xref: /titanic_50/usr/src/grub/grub-0.97/docs/grub.info-3 (revision cd3e933325e68e23516a196a8fea7f49b1e497c3)
1This is grub.info, produced by makeinfo version 4.0 from grub.texi.
2
3INFO-DIR-SECTION Kernel
4START-INFO-DIR-ENTRY
5* GRUB: (grub).                 The GRand Unified Bootloader
6* grub-install: (grub)Invoking grub-install.    Install GRUB on your drive
7* grub-md5-crypt: (grub)Invoking grub-md5-crypt.        Encrypt a password
8                                                        in MD5 format
9* grub-terminfo: (grub)Invoking grub-terminfo.  Generate a terminfo
10                                                command from a
11                                                terminfo name
12* grub-set-default: (grub)Invoking grub-set-default.    Set a default boot
13                                                        entry
14* mbchk: (grub)Invoking mbchk.  Check for the format of a Multiboot kernel
15END-INFO-DIR-ENTRY
16
17   Copyright (C) 1999,2000,2001,2002,2004 Free Software Foundation, Inc.
18
19   Permission is granted to make and distribute verbatim copies of this
20manual provided the copyright notice and this permission notice are
21preserved on all copies.
22
23   Permission is granted to copy and distribute modified versions of
24this manual under the conditions for verbatim copying, provided also
25that the entire resulting derived work is distributed under the terms
26of a permission notice identical to this one.
27
28   Permission is granted to copy and distribute translations of this
29manual into another language, under the above conditions for modified
30versions.
31
32
33File: grub.info,  Node: install,  Next: ioprobe,  Prev: initrd,  Up: Command-line and menu entry commands
34
35install
36-------
37
38 - Command: install [`--force-lba'] [`--stage2=os_stage2_file']
39          stage1_file [`d'] dest_dev stage2_file [addr] [`p']
40          [config_file] [real_config_file]
41     This command is fairly complex, and you should not use this command
42     unless you are familiar with GRUB. Use `setup' (*note setup::)
43     instead.
44
45     In short, it will perform a full install presuming the Stage 2 or
46     Stage 1.5(1) (*note install-Footnote-1::) is in its final install
47     location.
48
49     In slightly more detail, it will load STAGE1_FILE, validate that
50     it is a GRUB Stage 1 of the right version number, install in it a
51     blocklist for loading STAGE2_FILE as a Stage 2. If the option `d'
52     is present, the Stage 1 will always look for the actual disk
53     STAGE2_FILE was installed on, rather than using the booting drive.
54     The Stage 2 will be loaded at address ADDR, which must be `0x8000'
55     for a true Stage 2, and `0x2000' for a Stage 1.5. If ADDR is not
56     present, GRUB will determine the address automatically. It then
57     writes the completed Stage 1 to the first block of the device
58     DEST_DEV. If the options `p' or CONFIG_FILE are present, then it
59     reads the first block of stage2, modifies it with the values of
60     the partition STAGE2_FILE was found on (for `p') or places the
61     string CONFIG_FILE into the area telling the stage2 where to look
62     for a configuration file at boot time. Likewise, if
63     REAL_CONFIG_FILE is present and STAGE2_FILE is a Stage 1.5, then
64     the Stage 2 CONFIG_FILE is patched with the configuration file
65     name REAL_CONFIG_FILE. This command preserves the DOS BPB (and for
66     hard disks, the partition table) of the sector the Stage 1 is to
67     be installed into.
68
69     *Caution:* Several buggy BIOSes don't pass a booting drive
70     properly when booting from a hard disk drive. Therefore, you will
71     unfortunately have to specify the option `d', whether your Stage2
72     resides at the booting drive or not, if you have such a BIOS. We
73     know these are defective in this way:
74
75
76          Fujitsu LifeBook 400 BIOS version 31J0103A
77
78
79          HP Vectra XU 6/200 BIOS version GG.06.11
80
81     *Caution2:* A number of BIOSes don't return a correct LBA support
82     bitmap even if they do have the support. So GRUB provides a
83     solution to ignore the wrong bitmap, that is, the option
84     `--force-lba'. Don't use this option if you know that your BIOS
85     doesn't have LBA support.
86
87     *Caution3:* You must specify the option `--stage2' in the grub
88     shell, if you cannot unmount the filesystem where your stage2 file
89     resides. The argument should be the file name in your operating
90     system.
91
92
93File: grub.info,  Node: install-Footnotes,  Up: install
94
95   (1) They're loaded the same way, so we will refer to the Stage 1.5
96as a Stage 2 from now on.
97
98
99File: grub.info,  Node: ioprobe,  Next: kernel,  Prev: install,  Up: Command-line and menu entry commands
100
101ioprobe
102-------
103
104 - Command: ioprobe drive
105     Probe I/O ports used for the drive DRIVE. This command will list
106     the I/O ports on the screen. For technical information, *Note
107     Internals::.
108
109
110File: grub.info,  Node: kernel,  Next: lock,  Prev: ioprobe,  Up: Command-line and menu entry commands
111
112kernel
113------
114
115 - Command: kernel [`--type=type'] [`--no-mem-option'] file ...
116     Attempt to load the primary boot image (Multiboot a.out or ELF,
117     Linux zImage or bzImage, FreeBSD a.out, NetBSD a.out, etc.) from
118     FILE. The rest of the line is passed verbatim as the "kernel
119     command-line". Any modules must be reloaded after using this
120     command.
121
122     This command also accepts the option `--type' so that you can
123     specify the kernel type of FILE explicitly. The argument TYPE must
124     be one of these: `netbsd', `freebsd', `openbsd', `linux',
125     `biglinux', and `multiboot'. However, you need to specify it only
126     if you want to load a NetBSD ELF kernel, because GRUB can
127     automatically determine a kernel type in the other cases, quite
128     safely.
129
130     The option `--no-mem-option' is effective only for Linux. If the
131     option is specified, GRUB doesn't pass the option `mem=' to the
132     kernel.  This option is implied for Linux kernels 2.4.18 and newer.
