last) stage of the GRUB boot process. Therefore | |
GRLDR should be copied to the root directory of one of the supported | |
partitions, either before or after a successful execution of BOOTLACE.COM. | |
Currently only partitions with filesystem type of FAT12, FAT16, FAT32, NTFS, | |
EXT2 or EXT3 are supported. | |
Note 2: If DEVICE_OR_FILE is a harddisk device or a harddisk image file, it | |
must contain a valid partition table, otherwise, BOOTLACE.COM will fail. If | |
DEVICE_OR_FILE is a floppy device or a floppy image file, then it must contain | |
a supported filesystem(i.e., either of FAT12/FAT16/FAT32/NTFS/EXT2/EXT3). | |
Note 3: If DEVICE_OR_FILE is a floppy device or a floppy image file, and it | |
was formated EXT2/EXT3, then you should specify --sectors-per-track and | |
--heads explicitly. | |
Important!! If you install GRLDR Boot Record to a floppy or a partition, the | |
floppy or partition will boot solely grldr, and your original | |
IO.SYS(DOS/Win9x/Me) and NTLDR(WinNT/2K/XP) will become unbootable. This is | |
because the original boot record of the floppy or partition was overwritten. | |
There is no such problem when installing GRLDR Boot Record onto the MBR. | |
Update: Some NTLDR/IO.SYS/KERNEL.SYS files can be directly chainloaded in the | |
latest GRUB4DOS. | |
Tip: If the filename begins in a dash(-) or a digit, you may prefix a dirname | |
(./) or (.\) to it. | |
Examples: | |
Installing GRLDR boot code to MBR under Linux: | |
bootlace.com /dev/hda | |
Installing GRLDR boot code to MBR under DOS: | |
bootlace.com 0x80 | |
Installing GRLDR boot code to a harddisk image under DOS or Linux: | |
bootlace.com hd.img | |
Installing GRLDR boot code to floppy under Linux: | |
bootlace.com --floppy --chs /dev/fd0 | |
Installing GRLDR boot code to floppy under DOS: | |
bootlace.com --floppy --chs 0x00 | |
Installing GRLDR boot code to a floppy image under DOS or Linux: | |
bootlace.com --floppy --chs floppy.img | |
BOOTLACE.COM cannot function well under Windows NT/2000/XP/2003. It is expected | |
(and designed) to run under DOS/Win9x and Linux. Update: For image FILES, | |
bootlace.com function well under Windows NT/2000/XP/2003. For devices, | |
bootlace.com will not work under Windows NT/2000/XP/2003 because bootlace.com | |
is a DOS utility and Windows NT/2000/XP/2003 does not allow bootlace.com to | |
access devices. | |
****************************************************************************** | |
*** kexec-tools should be patched for the 1.101 release *** | |
****************************************************************************** | |
The file kexec-tools-1.101-patch is a patch to the kexec-tools-1.101 release. | |
Kexec might fail to load grub.exe without this patch. | |
The home page of kexec-tools is: | |
http://www.xmission.com/~ebiederm/files/kexec/ | |
Note: The Linux kernel should be KEXEC enabled before kexec can be run. | |
!! Important Update !! | |
The patch `kexec-tools-1.101-patch' is not needed now and has been deleted. | |
Even worse, it fails in `kexec -l grub.exe --initrd=imgfile'. So please | |
do not use it any more. | |
****************************************************************************** | |
*** Direct transition to DOS/Win9x from within Linux *** | |
****************************************************************************** | |
By using kexec, we can easily boot into DOS/Win9x from a running Linux system. | |
If WIN98.IMG is a bootable hard-disk image, do as follows: | |
kexec -l grub.exe --initrd=WIN98.IMG --command-line="--config-file=map (rd) (hd0); map --hook; chainloader (hd0)+1; rootnoverify (hd0)" | |
kexec -e | |
If DOS.IMG is a bootable floppy image, do this way: | |
kexec -l grub.exe --initrd=DOS.IMG --command-line="--config-file=map (rd) (fd0); map --hook; chainloader (fd0)+1; rootnoverify (fd0)" | |
kexec -e | |
Note that in this manner, we can boot DOS/Win9x without using a real DOS/Win9x | |
disk. We need no FAT partition but an image file. | |
We have noticed that Linux itself can act as a big boot manager by using kexec | |
and grub.exe. This may be convenient to developers who write installation or | |
bootstrap or initialization programs. | |
Certainly, grub.exe and the bootable disk image can also be loaded by a running | |
GRUB or LILO or syslinux. Examples: | |
1. Loaded by GRUB: | |
kernel (hd0,0)/grub.exe --config-file="map (rd) (fd0); map --hook; chainloader (fd0)+1; rootnoverify (fd0)" | |
initrd (hd0,0)/DOS.IMG | |
boot | |
2. Loaded by LILO: | |
image=/boot/grub.exe | |
label=grub.exe | |
initrd=/boot/DOS.IMG | |
append="--config-file=map (rd) (fd0); map --hook; chainloader (fd0)+1; rootnoverify (fd0)" | |
3. Loaded by SYSLINUX: | |
label grub.exe | |
kernel grub.exe | |
append initrd=DOS.IMG --config-file="map (rd) (fd0); map --hook; chainloader (fd0)+1; rootnoverify (fd0)" | |
Note: If the above `map (rd) (...)' failed, you may use `map (rd)+1 (...)' | |
instead and try again. | |
****************************************************************************** | |
*** Keyboard BIOS Scan Code/ASCII code tables *** | |
****************************************************************************** | |
Keyboard bios scan code and ascii character code tables can be obtained from | |
the web by, for example, googling for "3920 372A 4A2D 4E2B 352F". Here are 2 | |
main results: | |
1. From "http://heim.ifi.uio.no/~stanisls/helppc/scan_codes.html": | |
INT 16 - Keyboard Scan Codes | |
Key Normal Shifted w/Ctrl w/Alt | |
A 1E61 1E41 1E01 1E00 | |
B 3062 3042 3002 3000 | |
C 2E63 2E43 2E03 2E00 | |
D 2064 2044 2004 2000 | |
E 1265 1245 1205 1200 | |
F 2166 2146 2106 2100 | |
G 2267 2247 2207 2200 | |
H 2368 2348 2308 2300 | |
I 1769 1749 1709 1700 | |
J 246A 244A 240A 2400 | |
K 256B 254B 250B 2500 | |
L 266C 264C 260C 2600 | |
M 326D 324D 320D 3200 | |
N 316E 314E 310E 3100 | |
O 186F 184F 180F 1800 | |
P 1970 1950 1910 1900 | |
Q 1071 1051 1011 1000 | |
R 1372 1352 1312 1300 | |
S 1F73 1F53 1F13 1F00 | |
T 1474 1454 1414 1400 | |
U 1675 1655 1615 1600 | |
V 2F76 2F56 2F16 2F00 | |
W 1177 1157 1117 1100 | |
X 2D78 2D58 2D18 2D00 | |
Y 1579 1559 1519 1500 | |
Z 2C7A 2C5A 2C1A 2C00 | |
Key Normal Shifted w/Ctrl w/Alt | |
1 0231 0221 7800 | |
2 0332 0340 0300 7900 | |
3 0433 0423 7A00 | |
4 0534 0524 7B00 | |
5 0635 0625 7C00 | |
6 0736 075E 071E 7D00 | |
7 0837 0826 7E00 | |
8 0938 092A 7F00 | |
9 0A39 0A28 8000 | |
0 0B30 0B29 8100 | |
Key Normal Shifted w/Ctrl w/Alt | |
- 0C2D 0C5F 0C1F 8200 | |
= 0D3D 0D2B 8300 | |
[ 1A5B 1A7B 1A1B 1A00 | |
] 1B5D 1B7D 1B1D 1B00 | |
; 273B 273A 2700 | |
' 2827 2822 | |
` 2960 297E | |
\ 2B5C 2B7C 2B1C 2600 (same as Alt L) | |
, 332C 333C | |
. 342E 343E | |
/ 352F 353F | |
Key Normal Shifted w/Ctrl w/Alt | |
F1 3B00 5400 5E00 6800 | |
F2 3C00 5500 5F00 6900 | |
F3 3D00 5600 6000 6A00 | |
F4 3E00 5700 6100 6B00 | |
F5 3F00 5800 6200 6C00 | |
F6 4000 5900 6300 6D00 | |
F7 4100 5A00 6400 6E00 | |
F8 4200 5B00 6500 6F00 | |
F9 4300 5C00 6600 7000 | |
F10 4400 5D00 6700 7100 | |
F11 8500 8700 8900 8B00 | |
F12 8600 8800 8A00 8C00 | |
Key Normal Shifted w/Ctrl w/Alt | |
BackSpace 0E08 0E08 0E7F 0E00 | |
Del 5300 532E 9300 A300 | |
Down Arrow 5000 5032 9100 A000 | |
End 4F00 4F31 7500 9F00 | |
Enter 1C0D 1C0D 1C0A A600 | |
Esc 011B 011B 011B 0100 | |
Home 4700 4737 7700 9700 | |
Ins 5200 5230 9200 A200 | |
Keypad 5 4C35 8F00 | |
Keypad * 372A 9600 3700 | |
Keypad - 4A2D 4A2D 8E00 4A00 | |
Keypad + 4E2B 4E2B 4E00 | |
Keypad / 352F 352F 9500 A400 | |
Left Arrow 4B00 4B34 7300 9B00 | |
PgDn 5100 5133 7600 A100 | |
PgUp 4900 4939 8400 9900 | |
PrtSc 7200 | |
Right Arrow 4D00 4D36 7400 9D00 | |
SpaceBar 3920 3920 3920 3920 | |
Tab 0F09 0F00 9400 A500 | |
Up Arrow 4800 4838 8D00 9800 | |
- Some key combinations are not available on all systems. The PS/2 | |
includes many that aren't available on the PC, XT and AT. | |
- To retrieve the character from a scan code logical AND the word | |
with 0x00FF. | |
- see INT 16 MAKE CODES | |
2. From "http://www.hoppie.nl/ivan/keycodes.txt": | |
Keystroke Keypress code | |
-------------------------------------------------- | |
Esc 011B | |
1 0231 | |
2 0332 | |
3 0433 | |
4 0534 | |
5 0635 | |
6 0736 | |
7 0837 | |
8 0938 | |
9 0A39 | |
0 0B30 | |
- 0C2D | |
= 0D3D | |
Backspace 0E08 | |
Tab 0F09 | |
q 1071 | |
w 1177 | |
e 1265 | |
r 1372 | |
t 1474 | |
y 1579 | |
u 1675 | |
i 1769 | |
o 186F | |
p 1970 | |
[ 1A5B | |
] 1B5D | |
Enter 1C0D | |
Ctrl ** | |
a 1E61 | |
s 1F73 | |
d 2064 | |
f 2166 | |
g 2267 | |
h 2368 | |
j 246A | |
k 256B | |
l 266C | |
; 273B | |
' 2827 | |
` 2960 | |
Shift ** | |
\ 2B5C | |
z 2C7A | |
x 2D78 | |
c 2E63 | |
v 2F76 | |
b 3062 | |
n 316E | |
m 326D | |
, 332C | |
. 342E | |
/ 352F | |
Gray * 372A | |
Alt ** | |
Space 3920 | |
Caps Lock ** | |
F1 3B00 | |
F2 3C00 | |
F3 3D00 | |
F4 3E00 | |
F5 3F00 | |
F6 4000 | |
F7 4100 | |
F8 4200 | |
F9 4300 | |
F10 4400 | |
F11 8500 | |
F12 8600 | |
Num Lock ** | |
Scroll Lock ** | |
White Home 4700 | |
White Up Arrow 4800 | |
White PgUp 4900 | |
Gray - 4A2D | |
White Left Arrow 4B00 | |
Center Key 4C00 | |
White Right Arrow 4D00 | |
Gray + 4E2B | |
White End 4F00 | |
White Down Arrow 5000 | |
White PgDn 5100 | |
White Ins 5200 | |
White Del 5300 | |
SysReq ** | |
Key 45 [1] 565C | |
Enter (number keypad) 1C0D | |
Gray / 352F | |
PrtSc ** | |
Pause ** | |
Gray Home 4700 | |
Gray Up Arrow 4800 | |
Gray Page Up 4900 | |
Gray Left Arrow 4B00 | |
Gray Right Arrow 4D00 | |
Gray End 4F00 | |
Gray Down Arrow 5000 | |
Gray Page Down 5100 | |