133
134
135File: grub.info,  Node: lock,  Next: makeactive,  Prev: kernel,  Up: Command-line and menu entry commands
136
137lock
138----
139
140 - Command: lock
141     Prevent normal users from executing arbitrary menu entries. You
142     must use the command `password' if you really want this command to
143     be useful (*note password::).
144
145     This command is used in a menu, as shown in this example:
146
147          title This entry is too dangerous to be executed by normal users
148          lock
149          root (hd0,a)
150          kernel /no-security-os
151
152     See also *Note Security::.
153
154
155File: grub.info,  Node: makeactive,  Next: map,  Prev: lock,  Up: Command-line and menu entry commands
156
157makeactive
158----------
159
160 - Command: makeactive
161     Set the active partition on the root disk to GRUB's root device.
162     This command is limited to _primary_ PC partitions on a hard disk.
163
164
165File: grub.info,  Node: map,  Next: md5crypt,  Prev: makeactive,  Up: Command-line and menu entry commands
166
167map
168---
169
170 - Command: map to_drive from_drive
171     Map the drive FROM_DRIVE to the drive TO_DRIVE. This is necessary
172     when you chain-load some operating systems, such as DOS, if such
173     an OS resides at a non-first drive. Here is an example:
174
175          grub> map (hd0) (hd1)
176          grub> map (hd1) (hd0)
177
178     The example exchanges the order between the first hard disk and the
179     second hard disk. See also *Note DOS/Windows::.
180
181
182File: grub.info,  Node: md5crypt,  Next: module,  Prev: map,  Up: Command-line and menu entry commands
183
184md5crypt
185--------
186
187 - Command: md5crypt
188     Prompt to enter a password, and encrypt it in MD5 format. The
189     encrypted password can be used with the command `password' (*note
190     password::). See also *Note Security::.
191
192
193File: grub.info,  Node: module,  Next: modulenounzip,  Prev: md5crypt,  Up: Command-line and menu entry commands
194
195module
196------
197
198 - Command: module file ...
199     Load a boot module FILE for a Multiboot format boot image (no
200     interpretation of the file contents are made, so the user of this
201     command must know what the kernel in question expects). The rest
202     of the line is passed as the "module command-line", like the
203     `kernel' command. You must load a Multiboot kernel image before
204     loading any module. See also *Note modulenounzip::.
205
206
207File: grub.info,  Node: modulenounzip,  Next: pause,  Prev: module,  Up: Command-line and menu entry commands
208
209modulenounzip
210-------------
211
212 - Command: modulenounzip file ...
213     The same as `module' (*note module::), except that automatic
214     decompression is disabled.
215
216
217File: grub.info,  Node: pause,  Next: quit,  Prev: modulenounzip,  Up: Command-line and menu entry commands
218
219pause
220-----
221
222 - Command: pause message ...
223     Print the MESSAGE, then wait until a key is pressed. Note that
224     placing <^G> (ASCII code 7) in the message will cause the speaker
225     to emit the standard beep sound, which is useful when prompting
226     the user to change floppies.
227
228
229File: grub.info,  Node: quit,  Next: reboot,  Prev: pause,  Up: Command-line and menu entry commands
230
231quit
232----
233
234 - Command: quit
235     Exit from the grub shell `grub' (*note Invoking the grub shell::).
236     This command can be used only in the grub shell.
237
238
239File: grub.info,  Node: reboot,  Next: read,  Prev: quit,  Up: Command-line and menu entry commands
240
241reboot
242------
243
244 - Command: reboot
245     Reboot the computer.
246
247
248File: grub.info,  Node: read,  Next: root,  Prev: reboot,  Up: Command-line and menu entry commands
249
250read
251----
252
253 - Command: read addr
254     Read a 32-bit value from memory at address ADDR and display it in
255     hex format.
256
257
258File: grub.info,  Node: root,  Next: rootnoverify,  Prev: read,  Up: Command-line and menu entry commands
259
260root
261----
262
263 - Command: root device [hdbias]
264     Set the current "root device" to the device DEVICE, then attempt
265     to mount it to get the partition size (for passing the partition
266     descriptor in `ES:ESI', used by some chain-loaded boot loaders),
267     the BSD drive-type (for booting BSD kernels using their native
268     boot format), and correctly determine the PC partition where a BSD
269     sub-partition is located. The optional HDBIAS parameter is a
270     number to tell a BSD kernel how many BIOS drive numbers are on
271     controllers before the current one. For example, if there is an
272     IDE disk and a SCSI disk, and your FreeBSD root partition is on
273     the SCSI disk, then use a `1' for HDBIAS.
274
275     See also *Note rootnoverify::.
276
277
278File: grub.info,  Node: rootnoverify,  Next: savedefault,  Prev: root,  Up: Command-line and menu entry commands
279
280rootnoverify
281------------
282
283 - Command: rootnoverify device [hdbias]
284     Similar to `root' (*note root::), but don't attempt to mount the
285     partition. This is useful for when an OS is outside of the area of
286     the disk that GRUB can read, but setting the correct root device
287     is still desired. Note that the items mentioned in `root' above
288     which derived from attempting the mount will _not_ work correctly.
289
290
291File: grub.info,  Node: savedefault,  Next: setup,  Prev: rootnoverify,  Up: Command-line and menu entry commands
292
293savedefault
294-----------
295
296 - Command: savedefault num
297     Save the current menu entry or NUM if specified as a default
298     entry. Here is an example:
299
300          default saved
301          timeout 10
302
303          title GNU/Linux
304          root (hd0,0)
305          kernel /boot/vmlinuz root=/dev/sda1 vga=ext
306          initrd /boot/initrd
307          savedefault
308
309          title FreeBSD
310          root (hd0,a)
311          kernel /boot/loader
312          savedefault
313
314     With this configuration, GRUB will choose the entry booted
315     previously as the default entry.
316
317     You can specify `fallback' instead of a number. Then, next
318     fallback entry is saved. Next fallback entry is chosen from
319     fallback entries. Normally, this will be the first entry in
320     fallback ones.
321
322     See also *Note default:: and *Note Invoking grub-set-default::.
323
324
325File: grub.info,  Node: setup,  Next: testload,  Prev: savedefault,  Up: Command-line and menu entry commands
326
327setup
328-----
329
330 - Command: setup [`--force-lba'] [`--stage2=os_stage2_file']
331          [`--prefix=dir'] install_device [image_device]
332     Set up the installation of GRUB automatically. This command uses
333     the more flexible command `install' (*note install::) in the
334     backend and installs GRUB into the device INSTALL_DEVICE. If
335     IMAGE_DEVICE is specified, then find the GRUB images (*note
336     Images::) in the device IMAGE_DEVICE, otherwise use the current
337     "root device", which can be set by the command `root'. If
338     INSTALL_DEVICE is a hard disk, then embed a Stage 1.5 in the disk
339     if possible.
340
341     The option `--prefix' specifies the directory under which GRUB
342     images are put. If it is not specified, GRUB automatically
343     searches them in `/boot/grub' and `/grub'.
344
345     The options `--force-lba' and `--stage2' are just passed to
346     `install' if specified. *Note install::, for more information.
347
348
349File: grub.info,  Node: testload,  Next: testvbe,  Prev: setup,  Up: Command-line and menu entry commands
350
351testload
352--------
353
354 - Command: testload file
355     Read the entire contents of FILE in several different ways and
356     compare them, to test the filesystem code. The output is somewhat
357     cryptic, but if no errors are reported and the final `i=X,
358     filepos=Y' reading has X and Y equal, then it is definitely
359     consistent, and very likely works correctly subject to a
360     consistent offset error. If this test succeeds, then a good next
361     step is to try loading a kernel.
362
363
364File: grub.info,  Node: testvbe,  Next: uppermem,  Prev: testload,  Up: Command-line and menu entry commands
365
366testvbe
367-------
368
369 - Command: testvbe mode
370     Test the VESA BIOS EXTENSION mode MODE. This command will switch
371     your video card to the graphics mode, and show an endless
372     animation. Hit any key to return. See also *Note vbeprobe::.
373
374
375File: grub.info,  Node: uppermem,  Next: vbeprobe,  Prev: testvbe,  Up: Command-line and menu entry commands
376
377uppermem
378--------
379
380 - Command: uppermem kbytes
381     Force GRUB to assume that only KBYTES kilobytes of upper memory
382     are installed. Any system address range maps are discarded.
383
384     *Caution:* This should be used with great caution, and should only
385     be necessary on some old machines. GRUB's BIOS probe can pick up
386     all RAM on all new machines the author has ever heard of. It can
387     also be used for debugging purposes to lie to an OS.
388
389
390File: grub.info,  Node: vbeprobe,  Prev: uppermem,  Up: Command-line and menu entry commands
391
392vbeprobe
393--------
394
395 - Command: vbeprobe [mode]
396     Probe VESA BIOS EXTENSION information. If the mode MODE is
397     specified, show only the information about MODE. Otherwise, this
398     command lists up available VBE modes on the screen. See also *Note
399     testvbe::.
400
401
402File: grub.info,  Node: Troubleshooting,  Next: Invoking the grub shell,  Prev: Commands,  Up: Top
403
404Error messages reported by GRUB
405*******************************
406
407   This chapter describes error messages reported by GRUB when you
408encounter trouble. *Note Invoking the grub shell::, if your problem is
409specific to the grub shell.
410
411* Menu:
412
413* Stage1 errors::               Errors reported by the Stage 1
414* Stage1.5 errors::             Errors reported by the Stage 1.5
415* Stage2 errors::               Errors reported by the Stage 2
416
417
418File: grub.info,  Node: Stage1 errors,  Next: Stage1.5 errors,  Up: Troubleshooting
419
420Errors reported by the Stage 1
421==============================
422
423   The general way that the Stage 1 handles errors is to print an error
424string and then halt. Pressing `<CTRL>-<ALT>-<DEL>' will reboot.
425
426   The following is a comprehensive list of error messages for the
427Stage 1:
428
429Hard Disk Error
430     The stage2 or stage1.5 is being read from a hard disk, and the
431     attempt to determine the size and geometry of the hard disk failed.
432
433Floppy Error
434     The stage2 or stage1.5 is being read from a floppy disk, and the
435     attempt to determine the size and geometry of the floppy disk
436     failed. It's listed as a separate error since the probe sequence
437     is different than for hard disks.
438
439Read Error
440     A disk read error happened while trying to read the stage2 or
441     stage1.5.
442
443Geom Error
444     The location of the stage2 or stage1.5 is not in the portion of
445     the disk supported directly by the BIOS read calls.  This could
446     occur because the BIOS translated geometry has been changed by the
447     user or the disk is moved to another machine or controller after
448     installation, or GRUB was not installed using itself (if it was,
449     the Stage 2 version of this error would have been seen during that
450     process and it would not have completed the install).
451
452
453File: grub.info,  Node: Stage1.5 errors,  Next: Stage2 errors,  Prev: Stage1 errors,  Up: Troubleshooting
454
455Errors reported by the Stage 1.5
456================================
457
458   The general way that the Stage 1.5 handles errors is to print an
459error number in the form `Error NUM' and then halt. Pressing
460`<CTRL>-<ALT>-<DEL>' will reboot.
461
462   The error numbers correspond to the errors reported by Stage 2.
463*Note Stage2 errors::.
464
465
466File: grub.info,  Node: Stage2 errors,  Prev: Stage1.5 errors,  Up: Troubleshooting
467
468Errors reported by the Stage 2
469==============================
470
471   The general way that the Stage 2 handles errors is to abort the
472operation in question, print an error string, then (if possible) either
473continue based on the fact that an error occurred or wait for the user
474to deal with the error.
475
476   The following is a comprehensive list of error messages for the
477Stage 2 (error numbers for the Stage 1.5 are listed before the colon in
478each description):
479
4801 : Filename must be either an absolute filename or blocklist
481     This error is returned if a file name is requested which doesn't
482     fit the syntax/rules listed in the *Note Filesystem::.
483
4842 : Bad file or directory type
485     This error is returned if a file requested is not a regular file,
486     but something like a symbolic link, directory, or FIFO.
487
4883 : Bad or corrupt data while decompressing file
489     This error is returned if the run-length decompression code gets an
490     internal error. This is usually from a corrupt file.