Gray Insert 5200 | |
Gray Delete 5300 | |
Shift Esc 011B | |
! 0221 | |
@ 0340 | |
# 0423 | |
$ 0524 | |
% 0625 | |
^ 075E | |
& 0826 | |
* (white) 092A | |
( 0A28 | |
) 0B29 | |
_ 0C5F | |
+ (white) 0D2B | |
Shift Backspace 0E08 | |
Shift Tab (Backtab) 0F00 | |
Q 1051 | |
W 1157 | |
E 1245 | |
R 1352 | |
T 1454 | |
Y 1559 | |
U 1655 | |
I 1749 | |
O 184F | |
P 1950 | |
{ 1A7B | |
} 1B7D | |
Shift Enter 1C0D | |
Shift Ctrl ** | |
A 1E41 | |
S 1F53 | |
D 2044 | |
F 2146 | |
G 2247 | |
H 2348 | |
J 244A | |
K 254B | |
L 264C | |
: 273A | |
" 2822 | |
~ 297E | |
| 2B7C | |
Z 2C5A | |
X 2D58 | |
C 2E43 | |
V 2F56 | |
B 3042 | |
N 314E | |
M 324D | |
< 333C | |
> 343E | |
? 353F | |
Shift Gray * 372A | |
Shift Alt ** | |
Shift Space 3920 | |
Shift Caps Lock ** | |
Shift F1 5400 | |
Shift F2 5500 | |
Shift F3 5600 | |
Shift F4 5700 | |
Shift F5 5800 | |
Shift F6 5900 | |
Shift F7 5A00 | |
Shift F8 5B00 | |
Shift F9 5C00 | |
Shift F10 5D00 | |
Shift F11 8700 | |
Shift F12 8800 | |
Shift Num Lock ** | |
Shift Scroll Lock ** | |
Shift 7 (number pad) 4737 | |
Shift 8 (number pad) 4838 | |
Shift 9 (number pad) 4939 | |
Shift Gray - 4A2D | |
Shift 4 (number pad) 4B34 | |
Shift 5 (number pad) 4C35 | |
Shift 6 (number pad) 4D36 | |
Shift Gray + 4E2B | |
Shift 1 (number pad) 4F31 | |
Shift 2 (number pad) 5032 | |
Shift 3 (number pad) 5133 | |
Shift 0 (number pad) 5230 | |
Shift . (number pad) 532E | |
Shift SysReq ** | |
Shift Key 45 [1] 567C | |
Shift Enter (number pad) 1C0D | |
Shift Gray / 352F | |
Shift PrtSc ** | |
Shift Pause ** | |
Shift Gray Home 4700 | |
Shift Gray Up Arrow 4800 | |
Shift Gray Page Up 4900 | |
Shift Gray Left Arrow 4B00 | |
Shift Gray Right Arrow 4D00 | |
Shift Gray End 4F00 | |
Shift Gray Down Arrow 5000 | |
Shift Gray Page Down 5100 | |
Shift Gray Insert 5200 | |
Shift Gray Delete 5300 | |
Ctrl Esc 011B | |
Ctrl 1 -- | |
Ctrl 2 (NUL) 0300 | |
Ctrl 3 -- | |
Ctrl 4 -- | |
Ctrl 5 -- | |
Ctrl 6 (RS) 071E | |
Ctrl 7 -- | |
Ctrl 8 -- | |
Ctrl 9 -- | |
Ctrl 0 -- | |
Ctrl - 0C1F | |
Ctrl = -- | |
Ctrl Backspace (DEL) 0E7F | |
Ctrl Tab 9400 | |
Ctrl q (DC1) 1011 | |
Ctrl w (ETB) 1117 | |
Ctrl e (ENQ) 1205 | |
Ctrl r (DC2) 1312 | |
Ctrl t (DC4) 1414 | |
Ctrl y (EM) 1519 | |
Ctrl u (NAK) 1615 | |
Ctrl i (HT) 1709 | |
Ctrl o (SI) 180F | |
Ctrl p (DEL) 1910 | |
Ctrl [ (ESC) 1A1B | |
Ctrl ] (GS) 1B1D | |
Ctrl Enter (LF) 1C0A | |
Ctrl a (SOH) 1E01 | |
Ctrl s (DC3) 1F13 | |
Ctrl d (EOT) 2004 | |
Ctrl f (ACK) 2106 | |
Ctrl g (BEL) 2207 | |
Ctrl h (Backspace) 2308 | |
Ctrl j (LF) 240A | |
Ctrl k (VT) 250B | |
Ctrl l (FF) 260C | |
Ctrl ; -- | |
Ctrl ' -- | |
Ctrl ` -- | |
Ctrl Shift ** | |
Ctrl \ (FS) 2B1C | |
Ctrl z (SUB) 2C1A | |
Ctrl x (CAN) 2D18 | |
Ctrl c (ETX) 2E03 | |
Ctrl v (SYN) 2F16 | |
Ctrl b (STX) 3002 | |
Ctrl n (SO) 310E | |
Ctrl m (CR) 320D | |
Ctrl , -- | |
Ctrl . -- | |
Ctrl / -- | |
Ctrl Gray * 9600 | |
Ctrl Alt ** | |
Ctrl Space 3920 | |
Ctrl Caps Lock -- | |
Ctrl F1 5E00 | |
Ctrl F2 5F00 | |
Ctrl F3 6000 | |
Ctrl F4 6100 | |
Ctrl F5 6200 | |
Ctrl F6 6300 | |
Ctrl F7 6400 | |
Ctrl F8 6500 | |
Ctrl F9 6600 | |
Ctrl F10 6700 | |
Ctrl F11 8900 | |
Ctrl F12 8A00 | |
Ctrl Num Lock -- | |
Ctrl Scroll Lock -- | |
Ctrl White Home 7700 | |
Ctrl White Up Arrow 8D00 | |
Ctrl White PgUp 8400 | |
Ctrl Gray - 8E00 | |
Ctrl White Left Arrow 7300 | |
Ctrl 5 (number pad) 8F00 | |
Ctrl White Right Arrow 7400 | |
Ctrl Gray + 9000 | |
Ctrl White End 7500 | |
Ctrl White Down Arrow 9100 | |
Ctrl White PgDn 7600 | |
Ctrl White Ins 9200 | |
Ctrl White Del 9300 | |
Ctrl SysReq ** | |
Ctrl Key 45 [1] -- | |
Ctrl Enter (number pad) 1C0A | |
Ctrl / (number pad) 9500 | |
Ctrl PrtSc 7200 | |
Ctrl Break 0000 | |
Ctrl Gray Home 7700 | |
Ctrl Gray Up Arrow 8DE0 | |
Ctrl Gray Page Up 8400 | |
Ctrl Gray Left Arrow 7300 | |
Ctrl Gray Right Arrow 7400 | |
Ctrl Gray End 7500 | |
Ctrl Gray Down Arrow 91E0 | |
Ctrl Gray Page Down 7600 | |
Ctrl Gray Insert 92E0 | |
Ctrl Gray Delete 93E0 | |
Alt Esc 0100 | |
Alt 1 7800 | |
Alt 2 7900 | |
Alt 3 7A00 | |
Alt 4 7B00 | |
Alt 5 7C00 | |
Alt 6 7D00 | |
Alt 7 7E00 | |
Alt 8 7F00 | |
Alt 9 8000 | |
Alt 0 8100 | |
Alt - 8200 | |
Alt = 8300 | |
Alt Backspace 0E00 | |
Alt Tab A500 | |
Alt q 1000 | |
Alt w 1100 | |
Alt e 1200 | |
Alt r 1300 | |
Alt t 1400 | |
Alt y 1500 | |
Alt u 1600 | |
Alt i 1700 | |
Alt o 1800 | |
Alt p 1900 | |
Alt [ 1A00 | |
Alt ] 1B00 | |
Alt Enter 1C00 | |
Alt Ctrl ** | |
Alt a 1E00 | |
Alt s 1F00 | |
Alt d 2000 | |
Alt f 2100 | |
Alt g 2200 | |
Alt h 2300 | |
Alt j 2400 | |
Alt k 2500 | |
Alt l 2600 | |
Alt ; 2700 | |
Alt ' 2800 | |
Alt ` 2900 | |
Alt Shift ** | |
Alt \ 2B00 | |
Alt z 2C00 | |
Alt x 2D00 | |
Alt c 2E00 | |
Alt v 2F00 | |
Alt b 3000 | |
Alt n 3100 | |
Alt m 3200 | |
Alt , 3300 | |
Alt . 3400 | |
Alt / 3500 | |
Alt Gray * 3700 | |
Alt Space 3920 | |
Alt Caps Lock ** | |
Alt F1 6800 | |
Alt F2 6900 | |
Alt F3 6A00 | |
Alt F4 6B00 | |
Alt F5 6C00 | |
Alt F6 6D00 | |
Alt F7 6E00 | |
Alt F8 6F00 | |
Alt F9 7000 | |
Alt F10 7100 | |
Alt F11 8B00 | |
Alt F12 8C00 | |
Alt Num Lock ** | |
Alt Scroll Lock ** | |
Alt Gray - 4A00 | |
Alt Gray + 4E00 | |
Alt 7 (number pad) # | |
Alt 8 (number pad) # | |
Alt 9 (number pad) # | |
Alt 4 (number pad) # | |
Alt 5 (number pad) # | |
Alt 6 (number pad) # | |
Alt 1 (number pad) # | |
Alt 2 (number pad) # | |
Alt 3 (number pad) # | |
Alt Del -- | |
Alt SysReq ** | |
Alt Key 45 [1] -- | |
Alt Enter (number pad) A600 | |
Alt / (number pad) A400 | |
Alt PrtSc ** | |
Alt Pause ** | |
Alt Gray Home 9700 | |
Alt Gray Up Arrow 9800 | |
Alt Gray Page Up 9900 | |
Alt Gray Left Arrow 9B00 | |
Alt Gray Right Arrow 9D00 | |
Alt Gray End 9F00 | |
Alt Gray Down Arrow A000 | |
Alt Gray Page Down A100 | |
Alt Gray Insert A200 | |
Alt Gray Delete A300 | |
------------------------------------------------------------------------- | |
Footnotes | |
[1] In the United States, the 101/102-key keyboard is shipped | |
with 101 keys. Overseas versions have an additional key | |
sandwiched between the left Shift key and the Z key. This | |
additional key is identified by IBM (and in this table) as | |
"Key 45." | |
[**] Keys and key combinations marked ** are used by the ROM BIOS | |
but do not put values into the keyboard buffer. | |
[--] Keys and key combinations marked -- are ignored by the ROM | |
BIOS. | |
3. From "http://heim.ifi.uio.no/~stanisls/helppc/make_codes.html": | |
INT 9 - Hardware Keyboard Make/Break Codes | |
Key Make Break Key Make Break | |
Backspace 0E 8E F1 3B BB | |
Caps Lock 3A BA F2 3C BC | |
Enter 1C 9C F3 3D BD | |
Esc 01 81 F4 3E BE | |
Left Alt 38 B8 F7 41 C1 | |
Left Ctrl 1D 9D F5 3F BF | |
Left Shift 2A AA F6 40 C0 | |
Num Lock 45 C5 F8 42 C2 | |
Right Shift 36 B6 F9 43 C3 | |
Scroll Lock 46 C6 F10 44 C4 | |
Space 39 B9 F11 57 D7 | |
Sys Req (AT) 54 D4 F12 58 D8 | |
Tab 0F 8F | |
Keypad Keys Make Break | |
Keypad 0 (Ins) 52 D2 | |
Keypad 1 (End) 4F CF | |
Keypad 2 (Down arrow) 50 D0 | |
Keypad 3 (PgDn) 51 D1 | |
Keypad 4 (Left arrow) 4B CB | |
Keypad 5 4C CC | |
Keypad 6 (Right arrow) 4D CD | |
Keypad 7 (Home) 47 C7 | |
Keypad 8 (Up arrow) 48 C8 | |
Keypad 9 (PgUp) 49 C9 | |
Keypad . (Del) 53 D3 | |
Keypad * (PrtSc) 37 B7 | |
Keypad - 4A CA | |
Keypad + 4E CE | |
Key Make Break Key Make Break | |
A 1E 9E N 31 B1 | |
B 30 B0 O 18 98 | |
C 2E AE P 19 99 | |
D 20 A0 Q 10 90 | |
E 12 92 R 13 93 | |
F 21 A1 S 1F 9F | |
G 22 A2 T 14 94 | |
H 23 A3 U 16 96 | |
I 17 97 V 2F AF | |
J 24 A4 W 11 91 | |
K 25 A5 X 2D AD | |
L 26 A6 Y 15 95 | |
M 32 B2 Z 2C AC | |
Key Make Break Key Make Break | |
1 02 82 - 0C 8C | |
2 03 83 = 0D 8D | |
3 04 84 [ 1A 9A | |
4 05 85 ] 1B 9B | |
5 06 86 ; 27 A7 | |
6 07 87 ' 28 A8 | |
7 08 88 ` 29 A9 | |
8 09 89 \ 2B AB | |
9 0A 8A , 33 B3 | |
0 0B 8B . 34 B4 | |
/ 35 B5 | |
Enhanced Keyboard Keys (101/102 keys) | |
Control Keys Make Break | |
Alt-PrtSc (SysReq) 54 D4 | |
Ctrl-PrtSc E0 37 E0 B7 | |
Enter E0 1C E0 9C | |
PrtSc E0 2A E0 37 E0 B7 E0 AA | |
Right Alt E0 38 E0 B8 | |
Right Ctrl E0 1D E0 9D | |
Shift-PrtSc E0 37 E0 B7 | |
/ E0 35 E0 B5 | |
Pause E1 1D 45 E1 9D C5 (not typematic) | |
Ctrl-Pause (Ctrl-Break) E0 46 E0 C6 (not typematic) | |
- Keys marked as "not typematic" generate one stream of bytes | |
without corresponding break scan code bytes (actually the | |
break codes are part of the make code). | |
Normal Mode or | |
Shift w/Numlock | |
Key Make Break |----- Numlock on ------. | |
Make Break | |
Del E0 53 E0 D3 E0 2A E0 53 E0 D3 E0 AA | |
Down arrow E0 50 E0 D0 E0 2A E0 50 E0 D0 E0 AA | |
End E0 4F E0 CF E0 2A E0 4F E0 CF E0 AA | |
Home E0 47 E0 C7 E0 2A E0 47 E0 C7 E0 AA | |
Ins E0 52 E0 D2 E0 2A E0 52 E0 D2 E0 AA | |
Left arrow E0 4B E0 CB E0 2A E0 4B E0 CB E0 AA | |
PgDn E0 51 E0 D1 E0 2A E0 51 E0 D1 E0 AA | |
PgUp E0 49 E0 C9 E0 2A E0 49 E0 C9 E0 AA | |
Right arrow E0 4D E0 CD E0 2A E0 4D E0 CD E0 AA | |
Up arrow E0 48 E0 C8 E0 2A E0 48 E0 C8 E0 AA | |
Key |--Left Shift Pressed--. |--Right Shift Pressed--. | |
Make Break Make Break | |
Del E0 AA E0 53 E0 D3 E0 2A E0 B6 E0 53 E0 D3 E0 36 | |
Down arrow E0 AA E0 50 E0 D0 E0 2A E0 B6 E0 50 E0 D0 E0 36 | |
End E0 AA E0 4F E0 CF E0 2A E0 B6 E0 4F E0 CF E0 36 | |
Home E0 AA E0 47 E0 C7 E0 2A E0 B6 E0 47 E0 C7 E0 36 | |
Ins E0 AA E0 52 E0 D2 E0 2A E0 B6 E0 52 E0 D2 E0 36 | |
Left arrow E0 AA E0 4B E0 CB E0 2A E0 B6 E0 4B E0 CB E0 36 | |
PgDn E0 AA E0 51 E0 D1 E0 2A E0 B6 E0 51 E0 D1 E0 36 | |
PgUp E0 AA E0 49 E0 C9 E0 2A E0 B6 E0 49 E0 C9 E0 36 | |
Right arrow E0 AA E0 4D E0 CD E0 2A E0 B6 E0 4D E0 CD E0 36 | |
Up arrow E0 AA E0 48 E0 C8 E0 2A E0 B6 E0 48 E0 C8 E0 36 | |
/ E0 AA E0 35 E0 B5 E0 2A E0 B6 E0 35 E0 B5 E0 36 | |
- The PS/2 models have three make/break scan code sets. The first | |
set matches the PC & XT make/break scan code set and is the one | |
listed here. Scan code sets are selected by writing the value F0 | |
to the keyboard via the 8042 (port 60h). The following is a brief | |
description of the scan code sets (see the PS/2 Technical Reference | |
manuals for more information on scan code sets 2 and 3): | |
/ set 1, each key has a base scan code. Some keys generate | |
extra scan codes to generate artificial shift states. This | |
is similar to the standard scan code set used on the PC and XT. | |
/ set 2, each key sends one make scan code and two break scan | |
codes bytes (F0 followed by the make code). This scan code | |
set is available on the IBM AT also. | |
/ set 3, each key sends one make scan code and two break scan | |
codes bytes (F0 followed by the make code) and no keys are | |
altered by Shift/Alt/Ctrl keys. | |
/ typematic scan codes are the same as the make scan code | |
- Some Tandy 1000's do not handle Alt key combinations when multiple | |
shift keys are pressed. The Alt-Shift-H combination loses the Alt. | |
- extended keys like (F11, F12) can only be read with systems that | |
have extended keyboard BIOS support (or INT 9 extensions); to | |
read these special keys on these systems INT 16,10 must be used | |
****************************************************************************** | |
*** GRLDR Error messages *** | |
****************************************************************************** | |
1. Missing MBR-helper. | |
The helper function in the sectors that immediately follow the MBR is | |
not present, or it has been erased by a virus or by Windows XP/Vista. | |
Run the bootlace.com utility to fix the problem. | |
2. Buggy BIOS! | |
Your BIOS is too buggy. It even has no support for INT13/AH=8. | |
No solution except flashing your BIOS. Buggy BIOSes will encounter | |
more and more problems with grub4dos in the future. | |
3. This partition is NTFS but with unknown boot record. Please install | |
Microsoft NTFS boot sectors to this partition correctly, or create an | |
FAT12/16/32 partition and place the same copy of GRLDR and MENU.LST there. | |
The boot record was changed or erased by Microsoft Windows XP Service | |
Pack 2. | |
You may install the old boot record introduced with the original clean | |
Windows 2K/XP. As another solution, you may create an FAT partition | |
for your system, and copy GRLDR and your MENU.LST to its root dir. | |
While the startup code of grldr might fail to load GRLDR in NTFS | |
partitions, it always successfully loads GRLDR in FAT partitions(and | |
even in ext2/ext3 partitions). | |
Note that NTLDR only loads the startup code of grldr(i.e., the leading | |
16 sectors of grldr), not the whole grldr file. | |
Thus, C:\GRLDR must exist(here C: can be NTFS), since it is used for | |
BOOT.INI and NTLDR. If C: is NTFS, X:\GRLDR should exist as well, | |
where X: stands for a certain FAT partition. | |
****************************************************************************** | |
*** Known BIOS bugs *** | |
****************************************************************************** | |
1. Some newer Dell machines have no int13/AH=43h support. You may encounter | |
failure when trying to write-access an emulated disk. | |
Note: This bug is serious! The old "root+setup" installation method | |
(in real mode grub environment) uses INT13 to write the first sector | |
of stage2. It will fail for the buggy DELL machine when stage2 is | |
accessed with LBA mode. | |
2. Some newer machines have no int15/AH=87h support. You may encounter failure | |
when accessing a memdrive. | |
3. Some buggy BIOSes won't boot bootable.iso(See above).(qemu can boot it fine) | |
4. Some BIOSes have no int15/AH=24h(gate A20 control) support. It will | |
encounter problems with GRUB4DOS in the future. | |
5. Some USB BIOSes have a buggy int13/AH=08h function which returns incorrect | |
geometry in CX and DH registers. They will encounter various failure. | |
Note: The int13/AH=08h function call is very important for the normal | |
CHS-mode int13 disk access. If there is no other way to determine the | |
geometry, a USB BIOS programmer should probe the first sector of the | |
USB storage device and give a right geometry for the int13/AH=08h call. | |
A good BIOS programmer should implement EBIOS functions for USB storage | |
devices, especially functions 41h, 42h, 43h and 48h, which are very | |
important for BIOS-based programs or systems such as GRUB and DOS. | |
6. Reports say some newer Dell machines violently destroyed the int0d vector | |
and will cause failure or even hang the machine when running GRUB.EXE | |
from DOS. | |
****************************************************************************** | |
*** Known Problems *** | |
****************************************************************************** | |
1. Running GRUB.EXE from a DOS box of Windows 9x/Me could hang the | |
machine, especially for some systems with USB support. You may | |
encounter the same problem when running GRUB.EXE through KEXEC under | |
Linux. | |
Note: You don't have to run GRUB.EXE from protected mode of Win9x, which | |
could hang the machine; Instead, you usually want to run GRUB.EXE | |
after you have done a "Restart the computer in MS-DOS mode", which | |
is safe enough. | |
2. The default chainloader action will keep A20 on. Some buggy DOS XMS | |
memory managers could hang the machine. You may use the --disable-a20 | |
option in the chainloader line and try again. Anyway, you should avoid | |
using those buggy memory managers. | |
3. THTF BIOS L4S5M Ver 1.1a(dated 2002-1-10) has a buggy int15 which | |
causes hang at the boot of a multi boot kernel(memdisk for example). | |
4. A Chinese DOS system software, the TechWay SCS, will not work with | |
newer versions of GRUB.EXE. In general, TSRs that take antitracking | |
measures will not work with GRUB.EXE any more. | |
****************************************************************************** | |
*** List of binary files and their corresponding source files *** | |
****************************************************************************** | |
binary file main source file other included source or binary files | |
------------- ---------------- ------------------------------------- | |
bootlace.com bootlacestart.S bootlace.inc, grldrstart.S | |
grldr grldrstart.S pre_stage2(binary, See note below) | |
grldr.mbr mbrstart.S grldrstart.S | |
grub.exe dosstart.S pre_stage2(binary, See note below) | |
hmload.com hmloadstart.S | |
----------------------------------------------------------------------------- | |
Note: pre_stage2 is the main body of GNU GRUB and it is simply appended to | |
grldrstart/dosstart in binary format to form our grldr/grub.exe. | |
Note: The GRUB file(WITHOUT .EXE suffix) is a static-linked ELF executable | |
program for Linux, normally called the GRUB Shell. The GRUB Shell is a boot- | |
manager, but not a boot-loader(the "boot" command won't work in GRUB Shell). | |
GRUB.EXE(with KEXEC) can be used as a bootloader running directly under Linux. | |
****************************************************************************** | |
*** Memory Layout for Quiting to DOS from GRUB.EXE *** | |
****************************************************************************** | |
The quit command is implemented to return to DOS in the instance that GRUB.EXE | |
is started off DOS. | |
1. Before GRUB.EXE transfers control to pre_stage2, it will copy 640KB of | |
conventional memory to physical address 0x200000(i.e., 2MB), and write 4 long | |
integers immediately follows the backup copy of the conventional memory: | |
At 0x2A0000: 0x50554B42, it is the "BKUP" signature. | |
At 0x2A0004: Gate A20 status under DOS: non-zero means A20 on; | |
zero means A20 off. Update: A20 always on, see below. | |
At 0x2A0008: high word is boot-CS, low word is boot-IP. The quit | |
command uses this entry point to return to DOS. | |
At 0x2A000C: CheckSum: the sum of all long integers in the memory | |
range from 0x200000 to 0x2A000F is 0. | |
2. If the above memory structure is corrupted by a grub command, the quit | |
command will issue an error message and refuse to exit from grub. | |
3. Because GRUB may corrupt extended memory, you should better avoid using | |
extended memory under DOS before running GRUB.EXE. | |
4. Gate A20 will be enabled by GRUB.EXE. Hopefully this would hurt nothing. | |
****************************************************************************** | |
*** Memory usage in conventional/low memory area *** | |
****************************************************************************** | |
1. boot.c, fsys_reiserfs.c: 8K below 0x68000. | |
2. fsys_ext2fs.c, fsys_minix.c: 1K below 0x68000. | |
3. fsys_jfs.c: 4K + 256 bytes below 0x68000. | |
4. fsys_reiserfs.c: 202 bytes at 0x600. | |
5. fsys_xfs.c: 188 bytes at 0x600. | |
6. fsys_xfs.c: (logical block size) bytes below 0x68000. | |
7. geometry tune: 0x50000 - 0x5ffff. | |
****************************************************************************** | |
*** Command-line Length about GRUB.EXE *** | |
****************************************************************************** | |
GRUB.EXE now can be started in CONFIG.SYS with the **DEVICE** command: | |
DEVICE=grub.exe [--config-file="FILENAME_OR_COMMANDS"] | |
1. If GRUB.EXE is invoked with DEVICE command and FILENAME_OR_COMMANDS is a | |