491
4924 : Bad or incompatible header in compressed file
493     This error is returned if the file header for a supposedly
494     compressed file is bad.
495
4965 : Partition table invalid or corrupt
497     This error is returned if the sanity checks on the integrity of the
498     partition table fail. This is a bad sign.
499
5006 : Mismatched or corrupt version of stage1/stage2
501     This error is returned if the install command points to
502     incompatible or corrupt versions of the stage1 or stage2. It can't
503     detect corruption in general, but this is a sanity check on the
504     version numbers, which should be correct.
505
5067 : Loading below 1MB is not supported
507     This error is returned if the lowest address in a kernel is below
508     the 1MB boundary. The Linux zImage format is a special case and
509     can be handled since it has a fixed loading address and maximum
510     size.
511
5128 : Kernel must be loaded before booting
513     This error is returned if GRUB is told to execute the boot sequence
514     without having a kernel to start.
515
5169 : Unknown boot failure
517     This error is returned if the boot attempt did not succeed for
518     reasons which are unknown.
519
52010 : Unsupported Multiboot features requested
521     This error is returned when the Multiboot features word in the
522     Multiboot header requires a feature that is not recognized. The
523     point of this is that the kernel requires special handling which
524     GRUB is probably unable to provide.
525
52611 : Unrecognized device string
527     This error is returned if a device string was expected, and the
528     string encountered didn't fit the syntax/rules listed in the *Note
529     Filesystem::.
530
53112 : Invalid device requested
532     This error is returned if a device string is recognizable but does
533     not fall under the other device errors.
534
53513 : Invalid or unsupported executable format
536     This error is returned if the kernel image being loaded is not
537     recognized as Multiboot or one of the supported native formats
538     (Linux zImage or bzImage, FreeBSD, or NetBSD).
539
54014 : Filesystem compatibility error, cannot read whole file
541     Some of the filesystem reading code in GRUB has limits on the
542     length of the files it can read. This error is returned when the
543     user runs into such a limit.
544
54515 : File not found
546     This error is returned if the specified file name cannot be found,
547     but everything else (like the disk/partition info) is OK.
548
54916 : Inconsistent filesystem structure
550     This error is returned by the filesystem code to denote an internal
551     error caused by the sanity checks of the filesystem structure on
552     disk not matching what it expects. This is usually caused by a
553     corrupt filesystem or bugs in the code handling it in GRUB.
554
55517 : Cannot mount selected partition
556     This error is returned if the partition requested exists, but the
557     filesystem type cannot be recognized by GRUB.
558
55918 : Selected cylinder exceeds maximum supported by BIOS
560     This error is returned when a read is attempted at a linear block
561     address beyond the end of the BIOS translated area. This generally
562     happens if your disk is larger than the BIOS can handle (512MB for
563     (E)IDE disks on older machines or larger than 8GB in general).
564
56519 : Linux kernel must be loaded before initrd
566     This error is returned if the initrd command is used before
567     loading a Linux kernel.
568
56920 : Multiboot kernel must be loaded before modules
570     This error is returned if the module load command is used before
571     loading a Multiboot kernel. It only makes sense in this case
572     anyway, as GRUB has no idea how to communicate the presence of
573     such modules to a non-Multiboot-aware kernel.
574
57521 : Selected disk does not exist
576     This error is returned if the device part of a device- or full
577     file name refers to a disk or BIOS device that is not present or
578     not recognized by the BIOS in the system.
579
58022 : No such partition
581     This error is returned if a partition is requested in the device
582     part of a device- or full file name which isn't on the selected
583     disk.
584
58523 : Error while parsing number
586     This error is returned if GRUB was expecting to read a number and
587     encountered bad data.
588
58924 : Attempt to access block outside partition
590     This error is returned if a linear block address is outside of the
591     disk partition. This generally happens because of a corrupt
592     filesystem on the disk or a bug in the code handling it in GRUB
593     (it's a great debugging tool).
594
59525 : Disk read error
596     This error is returned if there is a disk read error when trying to
597     probe or read data from a particular disk.
598
59926 : Too many symbolic links
600     This error is returned if the link count is beyond the maximum
601     (currently 5), possibly the symbolic links are looped.
602
60327 : Unrecognized command
604     This error is returned if an unrecognized command is entered on the
605     command-line or in a boot sequence section of a configuration file
606     and that entry is selected.
607
60828 : Selected item cannot fit into memory
609     This error is returned if a kernel, module, or raw file load
610     command is either trying to load its data such that it won't fit
611     into memory or it is simply too big.
612
61329 : Disk write error
614     This error is returned if there is a disk write error when trying
615     to write to a particular disk. This would generally only occur
616     during an install of set active partition command.
617
61830 : Invalid argument
619     This error is returned if an argument specified to a command is
620     invalid.
621
62231 : File is not sector aligned
623     This error may occur only when you access a ReiserFS partition by
624     block-lists (e.g. the command `install'). In this case, you should
625     mount the partition with the `-o notail' option.
626
62732 : Must be authenticated
628     This error is returned if you try to run a locked entry. You should
629     enter a correct password before running such an entry.
630
63133 : Serial device not configured
632     This error is returned if you try to change your terminal to a
633     serial one before initializing any serial device.
634
63534 : No spare sectors on the disk
636     This error is returned if a disk doesn't have enough spare space.
637     This happens when you try to embed Stage 1.5 into the unused
638     sectors after the MBR, but the first partition starts right after
639     the MBR or they are used by EZ-BIOS.
640
641
642File: grub.info,  Node: Invoking the grub shell,  Next: Invoking grub-install,  Prev: Troubleshooting,  Up: Top
643
644Invoking the grub shell
645***********************
646
647   This chapter documents the grub shell `grub'. Note that the grub
648shell is an emulator; it doesn't run under the native environment, so it
649sometimes does something wrong. Therefore, you shouldn't trust it too
650much. If there is anything wrong with it, don't hesitate to try the
651native GRUB environment, especially when it guesses a wrong map between
652BIOS drives and OS devices.