collection of some GRUB commands separated by semi-colon, then the length of | |
FILENAME_OR_COMMANDS can be nearly 4KB ----Supprise? But true! MS-DOS 7+ | |
even allows a much longer line, but 4KB seems enough for our use of GRUB.EXE. | |
This is very useful when we want to embed a big menu into the command line. | |
Note that GRLDR hasn't yet supported any command-line arguments. | |
2. If GRUB.EXE is invoked with INSTALL command, the option length has a limit | |
of 80 characters(including the leading "--config-file=" part). An overflow may | |
hang up MS-DOS immediately. | |
3. If GRUB.EXE is invoked with SHELL command, the option length has a limit of | |
126 characters(including the leading "--config-file=" part). Overflow won't | |
hang up MS-DOS, but the line will be cut short. This limit is the same as that | |
in the console-DOS-prompt or in a BAT file. | |
4. The DOS editor EDIT does not allow to create a line of 4KB long. So use | |
another editor, for example, vi for Linux, please. | |
5. The DEVICE=GRUB.EXE line can be used together with other DEVICE commands | |
such as DEVICE=HIMEM.SYS and DEVICE=EMM386.EXE. The GRUB.EXE line should | |
occur before the EMM386.EXE line in order to avoid the rejection by EMM386. | |
Update: Since 0.4.2, GRUB.EXE works well even after EMM386.EXE is loaded. | |
6. In any case mentioned above, you can return back to DOS by quit command. | |
7. Memory usage about command-line menu: The 4KB command-line menu starts at | |
physical address 0x0800 and ends at 0x17FF. | |
****************************************************************************** | |
*** New Syntax for the DEFAULT/SAVEDEFAULT Commands *** | |
****************************************************************************** | |
In addition to the original usage of "default NUM" and "default saved", now | |
there is a new usage of "default FILE", like this: | |
default (hd0,0)/default | |
Note that FILE must have a valid DEFAULT file format. A sample DEFAULT file | |
is included in the release. You may copy it to wherever you like, but you | |
should avoid modifying its content manually. The DEFAULT file may be used | |
in this way: | |
(1) First, you should copy a default file with valid format to somewhere in | |
your operating system. | |
(2) Secondly, you should use the "default FILE" command of GRUB to announce | |
the use of FILE as our new default file for being written by "savedefault". | |
(3) Then, you may use "savedefault" command to save the desired entry number | |
into this new default file. | |
(4) OK, at next boot, you may read the saved entry number by using the same | |
"default FILE" command as mentioned in above (2). | |
And the SAVEDEFAULT command now accept an options `--wait=T', like this: | |
savedefault --wait=5 | |
If `--wait=T' is specified and T is non-zero, savedefault will prompt | |
the user with a message just before it writes to disk. The write operation | |
will be cancelled in T seconds if the `Y' key was not pressed. | |
Here is a sample menu.lst file: | |
#--------------------begin menu.lst--------------------------------------- | |
color black/cyan yellow/cyan | |
timeout 30 | |
default /default | |
title find and load NTLDR of Windows NT/2K/XP | |
find --set-root /ntldr | |
chainloader /ntldr | |
savedefault --wait=2 | |
title find and load CMLDR, the Recovery Console of Windows NT/2K/XP | |
fallback 2 | |
find --set-root /cmldr | |
chainloader /cmldr | |
##################################################################### | |
# write string "cmdcons" to memory 0000:7C03 in 2 steps: | |
##################################################################### | |
# step 1. Write 4 chars "cmdc" at 0000:7C03 | |
write 0x7C03 0x63646D63 | |
# step 2. Write 3 chars "ons" and an ending null at 0000:7C07 | |
write 0x7C07 0x00736E6F | |
savedefault --wait=2 | |
title find and load IO.SYS of Windows 9x/Me | |
find --set-root /io.sys | |
chainloader /io.sys | |
savedefault --wait=2 | |
title floppy (fd0) | |
chainloader (fd0)+1 | |
rootnoverify (fd0) | |
savedefault --wait=2 | |
title find and boot Linux with menu.lst already installed | |
find --set-root /sbin/init | |
savedefault --wait=2 | |
configfile /boot/grub/menu.lst | |
title find and boot Mandriva with menu.lst already installed | |
find --set-root /etc/mandriva-release | |
savedefault --wait=2 | |
configfile /boot/grub/menu.lst | |
title back to dos | |
savedefault --wait=2 | |
quit | |
title commandline | |
savedefault --wait=2 | |
commandline | |
title reboot | |
savedefault --wait=2 | |
reboot | |
title halt | |
savedefault --wait=2 | |
halt | |
#--------------------end menu.lst--------------------------------------- | |
Note 1: The file DEFAULT must exist and have a proper format as stated above. | |
Or else, the default/savedefault commands won't function well. | |
Note 2: The file DEFAULT which is in the same dir as a certain MENU.LST file | |
is called associated with the MENU.LST file. | |
Note 3: The associated DEFAULT file will take effect automatically if there | |
are no `default' commands present. | |
Note 4: Just before a menu file gains control(e.g., it is the associated | |
MENU.LST of a GRLDR file, or it was specified via | |
`grub.exe --config-file=(DEVICE)/PATH/YOUR_MENU_FILE', or it was | |
specified by the `configfile' command of grub), its associated | |
DEFAULT file will be used if present, until an explicit `default' | |
command is encountered. | |
****************************************************************************** | |
*** The New `cdrom' Command Syntax *** | |
****************************************************************************** | |
1. Initialize the ATAPI CDROM devices: | |
grub> cdrom --init | |
This will display the number of atapi cdroms found: atapi_dev_count | |
2. Stop the ATAPI CDROM devices: | |
grub> cdrom --stop | |
This will set atapi_dev_count to 0. | |
3. Add IO ports for searching the atapi cdrom devices. For example: | |
grub> cdrom --add-io-ports=0x03F601F0 | |
After running `cdrom --init' and `map --hook', the cdroms can be accessed | |
through devices (cd0), (cd1), ... | |
Note 1: If the system does not fully support the ATAPI CD-ROM specifications, | |
you will encounter failure when trying to access the (cdX) devices. | |
Note 2: After doing a `cdrom --stop', you should do a `map --unhook'. Of | |
course you may `map --hook' again if there are mapped drives. | |
Note 3: After adding IO ports, you should do a `map --unhook' followed by a | |
`cdrom --init' and then followed by a `map --hook'. | |
By default, these ports are used for searching cdroms(so they needn't | |
be added): | |
0x03F601F0, 0x03760170, 0x02F600F0, | |
0x03860180, 0x6F006B00, 0x77007300. | |
Note 4: The BIOS might have offered a cdrom interface. It would be (cd). After | |
`cdrom --init' and `map --hook', we might have our (cd0), (cd1), ... | |
available. It is likely that one of them could access the same media | |
as the BIOS-offered (cd). | |
Note 5: You may access the (cd) and (cdX)'es in the blocklist way. Example: | |
cat --hex (cd0)16+2 | |
The cdrom sectors are big sectors with a size of 2048 bytes. | |
Note 6: The iso9660 filesystem driver has Rock-Ridge extension support, but | |
has no Joliet extension support. So you may encounter failure when | |
you attempt to read files on a Joliet CD. | |
Note 7: The (cd) or (cdX)'es can be booted now. Examples: | |
chainloader (cd) | |
boot | |
chainloader (cd0) | |
boot | |
chainloader (cd1) | |
boot | |
You should already have access to the CD sectors before you can | |
chainload it. | |
****************************************************************************** | |
*** About the New `setvbe' Command *** | |
****************************************************************************** | |
Gerardo Richarte contributed the `setvbe' code and the following comment: | |
New command is `setvbe', and can be used to change the video mode | |
before executing the kernel. | |
For example, you can do | |
setvbe 1024x768x32 | |
this will scan the list of available modes and set it, and | |
automatically append a `video=' option to each subsequent kernel | |
command-line. The appended `video=' option is like this: | |
video=1024x768x32@0xf0000000,4096 | |
where 0xf0000000 is the video framebuffer address as reported by vbe, | |
and 4096 is the size of a scanline in bytes (also as reported by vbe). | |
This is really useful if you want to give some graphics support to your | |
OS, but you don't want to implement any video functionality other than | |
writing a pixel to video memory. | |
****************************************************************************** | |
*** About the DOS utility `hmload' *** | |
****************************************************************************** | |
This program was written by John Cobb (Queen Mary, University of London). | |
John Cobb's note: | |
To make use of the ram drive feature I wrote a program `hmload' to load | |
an arbitrary file to an arbitrary address in high memory. The program | |
is not very sophisticated and relies on XMS to turn on the A20 line. | |
(Also one must be very careful to steer clear of any areas of memory | |
already in use). | |
Under Linux we generated a disk image `dskimg' (with the kernel and | |
Initrd and a partition table). | |
Using this our boot procedure looked something like this: | |
hmload -fdskimg -a128 | |
fixrb | |
<unload network drivers> | |
grub | |
map --ram-drive=0x81 | |