653
654* Menu:
655
656* Basic usage::                 How to use the grub shell
657* Installation under UNIX::     How to install GRUB via `grub'
658* Device map::                  The map between BIOS drives and OS devices
659
660
661File: grub.info,  Node: Basic usage,  Next: Installation under UNIX,  Up: Invoking the grub shell
662
663Introduction into the grub shell
664================================
665
666   You can use the command `grub' for installing GRUB under your
667operating systems and for a testbed when you add a new feature into GRUB
668or when fixing a bug. `grub' is almost the same as the Stage 2, and, in
669fact, it shares the source code with the Stage 2 and you can use the
670same commands (*note Commands::) in `grub'. It is emulated by replacing
671BIOS calls with UNIX system calls and libc functions.
672
673   The command `grub' accepts the following options:
674
675`--help'
676     Print a summary of the command-line options and exit.
677
678`--version'
679     Print the version number of GRUB and exit.
680
681`--verbose'
682     Print some verbose messages for debugging purpose.
683
684`--device-map=FILE'
685     Use the device map file FILE. The format is described in *Note
686     Device map::.
687
688`--no-floppy'
689     Do not probe any floppy drive. This option has no effect if the
690     option `--device-map' is specified (*note Device map::).
691
692`--probe-second-floppy'
693     Probe the second floppy drive. If this option is not specified,
694     the grub shell does not probe it, as that sometimes takes a long
695     time. If you specify the device map file (*note Device map::), the
696     grub shell just ignores this option.
697
698`--config-file=FILE'
699     Read the configuration file FILE instead of `/boot/grub/menu.lst'.
700     The format is the same as the normal GRUB syntax. See *Note
701     Filesystem::, for more information.
702
703`--boot-drive=DRIVE'
704     Set the stage2 BOOT_DRIVE to DRIVE. This argument should be an
705     integer (decimal, octal or hexadecimal).
706
707`--install-partition=PAR'
708     Set the stage2 INSTALL_PARTITION to PAR. This argument should be
709     an integer (decimal, octal or hexadecimal).
710
711`--no-config-file'
712     Do not use the configuration file even if it can be read.
713
714`--no-curses'
715     Do not use the screen handling interface by the curses even if it
716     is available.
717
718`--batch'
719     This option has the same meaning as `--no-config-file --no-curses'.
720
721`--read-only'
722     Disable writing to any disk.
723
724`--hold'
725     Wait until a debugger will attach. This option is useful when you
726     want to debug the startup code.
727
728
729File: grub.info,  Node: Installation under UNIX,  Next: Device map,  Prev: Basic usage,  Up: Invoking the grub shell
730
731How to install GRUB via `grub'
732==============================
733
734   The installation procedure is the same as under the "native" Stage
7352. *Note Installation::, for more information. The command
736`grub'-specific information is described here.
737
738   What you should be careful about is "buffer cache". `grub' makes use
739of raw devices instead of filesystems that your operating systems
740serve, so there exists a potential problem that some cache
741inconsistency may corrupt your filesystems. What we recommend is:
742
743   * If you can unmount drives to which GRUB may write any amount of
744     data, unmount them before running `grub'.
745
746   * If a drive cannot be unmounted but can be mounted with the
747     read-only flag, mount it in read-only mode. That should be secure.
748
749   * If a drive must be mounted with the read-write flag, make sure
750     that no activity is being done on it while the command `grub' is
751     running.
752
753   * Reboot your operating system as soon as possible. This is probably
754     not required if you follow the rules above, but reboot is the most
755     secure way.
756
757   In addition, enter the command `quit' when you finish the
758installation. That is _very important_ because `quit' makes the buffer
759cache consistent. Do not push <C-c>.
760
761   If you want to install GRUB non-interactively, specify `--batch'
762option in the command-line. This is a simple example:
763
764     #!/bin/sh
765
766     # Use /usr/sbin/grub if you are on an older system.
767     /sbin/grub --batch <<EOT 1>/dev/null 2>/dev/null
768     root (hd0,0)
769     setup (hd0)
770     quit
771     EOT
772
773
774File: grub.info,  Node: Device map,  Prev: Installation under UNIX,  Up: Invoking the grub shell
775
776The map between BIOS drives and OS devices
777==========================================
778
779   When you specify the option `--device-map' (*note Basic usage::),
780the grub shell creates the "device map file" automatically unless it
781already exists. The file name `/boot/grub/device.map' is preferred.
782
783   If the device map file exists, the grub shell reads it to map BIOS
784drives to OS devices. This file consists of lines like this:
785
786     DEVICE FILE
787
788   DEVICE is a drive specified in the GRUB syntax (*note Device
789syntax::), and FILE is an OS file, which is normally a device file.
790
791   The reason why the grub shell gives you the device map file is that
792it cannot guess the map between BIOS drives and OS devices correctly in
793some environments. For example, if you exchange the boot sequence
794between IDE and SCSI in your BIOS, it gets the order wrong.
795
796   Thus, edit the file if the grub shell makes a mistake. You can put
797any comments in the file if needed, as the grub shell assumes that a
798line is just a comment if the first character is `#'.
799
800
801File: grub.info,  Node: Invoking grub-install,  Next: Invoking grub-md5-crypt,  Prev: Invoking the grub shell,  Up: Top
802
803Invoking grub-install
804*********************
805
806   The program `grub-install' installs GRUB on your drive using the
807grub shell (*note Invoking the grub shell::). You must specify the
808device name on which you want to install GRUB, like this:
809
810     grub-install INSTALL_DEVICE
811
812   The device name INSTALL_DEVICE is an OS device name or a GRUB device
813name.
814
815   `grub-install' accepts the following options:
816
817`--help'
818     Print a summary of the command-line options and exit.
819
820`--version'
821     Print the version number of GRUB and exit.
822
823`--force-lba'
824     Force GRUB to use LBA mode even for a buggy BIOS. Use this option
825     only if your BIOS doesn't work properly in LBA mode even though it
826     supports LBA mode.
827
828`--root-directory=DIR'
829     Install GRUB images under the directory DIR instead of the root
830     directory. This option is useful when you want to install GRUB
831     into a separate partition or a removable disk. Here is an example
832     in which you have a separate "boot" partition which is mounted on
833     `/boot':
834
835          grub-install --root-directory=/boot hd0
836
837`--grub-shell=FILE'
838     Use FILE as the grub shell. You can append arbitrary options to
839     FILE after the file name, like this:
840
841          grub-install --grub-shell="grub --read-only" /dev/fd0
842
843`--recheck'
844     Recheck the device map, even if `/boot/grub/device.map' already
845     exists. You should use this option whenever you add/remove a disk
846     into/from your computer.