map --rd-base=0x8000000 | |
map --rd-size=0x400000 | |
root (rd,0) | |
kernel /kernel root=/dev/ram0 rw ip=bootp ramdisk_size=32768 ... | |
initrd /initrd | |
boot | |
See http://sysdocs.stu.qmul.ac.uk/sysdocs/Comment/GrubForDOS/ for details. | |
Update 2007-12-05: | |
Now the MAP command can handle gzipped (rd) image. One can use this | |
feature with the hmload utility. For example, | |
step 1. Load the gzipped image under DOS at a relatively low address: | |
hmload -fdskimg.gz -a16 | |
step 2. Unload network drivers. | |
step 3. Run GRUB.EXE. | |
step 4. At the grub prompt, run these commands: | |
map --rd-base=0x1000000 # set rd-base address to be 16M | |
map --rd-size=<the accurate size of dskimg.gz in bytes> | |
map (rd)+1 (hd0) # This will decompress (rd) and place | |
# the decompressed image at the top end | |
# of the extended memory. The (rd)+1 | |
# here has special meaning and stands | |
# for the whole (rd) device. You must | |
# use (rd)+1 instead of (rd). | |
map --hook | |
root (hd0,0) | |
kernel /kernel root=/dev/ram0 rw ip=bootp ramdisk_size=32768 ... | |
initrd /initrd | |
map --unhook | |
map (hd0) (hd0) # Delete the map; this is needed. | |
boot | |
****************************************************************************** | |
*** Notes on the use of stack *** | |
****************************************************************************** | |
The protected-mode and real-mode stack are merged at physical address 0x2000. | |
All functions should use at most 2K stack space(0x1800-0x2000). So each | |
subfunction should use as little stack as possible to avoid stack-overflow. | |
Don't use recursive functions because they could expend too much stack space. | |
The original protected mode stack at 0x68000(expand-down) is free now and can | |
be reused for any purposes. | |
****************************************************************************** | |
*** A bug was found in the CDROM driver *** | |
****************************************************************************** | |
It seems the cdrom must be connected as the master device of an IDE controller. | |
If cdrom is slave, the driver will fail to read the cdrom sectors. Hope someone | |
could fix this problem. | |
****************************************************************************** | |
*** BIOS and the (cd) drive *** | |
****************************************************************************** | |
When BIOS boots a no-emulation-mode bootable CD-ROM, it allocates a BIOS drive | |
number to the CD. If the boot image of the CD-ROM is grldr or stage2_eltorito, | |
then GRUB can access the CD-ROM media through the drive number allocated by | |
BIOS. The device name of the CD-ROM is (cd). | |
BIOS can allocate a BIOS drive number to a no-emulation-mode CDROM even when | |
the CDROM is not bootable. QEMU has done so. At boot time, GRUB4DOS will | |
search drives 0x80-0xFF for a possible no-emulation-mode CDROM drive allocated | |
by BIOS. So if BIOS offered a CDROM interface of int13 EBIOS functions 41h-4Eh, | |
then the (cd) device will be automatically available in GRUB4DOS. | |
****************************************************************************** | |
*** The way of disk emulation changed greatly *** | |
****************************************************************************** | |
The way of disk emulation has changed greatly since 0.4.2 final. Please don't | |
mix newer versions with older versions when disk emulation features are used. | |
The newer versions won't automatically unhook emulations established in a | |
previous grub4dos environment. The GRUB.EXE of an older version will | |
automatically dismiss emulations established earlier, before transferring | |
control to the main grub program(i.e., pre_stage2). | |
****************************************************************************** | |
*** FreeDOS EMM386 v2.26 (2006-08-27) VCPI problem *** | |
****************************************************************************** | |
The VCPI function "AX=DE0Ch - Switch From Protected Mode to V86 Mode" of | |
FreeDOS EMM386 v2.26 was not implemented properly(it always hangs). As an | |
alternative, you can use Microsoft's EMM386 instead. | |
Even while emm386 is running, grub.exe can be started. But if you try to quit | |
to DOS from grub4dos by using the `quit' command, the VCPI function DE0C will | |
be called. If EMM386 is of Microsoft, everything goes ok. If EMM386 is of | |
FreeDOS, the machine will hang. | |
****************************************************************************** | |
*** New options for map were added *** | |
****************************************************************************** | |
Along with 0.4.2 final, there are two new options for the map command. They | |
are --safe-mbr-hook=SMH and --int13-scheme=SCH. Both are related with disk | |
emulation for use(as smoothly as possible) in the Win9x environment. | |
SMH can take either of the two values 0 and 1. By default, SMH is 1. If you | |
encountered problems of disk emulation under Win9x, you may insert a line of | |
map --safe-mbr-hook=0 | |
before the `boot' command and try again. | |
Also SCH may take either 0 or 1 at present. By default, SCH is 1. If you | |
encountered disk emulation problems under Win9x, you may insert a line of | |
map --int13-scheme=0 | |
before the `boot' command and try again. | |
Note by the way. Like --safe-mbr-hook and --int13-scheme, the MAP command has | |
a few other options that are used for setting global variables. They are here: | |
map --floppies=M | |
M can be 0, 1, or 2. MAP will set a proper value at 0040:0010 by using M. | |
map --harddrives=N | |
N can be between 0 and 127(inclusive). MAP will set 0040:0075 to N. | |
map --memdisk-raw=RAW | |
RAW default to 1. If RAW=0, `int15/ah=87h' will be used to access memdrives. | |
map --ram-drive=RD | |
RD default to 0x7F which is a floppy. If the RAM DRIVE is a hard drive image | |
(with partition table in the first sector), you should set RD >= 0x80 and RD | |
< 0xFF. | |
map --rd-base=ADDR | |
map --rd-size=SIZE | |
ADDR specifies the physical base address of the ramdisk image. SIZE specifies | |
the size in bytes of the ramdisk image. ADDR default to 0. SIZE is also default | |
to 0, but a size of 0 means 4GB, not a zero-long disk. The RAM DRIVE can be | |
accessed in the GRUB environment using the (rd) device. | |
****************************************************************************** | |
*** About the new map option --in-situ *** | |
****************************************************************************** | |
--in-situ is used with hard drive images or hardrive partitions. With an | |
in-situ map, we can typically use a logical partition as a primary partition. | |
In-situ map is a whole drive map. It only virtualize the partition table and | |
the number of hidden sectors in the BPB of the DOS Boot Record. | |
While disk emulation may encounter various problems with win9x, the in-situ map | |
works fine with win9x. | |
Note that --in-situ will not change the real partition table. | |
Example: | |
map --in-situ (hd0,4)+1 (hd0) | |
****************************************************************************** | |
*** The PARTNEW Command Syntax *** | |
****************************************************************************** | |
Besides the mappings in the above section, you may instead choose to create a | |
new primary partition with the PARTNEW command. PARTNEW can generate a primary | |
partition entry (in the partition table) for a logical partition. | |
For example, | |
partnew (hd0,3) 0x07 (hd0,4)+1 | |
where the file (hd0,4)+1 stands for the whole partition (hd0,4). This command | |
will create a new primary partition (hd0,3) whose type is 0x07 and whose | |
contents/data is the same as that of the logical partition (hd0,4). | |
Just like a whole logical partition, a contiguous partition image file can | |
also be used with PARTNEW: | |
partnew (hd0,3) 0x00 (hd0,0)/my_partition.img | |
The type 0x00 indicates a type-auto-detection of the image MY_PARTITION.IMG. | |
The above command will create a new primary partition (hd0,3) with a proper | |
type and with contents/data being exactly that of the contiguous file | |
(hd0,0)/my_partition.img. | |
PARTNEW will automatically correct the "hidden sectors" in the BPB and the | |
modification will be permanent. And PARTNEW modifies the partition table | |
permanently. | |
In addition to creating new partition entries, PARTNEW can also be used to | |
delete(erase, or wipe) a primary partition entry. For example, | |
partnew (hd0,3) 0 0 0 | |
which will empty the last entry in the partition table in MBR. Generally, | |
you should use the form of "partnew PARTITION 0 0 0" to erase the entry. | |
Note that only the entry would be erased, and the data stored in the partition | |
will not be touched. | |
****************************************************************************** | |
*** Newly implemented operators `&&' and `||' *** | |
****************************************************************************** | |
This implementation is very simple. It does not handle operator nesting. | |
Usage of `&&': | |
command1 && command2 | |
Description: | |
If command1 returns true, then command2 will be executed. | |
Usage of `||': | |
command1 || command2 | |
Description: | |
If command1 returns false, then command2 will be executed. | |
Examples: | |
is64bit && default 0 | |
is64bit || default 1 | |
****************************************************************************** | |
*** Three new commands is64bit, errnum and errorcheck *** | |
****************************************************************************** | |
is64bit and errnum retrieve the value of is64bit and errnum respectively. | |
errorcheck controls whether or not the error will be handled. By default, | |
errorcheck is on, and menu script execution will stop on error. If errorcheck | |
is off, the script will continue to execute upto a boot command. A boot command | |
will turn the errorcheck on. | |
****************************************************************************** | |
*** Use numeric keys to select a menu entry *** | |
****************************************************************************** | |
If, for example, you intend to goto entry #25, you may press 2 followed by 5. | |
****************************************************************************** | |
*** Use the INSERT key to debug step by step at startup *** | |
****************************************************************************** | |
Some buggy machines could fail to enter grub4dos environment. They might hang | |
or reboot unexpectedly. Press INSERT as quickly as possible on startup, and | |
you can get a chance to single-step the boot process and see how far it can | |
go, and then report bugs. | |
****************************************************************************** | |
*** The debug command syntax has been changed *** | |
****************************************************************************** | |
The DEBUG command now can be used to control the verbosity of command output: | |
debug [ on | off | normal | status | INTEGER ] | |
0 or off for silent | |
1 or normal for normal | |
2 to 0x7FFFFFFF or on for verbose | |
****************************************************************************** | |
*** GRUB4DOS and Windows Vista *** | |
****************************************************************************** | |
First, use the following command to create a boot entry: | |
bcdedit /create /d "GRUB for DOS" /application bootsector | |
The result will look like this: | |
The entry {05d33150-3fde-11dc-a457-00021cf82fb0} was successfully created. | |
The long string {05d33150-3fde-11dc-a457-00021cf82fb0} is the id for this | |
entry. | |
Then, use the following commands to set boot parameters: | |
bcdedit /set {id} device boot | |
bcdedit /set {id} path \grldr.mbr | |
bcdedit /displayorder {id} /addlast | |
Please replace {id} with the actual id returned from the previous command. | |
Finally, copy GRLDR.MBR to C:\ or wherever your boot drive is, and copy GRLDR | |
and menu.lst to the root directory of any FAT16/FAT32/EXT2/NTFS partition. | |
Note: A boot partition should be the active primary partition with BOOTMGR | |
inside. The `device boot' indicates grldr.mbr should be in the boot | |
partition. | |
Lianjiang has written down a script to automate the tasks: | |
@echo off | |
rem by lianjiang | |
cls | |
echo. | |
echo Please run as administrator | |
echo. | |
pause | |
set gname=GRUB for DOS | |
set vid= | |
set timeout=5 | |
bcdedit >bcdtemp.txt | |
type bcdtemp.txt | find "\grldr.mbr" >nul && echo. && echo BCD entry existing, no need to install. && pause && goto exit | |
bcdedit /export "Bcd_Backup" >nul | |
bcdedit /create /d "%gname%" /application bootsector >vid.ini | |
for,/f,"tokens=2 delims={",%%i,In (vid.ini) Do ( | |
set vida=%%i | |
) | |
for,/f,"tokens=1 delims=}",%%i,In ("%vida%") Do ( | |
set vid={%%i} | |
) | |
echo %vid%>vid.ini | |
bcdedit /set %vid% device boot >nul | |
bcdedit /set %vid% path \grldr.mbr >nul | |
bcdedit /displayorder %vid% /addlast >nul | |
bcdedit /timeout %timeout% >nul | |
if exist grldr.mbr copy grldr.mbr %systemdrive%\ /y && goto exit | |
echo. | |
echo Please copy grldr.mbr to %systemdrive%\ | |
echo. | |
pause | |
:exit | |
del bcdtemp.txt >nul | |
------------------------------------------------------------------- | |
Update: Fujianabc pointed out that | |
bcdedit /set %vid% device boot >nul | |
should be changed to | |
bcdedit /set %vid% device partition=%SystemDrive% >nul | |
------------------------------------------------------------------- | |
You still need to copy grldr yourself. | |
Notice: It's possible to modify the BCD entry from a different OS, you just | |
need to specify the location of BCD: | |
bcdedit /store D:\boot\BCD ... | |
Notice: These commands need elevated privileges, they should be used inside | |
cmd.exe which is started with "Run as administrator". | |
Notice: People has reported that some version of Vista doesn't support | |
creating file in C:\ with no extension, even with administrator privileges. | |
This means grldr can't be placed in C:\. You can solve this by either copy | |
grldr to another partition, or rename grldr to something like grub.bin. Please | |
see the following section on how to do this. | |
****************************************************************************** | |
*** How to rename grldr *** | |
****************************************************************************** | |
grldr and grldr.mbr use internal boot file name to decide which file to load, | |
so if you want to change the name, you must also change the embeded setting. | |
You can do this with the help of grubinst, which can be downloaded at: | |
http://download.gna.org/grubutil/ | |
grubinst can generate customized grldr.mbr: | |
grubinst -o -b=mygrldr C:\mygrldr.mbr | |
grubinst can also edit existing grldr/grldr.mbr: | |
grubinst -e -b=mygrldr C:\mygrldr | |
grubinst -e -b=mygrldr C:\mygrldr.mbr | |
In this case, you must use a grubinst that is compatible with the version of | |
grub4dos, otherwise the edit will fail. | |
So, in order to load mygrldr instead of grldr, you can use one of the | |
following methods: | |
1. Use customized grldr.mbr to load mygrldr. In this case, you need to change | |
the embeded boot file name in grldr.mbr. The name of grldr.mbr can be changed | |
at will. | |
2. Use mygrldr directly. In this case, you need to change the embeded boot | |
file name in mygrldr to match its new name. | |
Notice: The boot file name must conform to the 8.3 naming convention. | |
****************************************************************************** | |
*** PXE device *** | |
****************************************************************************** | |
If PXE service is found at startup, GRUB4DOS will create a virtual device | |
(pd), through which files from the tftp server can be accessed. You can setup | |
a diskless boot environment using the following steps: | |
Client side | |
You need to boot from PXE ROM. | |
Server side | |
You need to configure a dhcp server and a tftp server. In the dhcp server, use | |
grldr as boot file. | |
You may also want to load a different menu.lst for different client. GRUB4DOS | |
will scan the following location for configuration file: | |
[/mybootdir]/menu.lst/01-88-99-AA-BB-CC-DD | |
[/mybootdir]/menu.lst/C000025B | |
[/mybootdir]/menu.lst/C000025 | |
[/mybootdir]/menu.lst/C00002 | |
[/mybootdir]/menu.lst/C0000 | |
[/mybootdir]/menu.lst/C000 | |
[/mybootdir]/menu.lst/C00 | |
[/mybootdir]/menu.lst/C0 | |
[/mybootdir]/menu.lst/C | |
[/mybootdir]/menu.lst/default | |
Here, we assume the network card mac for the client machine is | |
88:99:AA:BB:CC:DD, and the ip address is 192.0.2.91 (C000025B). /mybootdir is | |
the directory of the boot file, for example, if boot file is /tftp/grldr, then | |
mybootdir=tftp. | |
If none of the above files is present, grldr will use its embeded menu.lst. | |
This is a menu.lst to illstrate how to use files from the tftp server. | |
title Create ramdisk using map | |
map --mem (pd)/floppy.img (fd0) | |
map --hook | |
rootnoverify (fd0) | |
chainloader (fd0)+1 | |
title Create ramdisk using memdisk | |
kernel (pd)/memdisk | |
initrd (pd)/floppy.img | |
You can see that the menu.lst is very similar to normal disk boot, you just | |
need to replace device like (hd0,0) with (pd). | |
There are some differences between disk device and pxe device: | |
1. You can't list files in the pxe device. | |
2. The blocklist command will not work with a file in the pxe device. | |
3. You must use --mem option if you want to map a file in the pxe device. | |
When you use chainloader to load file from the pxe device, there is a option | |
you can use: | |
chainloader --raw (pd)/BOOT_FILE | |
Option --raw works just like --force, but it load file in one go. This can | |
improve performance in some situation. | |
You can use the pxe command to control the pxe device. | |
1. pxe | |
If used without any parameter, pxe command will display current | |
settings. | |
2. pxe blksize N | |
Set the packet size for tftp transmission. Minimum value is 512, | |
maximum value is 1432. This parameter is used primarily for very old | |
tftp server where packet larger than 512 byte is not supported. | |
3. pxe basedir /dir | |
Set the base directory for files in the tftp server. If | |
pxe basedir /tftp | |
then all files in the pxe device is related to directory /tftp, for | |
example, (pd)/aa.img correspond to /tftp/aa.img in the server. | |
The default value of base directory is the directory of the boot file, | |
for example, if boot file is /tftp/grldr, then default base directory | |
is /tftp. | |
4. pxe keep | |
Keep the PXE stack. The default behaviour of GRUB4DOS is to unload | |
the PXE stack just before it exits. | |
5. pxe unload | |