847
848
849File: grub.info,  Node: Invoking grub-md5-crypt,  Next: Invoking grub-terminfo,  Prev: Invoking grub-install,  Up: Top
850
851Invoking grub-md5-crypt
852***********************
853
854   The program `grub-md5-crypt' encrypts a password in MD5 format.
855This is just a frontend of the grub shell (*note Invoking the grub
856shell::). Passwords encrypted by this program can be used with the
857command `password' (*note password::).
858
859   `grub-md5-crypt' accepts the following options:
860
861`--help'
862     Print a summary of the command-line options and exit.
863
864`--version'
865     Print the version information and exit.
866
867`--grub-shell=FILE'
868     Use FILE as the grub shell.
869
870
871File: grub.info,  Node: Invoking grub-terminfo,  Next: Invoking grub-set-default,  Prev: Invoking grub-md5-crypt,  Up: Top
872
873Invoking grub-terminfo
874**********************
875
876   The program `grub-terminfo' generates a terminfo command from a
877terminfo name (*note terminfo::). The result can be used in the
878configuration file, to define escape sequences. Because GRUB assumes
879that your terminal is vt100-compatible by default, this would be useful
880only if your terminal is uncommon (such as vt52).
881
882   `grub-terminfo' accepts the following options:
883
884`--help'
885     Print a summary of the command-line options and exit.
886
887`--version'
888     Print the version information and exit.
889
890   You must specify one argument to this command. For example:
891
892     grub-terminfo vt52
893
894
895File: grub.info,  Node: Invoking grub-set-default,  Next: Invoking mbchk,  Prev: Invoking grub-terminfo,  Up: Top
896
897Invoking grub-set-default
898*************************
899
900   The program `grub-set-default' sets the default boot entry for GRUB.
901This automatically creates a file named `default' under your GRUB
902directory (i.e. `/boot/grub'), if it is not present. This file is used
903to determine the default boot entry when GRUB boots up your system when
904you use `default saved' in your configuration file (*note default::),
905and to save next default boot entry when you use `savedefault' in a
906boot entry (*note savedefault::).
907
908   `grub-set-default' accepts the following options:
909
910`--help'
911     Print a summary of the command-line options and exit.
912
913`--version'
914     Print the version information and exit.
915
916`--root-directory=DIR'
917     Use the directory DIR instead of the root directory (i.e. `/') to
918     define the location of the default file. This is useful when you
919     mount a disk which is used for another system.
920
921   You must specify a single argument to `grub-set-default'. This
922argument is normally the number of a default boot entry. For example,
923if you have this configuration file:
924
925     default saved
926     timeout 10
927
928     title GNU/Hurd
929     root (hd0,0)
930     ...
931
932     title GNU/Linux
933     root (hd0,1)
934     ...
935
936   and if you want to set the next default boot entry to GNU/Linux, you
937may execute this command:
938
939     grub-set-default 1
940
941   Because the entry for GNU/Linux is `1'. Note that entries are
942counted from zero. So, if you want to specify GNU/Hurd here, then you
943should specify `0'.
944
945   This feature is very useful if you want to test a new kernel or to
946make your system quite robust. *Note Making your system robust::, for
947more hints about how to set up a robust system.
948
949
950File: grub.info,  Node: Invoking mbchk,  Next: Obtaining and Building GRUB,  Prev: Invoking grub-set-default,  Up: Top
951
952Invoking mbchk
953**************
954
955   The program `mbchk' checks for the format of a Multiboot kernel. We
956recommend using this program before booting your own kernel by GRUB.
957
958   `mbchk' accepts the following options:
959
960`--help'
961     Print a summary of the command-line options and exit.
962
963`--version'
964     Print the version number of GRUB and exit.
965
966`--quiet'
967     Suppress all normal output.
968
969
970File: grub.info,  Node: Obtaining and Building GRUB,  Next: Reporting bugs,  Prev: Invoking mbchk,  Up: Top
971
972How to obtain and build GRUB
973****************************
974
975     *Caution:* GRUB requires binutils-2.9.1.0.23 or later because the
976     GNU assembler has been changed so that it can produce real 16bits
977     machine code between 2.9.1 and 2.9.1.0.x. See
978     `http://sources.redhat.com/binutils/', to obtain information on
979     how to get the latest version.
980
981   GRUB is available from the GNU alpha archive site
982`ftp://alpha.gnu.org/gnu/grub' or any of its mirrors. The file will be
983named grub-version.tar.gz. The current version is 0.95, so the file you
984should grab is:
985
986   `ftp://alpha.gnu.org/gnu/grub/grub-0.95.tar.gz'
987
988   To unbundle GRUB use the instruction:
989
990     zcat grub-0.95.tar.gz | tar xvf -
991
992   which will create a directory called `grub-0.95' with all the
993sources. You can look at the file `INSTALL' for detailed instructions
994on how to build and install GRUB, but you should be able to just do:
995
996     cd grub-0.95
997     ./configure
998     make install
999
1000   This will install the grub shell `grub' (*note Invoking the grub
1001shell::), the Multiboot checker `mbchk' (*note Invoking mbchk::), and
1002the GRUB images. This will also install the GRUB manual.
1003
1004   Also, the latest version is available from the CVS. See
1005`http://savannah.gnu.org/cvs/?group=grub' for more information.
1006
1007
1008File: grub.info,  Node: Reporting bugs,  Next: Future,  Prev: Obtaining and Building GRUB,  Up: Top
1009
1010Reporting bugs
1011**************
1012
1013   These are the guideline for how to report bugs. Take a look at this
1014list below before you submit bugs:
1015
1016  1. Before getting unsettled, read this manual through and through.
1017     Also, see the GNU GRUB FAQ
1018     (http://www.gnu.org/software/grub/grub-faq.html).