Unload the PXE stack immediately. | |
****************************************************************************** | |
*** New Feature of Relative Path Support *** | |
****************************************************************************** | |
Use the `root' or `rootnoverify' command to specify the `working directory'. | |
For example: | |
root (hd0,0)/boot/grub | |
This specifies that the working dir is (hd0,0)/boot/grub. So all subsequent | |
filenames of the form "/..." will actually refer to (hd0,0)/boot/grub/... | |
That is to say: | |
cat /menu.lst | |
will be equivalent to | |
cat (hd0,0)/boot/grub/menu.lst | |
****************************************************************************** | |
*** Notation For The Current Root Device *** | |
****************************************************************************** | |
The notation `()' can be used to access the current root device. You may use | |
`find --set-root ...' to set the current root device, but the find command | |
does not set the `working dir' of the root device. In this case you should | |
use `()' to set the working dir after the find command: | |
root ()/boot/grub | |
Update 2008-05-01: | |
FIND can also set the `working directory' now. For example: | |
find --set-root=/tmp /boot/grub/menu.lst | |
It is equivalent to this pair of commands: | |
find --set-root /boot/grub/menu.lst | |
root ()/tmp | |
****************************************************************************** | |
*** The new map option --a20-keep-on *** | |
****************************************************************************** | |
Along with 0.4.3 final, map has a new option --a20-keep-on which is related to | |
A20 control after a memdrive sector access. Usage: | |
map --a20-keep-on=0 | |
It should be used before the "map --hook" command. | |
By default, A20 will be always on after an RAM INT13 sector access. If | |
"map --a20-keep-on=0" is used, the A20 status after the INT13 call will be the | |
same as that before the INT13 call. | |
****************************************************************************** | |
*** The CDROM emulation (virtualization) *** | |
****************************************************************************** | |
The CDROM emulation is sometimes called ISO emulation. Here is an example: | |
map (hd0,0)/myiso.iso (hd32) | |
map --hook | |
chainloader (hd32) | |
boot | |
if myiso.iso is not contiguous and you have enough memory, add a --mem option: | |
map --mem (hd0,0)/myiso.iso (hd32) | |
map --hook | |
chainloader (hd32) | |
boot | |
Note: (hd32) is a grub drive number equivalent to (0xA0). If a virtual drive is | |
specified with a drive number greater than or equal to 0xA0, then it will be | |
treated as a cdrom (i.e., with 2048-byte big sectors). | |
Like normal disk emulations, the CDROM emulation also (mainly) works with | |
real-mode OSes. After a protected-mode OS kernel (such as | |
WinNT/2K/XP/VISTA/LINUX) gains control, the OS would have no ability to access | |
the virtual CDROM through BIOS int13. | |
DOS/Win9x users may google for ELTORITO.SYS and use it in CONFIG.SYS as a | |
device driver for the virtual cdrom. | |
Example usage of eltorito.sys in CONFIG.SYS: | |
device=eltorito.sys /D:oemcd001 | |
Corresponding MSCDEX command which can be placed in AUTOEXEC.BAT: | |
MSCDEX /D:oemcd001 /L:D | |
Due to some bugs found in eltorito.sys, the driver could fail to load. If you | |
encounter such problems, then you may replace (hd32) with (0xFF) for the | |
virtual cdrom drive number and try again. | |
****************************************************************************** | |
*** The New Command CHECKRANGE *** | |
****************************************************************************** | |
Checkrange checks whether or not the return value of a command is in the | |
specified range or ranges. | |
Usage: checkrange RANGE COMMAND | |
Here are some examples for RANGE: | |
3 is a range containing only the number 3 | |
3:3 is equivalent to 3 | |
3:8 is a range containing the numbers 3, 4, 5, 6, 7, 8 | |
3,4,5,6,7,8 is equivalent to 3:8 | |
3:5,6:8 is also equivalent to 3:8 | |
3,4:7,8 is also equivalent to 3:8 | |
Note: You should not insert spaces into a range. | |
Here is an example showing where the checkrange can be used: | |
checkrange 0x05,0x0F,0x85 parttype (hd0,1) || hide (hd0,1) | |
which means: if (hd0,1) is not an extended partition, then hide it. | |
****************************************************************************** | |
*** The New Command TPM *** | |
****************************************************************************** | |
The "tpm --init" uses 512-byte data at 0000:7C00 as buffer to initialise TPM. | |
Before you boot VISTA's BOOTMGR, you might have to use the "tpm --init" | |
command on some machines. Normally you want to issue the "tpm --init" command | |
after a CHAINLOADER command. | |
****************************************************************************** | |
*** Delimitors or comments between titles *** | |
****************************************************************************** | |
It is possible to use titles as delimitors or comments. A title(or menu item) | |
is called unbootable if all of its menu commands are not boot-sensitive. | |
The following commands are boot-sensitive(and others are not boot-sensitive): | |
boot | |
bootp | |
chainloader | |
configfile | |
embed | |
commandline | |
halt | |
install | |
kernel | |
pxe | |
quit | |
reboot | |
setup | |
An unbootable title will be skipped when the user presses the Up Arrow or Down | |
Arrow keys. Even the unbootable menu item can get accessed(and executed) by | |
using the Left Arrow and/or Right Arrow keys. Examples: | |
title This is an UNBOOTABLE entry(so this line is also a comment) | |
pause --wait=0 This title is a comment. Nothing to do. | |
pause --wait=0 You can use non-boot-sensitive commands here | |
pause --wait=0 of any kind and as many as you would like. | |
help | |
help root | |
help chainloader | |
help parttype | |
clear | |
title ------------------------------------------------------------ | |
pause --wait=0 This title is a delimitor. Nothing to do. | |
pause --wait=0 You can use non-boot-sensitive commands here | |
pause --wait=0 of any kind and as many as you would like. | |
clear | |
help | |
help boot | |
title ============================================================ | |
pause --wait=0 This title is a delimitor. Nothing to do. | |
pause --wait=0 You can use non-boot-sensitive commands here | |
pause --wait=0 of any kind and as many as you would like. | |
help | |
clear | |
help pause | |
title ************************************************************ | |
pause --wait=0 This title is a delimitor. Nothing to do. | |
pause --wait=0 You can use non-boot-sensitive commands here | |
pause --wait=0 of any kind and as many as you would like. | |
help kernel | |
help | |
clear | |
Note: An unbootable menu item must contain at least one command. If there | |
are no commands for a title, the title will be simply discarded and disappear. | |
****************************************************************************** | |
*** Bifurcate drives *** | |
****************************************************************************** | |
Some machines apply different actions to a drive between CHS and LBA mode. | |
When you read sectors using standard BIOS call int13/AH=02h, you might find | |
out the drive is a floppy. But when you read sectors using extended BIOS | |
call(EBIOS) int13/AH=42h, you could know the drive is a cdrom. Such a drive | |
is called bifurcate. | |
A bifurcate drive can have two drive numbers: one is the normal BIOS drive | |
number between 00 and FF in hexa, and this drive uses only CHS mode disk | |
access(standard BIOS int13/AH=02h); the other is the normal BIOS drive number | |
(Bitwise) OR'ed by 0x100(i.e., 256 in decimal), and this drive uses only | |
LBA mode disk access(EBIOS int13/AH=42h). For example, if the drive 0x00 | |
(i.e., the first floppy) is bifurcate, then the drive (0x00) uses CHS mode | |
to access its sectors, and the drive (0x100) uses LBA (meaning EBIOS) mode | |
to access its sectors. | |
The geometry command can report the disk access mode for bifurcate drives as | |
BIF instead of the conventional CHS or LBA. | |
Known bifurcate drives. Virtual PC and some real machines are found to create | |
a bifurcate floppy drive when they boot from a floppy-emulation mode bootable | |
cdrom. The "geometry (fd0)" will show | |
drive 0x00(BIF): C/H/S=...Sector Count/Size=.../512 | |
and "geometry (0x100)" will show | |
drive 0x100(BIF): C/H/S=...Sector Count/Size=.../2048 | |
Actually (0x100) can access the whole cdrom, you may "ls (0x100)/" and find | |
your files on the cdrom(not the files inside the booted floppy image). Of | |
course "ls (fd0)/" will list the files inside the booted floppy image. | |
Note that only some (real or virtual) machines have this action, others | |
will not produce bifurcate drives. | |
****************************************************************************** | |
*** GRLDR as PXE boot file *** | |
****************************************************************************** | |
GRLDR can be used as the PXE boot file on a remote/network server. The (pd) | |
device is used to access files on the server. When GRLDR is booted through | |
network, it will use its preset menu as the config file. However, you may use | |