1019
1020  2. Always mention the information on your GRUB. The version number
1021     and the configuration are quite important. If you build it
1022     yourself, write the options specified to the configure script and
1023     your operating system, including the versions of gcc and binutils.
1024
1025  3. If you have trouble with the installation, inform us of how you
1026     installed GRUB. Don't omit error messages, if any. Just `GRUB hangs
1027     up when it boots' is not enough.
1028
1029     The information on your hardware is also essential. These are
1030     especially important: the geometries and the partition tables of
1031     your hard disk drives and your BIOS.
1032
1033  4. If GRUB cannot boot your operating system, write down _everything_
1034     you see on the screen. Don't paraphrase them, like `The foo OS
1035     crashes with GRUB, even though it can boot with the bar boot
1036     loader just fine'. Mention the commands you executed, the messages
1037     printed by them, and information on your operating system
1038     including the version number.
1039
1040  5. Explain what you wanted to do. It is very useful to know your
1041     purpose and your wish, and how GRUB didn't satisfy you.
1042
1043  6. If you can investigate the problem yourself, please do. That will
1044     give you and us much more information on the problem. Attaching a
1045     patch is even better.
1046
1047     When you attach a patch, make the patch in unified diff format, and
1048     write ChangeLog entries. But, even when you make a patch, don't
1049     forget to explain the problem, so that we can understand what your
1050     patch is for.
1051
1052  7. Write down anything that you think might be related. Please
1053     understand that we often need to reproduce the same problem you
1054     encounterred in our environment. So your information should be
1055     sufficient for us to do the same thing--Don't forget that we
1056     cannot see your computer directly. If you are not sure whether to
1057     state a fact or leave it out, state it!  Reporting too many things
1058     is much better than omitting something important.
1059
1060   If you follow the guideline above, submit a report to the Bug
1061Tracking System (http://savannah.gnu.org/bugs/?group=grub).
1062Alternatively, you can submit a report via electronic mail to
1063<bug-grub@gnu.org>, but we strongly recommend that you use the Bug
1064Tracking System, because e-mail can be passed over easily.
1065
1066   Once we get your report, we will try to fix the bugs.
1067
1068
1069File: grub.info,  Node: Future,  Next: Internals,  Prev: Reporting bugs,  Up: Top
1070
1071Where GRUB will go
1072******************
1073
1074   We started the next generation of GRUB, GRUB 2. This will include
1075internationalization, dynamic module loading, real memory management,
1076multiple architecture support, a scripting language, and many other
1077nice feature. If you are interested in the development of GRUB 2, take
1078a look at the homepage (http://www.gnu.org/software/grub/grub.html).
1079
1080
1081File: grub.info,  Node: Internals,  Next: Index,  Prev: Future,  Up: Top
1082
1083Hacking GRUB
1084************
1085
1086   This chapter documents the user-invisible aspect of GRUB.
1087
1088   As a general rule of software development, it is impossible to keep
1089the descriptions of the internals up-to-date, and it is quite hard to
1090document everything. So refer to the source code, whenever you are not
1091satisfied with this documentation.  Please assume that this gives just
1092hints to you.
1093
1094* Menu:
1095
1096* Memory map::                  The memory map of various components
1097* Embedded data::               Embedded variables in GRUB
1098* Filesystem interface::        The generic interface for filesystems
1099* Command interface::           The generic interface for built-ins
1100* Bootstrap tricks::            The bootstrap mechanism used in GRUB
1101* I/O ports detection::         How to probe I/O ports used by INT 13H
1102* Memory detection::            How to detect all installed RAM
1103* Low-level disk I/O::          INT 13H disk I/O interrupts
1104* MBR::                         The structure of Master Boot Record
1105* Partition table::             The format of partition tables
1106* Submitting patches::          Where and how you should send patches
1107
1108
1109File: grub.info,  Node: Memory map,  Next: Embedded data,  Up: Internals
1110
1111The memory map of various components
1112====================================
1113
1114   GRUB consists of two distinct components, called "stages", which are
1115loaded at different times in the boot process. Because they run
1116mutual-exclusively, sometimes a memory area overlaps with another
1117memory area. And, even in one stage, a single memory area can be used
1118for various purposes, because their usages are mutually exclusive.
1119
1120   Here is the memory map of the various components:
1121
11220 to 4K-1
1123     BIOS and real mode interrupts
1124
11250x07BE to 0x07FF
1126     Partition table passed to another boot loader
1127
1128down from 8K-1
1129     Real mode stack
1130
11310x2000 to ?
1132     The optional Stage 1.5 is loaded here
1133
11340x2000 to 0x7FFF
1135     Command-line buffer for Multiboot kernels and modules
1136
11370x7C00 to 0x7DFF
1138     Stage 1 is loaded here by BIOS or another boot loader
1139
11400x7F00 to 0x7F42
1141     LBA drive parameters
1142
11430x8000 to ?
1144     Stage2 is loaded here
1145
1146The end of Stage 2 to 416K-1
1147     Heap, in particular used for the menu
1148
1149down from 416K-1
1150     Protected mode stack
1151
1152416K to 448K-1
1153     Filesystem buffer
1154
1155448K to 479.5K-1
1156     Raw device buffer
1157
1158479.5K to 480K-1
1159     512-byte scratch area
1160
1161480K to 512K-1
1162     Buffers for various functions, such as password, command-line, cut
1163     and paste, and completion.
1164
1165The last 1K of lower memory
1166     Disk swapping code and data
1167
1168   See the file `stage2/shared.h', for more information.
1169
1170
1171File: grub.info,  Node: Embedded data,  Next: Filesystem interface,  Prev: Memory map,  Up: Internals
1172
1173Embedded variables in GRUB
1174==========================
1175
1176   Stage 1 and Stage 2 have embedded variables whose locations are
1177well-defined, so that the installation can patch the binary file
1178directly without recompilation of the stages.
1179
1180   In Stage 1, these are defined:
1181
1182`0x3E'
1183     The version number (not GRUB's, but the installation mechanism's).
1184
1185`0x40'
1186     The boot drive. If it is 0xFF, use a drive passed by BIOS.
1187
1188`0x41'
1189     The flag for if forcing LBA.
1190
1191`0x42'
1192     The starting address of Stage 2.
1193
1194`0x44'
1195     The first sector of Stage 2.
1196
1197`0x48'
1198     The starting segment of Stage 2.
1199
1200`0x1FE'
1201     The signature (`0xAA55').
1202
1203   See the file `stage1/stage1.S', for more information.
1204
1205   In the first sector of Stage 1.5 and Stage 2, the block lists are
1206recorded between `firstlist' and `lastlist'. The address of `lastlist'
1207is determined when assembling the file `stage2/start.S'.
1208
1209   The trick here is that it is actually read backward, and the first
12108-byte block list is not read here, but after the pointer is decremented
12118 bytes, then after reading it, it decrements again, reads, and so on,
1212until it is finished. The terminating condition is when the number of
1213sectors to be read in the next block list is zero.
1214
1215   The format of a block list can be seen from the example in the code
1216just before the `firstlist' label. Note that it is always from the
1217beginning of the disk, but _not_ relative to the partition boundaries.
1218
1219   In the second sector of Stage 1.5 and Stage 2, these are defined:
1220
1221`0x6'
1222     The version number (likewise, the installation mechanism's).
1223
1224`0x8'
1225     The installed partition.
1226
1227`0xC'
1228     The saved entry number.
1229
1230`0x10'
1231     The identifier.
1232
1233`0x11'
1234     The flag for if forcing LBA.
1235
1236`0x12'
1237     The version string (GRUB's).
1238
1239`0x12' + "the length of the version string"
1240     The name of a configuration file.
1241
1242   See the file `stage2/asm.S', for more information.
1243
1244
1245File: grub.info,  Node: Filesystem interface,  Next: Command interface,  Prev: Embedded data,  Up: Internals
1246
1247The generic interface for filesystems
1248=====================================
1249
1250   For any particular partition, it is presumed that only one of the
1251"normal" filesystems such as FAT, FFS, or ext2fs can be used, so there
1252is a switch table managed by the functions in `disk_io.c'. The notation
1253is that you can only "mount" one at a time.
1254
1255   The block list filesystem has a special place in the system. In
1256addition to the "normal" filesystem (or even without one mounted), you
1257can access disk blocks directly (in the indicated partition) via the
1258block list notation. Using the block list filesystem doesn't effect any
1259other filesystem mounts.
1260
1261   The variables which can be read by the filesystem backend are:
1262
1263`current_drive'
1264     The current BIOS drive number (numbered from 0, if a floppy, and
1265     numbered from 0x80, if a hard disk).
1266
1267`current_partition'
1268     The current partition number.
1269
1270`current_slice'
1271     The current partition type.
1272
1273`saved_drive'
1274     The "drive" part of the root device.
1275
1276`saved_partition'
1277     The "partition" part of the root device.
1278
1279`part_start'
1280     The current partition starting address, in sectors.
1281
1282`part_length'
1283     The current partition length, in sectors.
1284
1285`print_possibilities'
1286     True when the `dir' function should print the possible completions
1287     of a file, and false when it should try to actually open a file of
1288     that name.
1289
1290`FSYS_BUF'
1291     Filesystem buffer which is 32K in size, to use in any way which the
1292     filesystem backend desires.
1293
1294   The variables which need to be written by a filesystem backend are:
1295
1296`filepos'
1297     The current position in the file, in sectors.
1298
1299     *Caution:* the value of FILEPOS can be changed out from under the
1300     filesystem code in the current implementation. Don't depend on it
1301     being the same for later calls into the backend code!
1302
1303`filemax'
1304     The length of the file.
1305
1306`disk_read_func'
1307     The value of DISK_READ_HOOK _only_ during reading of data for the
1308     file, not any other fs data, inodes, FAT tables, whatever, then
1309     set to `NULL' at all other times (it will be `NULL' by default).
1310     If this isn't done correctly, then the `testload' and `install'
1311     commands won't work correctly.
1312
1313   The functions expected to be used by the filesystem backend are:
1314
1315`devread'
1316     Only read sectors from within a partition. Sector 0 is the first
1317     sector in the partition.
1318
1319`grub_read'
1320     If the backend uses the block list code, then `grub_read' can be
1321     used, after setting BLOCK_FILE to 1.
1322
1323`print_a_completion'
1324     If PRINT_POSSIBILITIES is true, call `print_a_completion' for each
1325     possible file name. Otherwise, the file name completion won't work.
1326
1327   The functions expected to be defined by the filesystem backend are
1328described at least moderately in the file `filesys.h'. Their usage is
1329fairly evident from their use in the functions in `disk_io.c', look for
1330the use of the FSYS_TABLE array.
1331
1332   *Caution:* The semantics are such that then `mount'ing the
1333filesystem, presume the filesystem buffer `FSYS_BUF' is corrupted, and
1334(re-)load all important contents. When opening and reading a file,
1335presume that the data from the `mount' is available, and doesn't get
1336corrupted by the open/read (i.e. multiple opens and/or reads will be
1337done with only one mount if in the same filesystem).
1338
1339
1340File: grub.info,  Node: Command interface,  Next: Bootstrap tricks,  Prev: Filesystem interface,  Up: Internals
1341
1342The generic interface for built-ins
1343===================================
1344
1345   GRUB built-in commands are defined in a uniformal interface, whether
1346they are menu-specific or can be used anywhere. The definition of a
1347builtin command consists of two parts: the code itself and the table of
1348the information.
1349
1350   The code must be a function which takes two arguments, a command-line
1351string and flags, and returns an `int' value. The "flags" argument
1352specifies how the function is called, using a bit mask. The return
1353value must be zero if successful, otherwise non-zero. So it is normally
1354enough to return ERRNUM.
1355
1356   The table of the information is represented by the structure `struct
1357builtin', which contains the name of the command, a pointer to the
1358function, flags, a short description of the command and a long
1359description of the command. Since the descriptions are used only for
1360help messages interactively, you don't have to define them, if the
1361command may not be called interactively (such as `title').
1362
1363   The table is finally registered in the table BUILTIN_TABLE, so that
1364`run_script' and `enter_cmdline' can find the command. See the files
1365`cmdline.c' and `builtins.c', for more details.
1366
1367