a "pxe detect" command, which acts the same way as PXELINUX: | |
* First, it will search for the config file using the hardware type (using | |
its ARP type code) and address, all in hexadecimal with dash separators; | |
for example, for an Ethernet (ARP type 1) with address 88:99:AA:BB:CC:DD | |
it would search for the filename 01-88-99-AA-BB-CC-DD. | |
* Next, it will search for the config file using its own IP address in | |
upper case hexadecimal, e.g. 192.0.2.91 -> C000025B. If that file is not | |
found, it will remove one hex digit and try again. At last, it will try | |
looking for a file named default (in lower case). As an example, if the | |
boot file name is /mybootdir/grldr, the Ethernet MAC address is | |
88:99:AA:BB:CC:DD and the IP address 192.0.2.91, it will try following | |
files (in that order): | |
/mybootdir/menu.lst/01-88-99-AA-BB-CC-DD | |
/mybootdir/menu.lst/C000025B | |
/mybootdir/menu.lst/C000025 | |
/mybootdir/menu.lst/C00002 | |
/mybootdir/menu.lst/C0000 | |
/mybootdir/menu.lst/C000 | |
/mybootdir/menu.lst/C00 | |
/mybootdir/menu.lst/C0 | |
/mybootdir/menu.lst/C | |
/mybootdir/menu.lst/default | |
You cannot directly map an image file on (pd). You must map it in memory using | |
the --mem option. For example, | |
map --mem (pd)/images/floppy.img (fd0) | |
map --hook | |
chainloader (fd0)+1 | |
rootnoverify (fd0) | |
boot | |
One more example, | |
map --mem (pd)/images/cdimage.iso (0xff) | |
map --hook | |
chainloader (0xff) | |
boot | |
****************************************************************************** | |
*** New program badgrub.exe *** | |
****************************************************************************** | |
The new program badgrub.exe is intended to serve 'bad' machines(typically some | |
DELL models) that cannot run the normal grub.exe. | |
****************************************************************************** | |
*** Conditional find *** | |
****************************************************************************** | |
The new find syntax allows to find a device conditionally. | |
find [OPTIONS] [FILENAME] [CONDITION] | |
CONDITION is a normal grub command which returns TRUE or FALSE. | |
Example 1: | |
find | |
This will list all partitions, all floppies and the (cd). | |
Example 2: | |
find +1 | |
This will list all devices with a known filesystem. | |
Example 3: | |
find checkrange 0xAF parttype | |
This will list all partitions with ID=0xAF. | |
Example 4: | |
find /ntldr checkrange 0x07 parttype | |
This will list all partitions with ID=0x07 and existing /ntldr. | |
****************************************************************************** | |
*** How to build grldr boot images *** | |
****************************************************************************** | |
1. build 1.44M floppy image ext2grldr.img | |
dd if=/dev/zero of=ext2grldr.img bs=512 count=2880 | |
mke2fs ext2grldr.img | |
mkdir ext2tmp | |
mount -o loop ext2grldr.img ext2tmp | |
cp default ext2tmp | |
cp menu.lst ext2tmp | |
cp grldr ext2tmp | |
umount ext2tmp | |
bootlace.com --floppy --chs --sectors-per-track=18 --heads=2 --start-sector=0 --total-sectors=2880 ext2grldr.img | |
2. build 1.44M floppy image fat12grldr.img | |
dd if=/dev/zero of=fat12grldr.img bs=512 count=2880 | |
mkdosfs fat12grldr.img | |
mkdir fat12tmp | |
mount -o loop fat12grldr.img fat12tmp | |
cp default fat12tmp | |
cp menu.lst fat12tmp | |
cp grldr fat12tmp | |
umount fat12tmp | |
bootlace.com --floppy --chs fat12grldr.img | |
3. build iso9660 CDROM image grldr.iso | |
mkdir iso_root | |
cp grldr iso_root | |
cp menu.lst iso_root | |
mkisofs -R -b grldr -no-emul-boot -boot-load-size 4 -o grldr.iso iso_root | |
****************************************************************************** | |
*** Use bootlace.com to install partition boot record *** | |
****************************************************************************** | |
Since bootlace.com has not implemented the --install-partition option, you | |
need to use the already implemented --floppy=PartitionNumber option instead. | |
Hear is a way you might want to follow: | |
Step 1. Get the boot sectors of the partition and save to a file MYPART.TMP. | |
For NTFS, you need to get the beginning 16 sectors. For other type of | |
filesystems, you only need to get one sector, but getting more sectors | |
is also ok. | |
Step 2. Run this: | |
bootlace.com --floppy=Y --sectors-per-track=S --heads=H --start-sector=B --total-sectors=C --vfat --ext2 --ntfs MYPART.TMP | |
where we suppose MYPART.TMP is for (hdX,Y) and the partition number Y | |
should be specified as in the --floppy=Y option. | |
Note that for FAT12/16/32/NTFS partitions, you can omit these options: | |
--sectors-per-track, --heads, --start-sector, --total-sectors, | |
--vfat and --ext2. | |
For NTFS partitions, you must specify --ntfs option. | |
For ext2 partitions, you can omit --vfat, --ntfs and --ext2 options, | |
but other options should be specified. | |
Step 3. Put MYPART.TMP back on to the boot sector(s) of your original partition | |
(hdX,Y). | |
Note: Only a few file systems(FAT12/16/32/NTFS/ext2/ext3) are supported by now. | |
Note2: Under Linux you may directly write the partition. That is to say, Step | |
1 and Step 3 are not needed. Simply use its device name instead of | |
MYPART.TMP. | |
Note3: grubinst has the feature of installing grldr boot code onto a partiton | |
boot area. | |
****************************************************************************** | |
*** Use a single key to select menu item *** | |
****************************************************************************** | |
Some machines have a simplified keyboard. The keyborad might have only the | |
number keys 0 .. 9 plus a few other keys. When the menu displayed, the user | |
can strike a key for 8 times. When the menu handler detects the continuous | |
single keypress, it will assume the user want to use this key to select a menu | |
item and boot. This single key will act as the RIGHT-ARROW key for the user to | |
select a menu item. And 5 seconds later after the user stops the keypress, | |
the selected menu item will automatically boot. Any normal keys can be used as | |
a single key for this purpose, except for a few functional keys like b, e, | |
Enter, etc. Once another key is pressed, the feature of Single-Key-Selection | |
will disappear immediately. | |
****************************************************************************** | |
*** Parameter file for bootlace running under DOS *** | |
****************************************************************************** | |
You may move all or part of the command-line arguments into a file. The file | |
can have multi lines. Just like SPACEs and TABs, the CRs and LFs can also | |
delimit the commandline arguments in the parameter file. | |
Example: | |
bootlace < my_parafile | |
bootlace --read-only my_mbr < my_other_options | |
Note: Pipes do not work. You have to use the input-redirection operator(<). | |
****************************************************************************** | |
*** Use bootlace to create a triple MBR *** | |
****************************************************************************** | |
This is typically used for USB drives, though it also works with hard drives. | |
Steps to create triple MBR: | |
1. Do a fresh FDISK to create a FAT12/16/32 partition starting at sector 95 | |
(in LBA, that is, the begginning sector(MBR) is sector 0). | |
2. Install grldr boot sector onto the boot sector of this partition. See | |
section "Use bootlace.com to install partition boot record" above. | |
3. Get 96 sectors of the drive starting at sector 0(MBR), and save to file | |
MYMBR96.TMP. | |
4. Run bootlace.com: | |
bootlace.com MYMBR96.TMP | |
5. Put MYMBR96.TMP back onto the drive starting at MBR(sector 0). | |
Note: If the drive already has a triple MBR, then bootlace will cancel it | |
and restore the original partition layout. | |
****************************************************************************** | |
*** Use 'pxe detect' in preset-menu *** | |
****************************************************************************** | |
Now the "pxe" command has a new subcommand "detect": | |
pxe detect [BLOCK_SIZE] [MENU_FILE] | |
BLOCK_SIZE specifies the block size for PXE. If it is not specified or it is | |
0, then grub4dos will go through a probing process and get a proper value | |
for data transfer. | |
MENU_FILE specifies the config file on the PXE server. If omitted, a standard | |
config file in the menu.lst sub-dir will gain control. For a description on | |
the config files in the menu.lst sub-dir, please refer to the section | |
"GRLDR as PXE boot file" above. | |
If MENU_FILE starts in a "/", then the MENU_FILE on the PXE server will gain | |
control, else(if MENU_FILE does not start in a "/") no menu will be executed. | |
Normally you want to use a "pxe blksize ..." or a "pxe detect ..." command | |
before you access the (pd) device, since the default blocksize of 512 might | |
not work on your system. | |
****************************************************************************** | |
*** Use 'configfile' in preset-menu *** | |
****************************************************************************** | |
Now the preset menu holds the highest priority. It will gain control prior to | |
the menu.lst on the boot device. If a 'configfile' command occurs in the menu | |
init command group, then control will go to the menu.lst on the boot device. | |