xref: /freebsd/sbin/fdisk/fdisk.8 (revision 63d1fd5970ec814904aa0f4580b10a0d302d08b2)
1.\" $FreeBSD$
2.\"
3.Dd October 5, 2016
4.Dt FDISK 8
5.Os
6.Sh NAME
7.Nm fdisk
8.Nd PC slice table maintenance utility
9.Sh SYNOPSIS
10.Nm
11.Op Fl BIaipqstu
12.Op Fl b Ar bootcode
13.Op Fl 1234
14.Op Ar disk
15.Nm
16.Fl f Ar configfile
17.Op Fl itv
18.Op Ar disk
19.Sh PROLOGUE
20In order for the BIOS to boot the kernel,
21certain conventions must be adhered to.
22Sector 0 of the disk must contain boot code,
23a slice table,
24and a magic number.
25BIOS slices can be used to break the disk up into several pieces.
26The BIOS brings in sector 0 and verifies the magic number.
27The sector
280 boot code then searches the slice table to determine which
29slice is marked
30.Dq active .
31This boot code then brings in the bootstrap from the
32active slice and, if marked bootable, runs it.
33Under
34.Tn DOS ,
35you can have one or more slices with one active.
36The
37.Tn DOS
38.Nm
39utility can be used to divide space on the disk into slices and set one
40active.
41.Sh DESCRIPTION
42.Bf -symbolic
43This command is obsolete.
44Users are advised to use
45.Xr gpart 8
46instead.
47.Ef
48.Pp
49The
50.Fx
51utility,
52.Nm ,
53serves a similar purpose to the
54.Tn DOS
55utility.
56The first form is used to
57display slice information or to interactively edit the slice
58table.
59The second is used to write a slice table using a
60.Ar configfile ,
61and is designed to be used by other scripts/programs.
62.Pp
63Options are:
64.Bl -tag -width indent
65.It Fl a
66Change the active slice only.
67Ignored if
68.Fl f
69is given.
70.It Fl b Ar bootcode
71Get the boot code from the file
72.Ar bootcode .
73Default is
74.Pa /boot/mbr .
75.It Fl B
76Reinitialize the boot code contained in sector 0 of the disk.
77Ignored if
78.Fl f
79is given.
80.It Fl f Ar configfile
81Set slice values using the file
82.Ar configfile .
83The
84.Ar configfile
85only modifies explicitly specified slices, unless
86.Fl i
87is also given, in which case all existing slices are deleted (marked
88as
89.Dq unused )
90before the
91.Ar configfile
92is read.
93The
94.Ar configfile
95can be
96.Sq Fl ,
97in which case standard input is read.
98See
99.Sx CONFIGURATION FILE ,
100below, for file syntax.
101.Pp
102.Em WARNING :
103when
104.Fl f
105is used, you are not asked if you really want to write the slices
106table (as you are in the interactive mode).
107Use with caution!
108.It Fl i
109Initialize sector 0 of the disk.
110Existing slice entries will be cleared
111(marked as unused) before editing.
112(Compare with
113.Fl u . )
114.It Fl I
115Initialize sector 0 slice table
116for one
117.Fx
118slice covering the entire disk.
119.It Fl p
120Print a slice table in
121.Nm
122configuration file format and exit; see
123.Sx CONFIGURATION FILE ,
124below.
125.It Fl q
126Be quiet.
127Benign warnings (such as "GEOM not found") are suppressed.
128.It Fl s
129Print summary information and exit.
130.It Fl t
131Test mode; do not write slice values.
132Generally used with the
133.Fl f
134option to see what would be written to the slice table.
135Implies
136.Fl v .
137.It Fl u
138Update (edit) the disk's sector 0 slice table.
139Ignored if
140.Fl f
141is given.
142.It Fl v
143Be verbose.
144When
145.Fl f
146is used,
147.Nm
148prints out the slice table that is written to the disk.
149.It Fl 1234
150Operate on a single slice table entry only.
151Ignored if
152.Fl f
153is given.
154.El
155.Pp
156The final disk name can be provided as a
157.Dq bare
158disk name only, e.g.\&
159.Pa da0 ,
160or as a full pathname.
161If omitted,
162.Nm
163tries to figure out the default disk device name from the
164mounted root device.
165.Pp
166When called with no arguments, it prints the sector 0 slice table.
167An example follows:
168.Bd -literal
169	******* Working on device /dev/ada0 *******
170	parameters extracted from in-core disklabel are:
171	cylinders=769 heads=15 sectors/track=33 (495 blks/cyl)
172
173	parameters to be used for BIOS calculations are:
174	cylinders=769 heads=15 sectors/track=33 (495 blks/cyl)
175
176	Warning: BIOS sector numbering starts with sector 1
177	Information from DOS bootblock is:
178	The data for partition 1 is:
179	sysid 165,(FreeBSD/NetBSD/386BSD)
180           start 495, size 380160 (185 Meg), flag 0
181		beg: cyl 1/ sector 1/ head 0;
182		end: cyl 768/ sector 33/ head 14
183	The data for partition 2 is:
184	sysid 164,(unknown)
185           start 378180, size 2475 (1 Meg), flag 0
186		beg: cyl 764/ sector 1/ head 0;
187		end: cyl 768/ sector 33/ head 14
188	The data for partition 3 is:
189	<UNUSED>
190	The data for partition 4 is:
191	sysid 99,(ISC UNIX, other System V/386, GNU HURD or Mach)
192           start 380656, size 224234 (109 Meg), flag 80
193		beg: cyl 769/ sector 2/ head 0;
194		end: cyl 197/ sector 33/ head 14
195.Ed
196.Pp
197The disk is divided into three slices that happen to fill the disk.
198The second slice overlaps the end of the first.
199(Used for debugging purposes.)
200.Bl -tag -width ".Em cyl , sector No and Em head"
201.It Em sysid
202is used to label the slice.
203.Fx
204reserves the
205magic number 165 decimal (A5 in hex).
206.It Xo
207.Em start
208and
209.Em size
210.Xc
211fields provide the start address
212and size of a slice in sectors.
213.It Em "flag 80"
214specifies that this is the active slice.
215.It Xo
216.Em cyl , sector
217and
218.Em head
219.Xc
220fields are used to specify the beginning and end addresses of the slice.
221.El
222.Pp
223.Em Note :
224these numbers are calculated using BIOS's understanding of the disk geometry
225and saved in the bootblock.
226.Pp
227The
228.Fl i
229and
230.Fl u
231flags are used to indicate that the slice data is to be updated.
232Unless the
233.Fl f
234option is also given,
235.Nm
236will enter a conversational mode.
237In this mode, no changes will be written to disk unless you explicitly tell
238.Nm
239to.
240.Pp
241The
242.Nm
243utility will display each slice and ask whether you want to edit it.
244If you say yes,
245.Nm
246will step through each field, show you the old value,
247and ask you for a new one.
248When you are done with the slice,
249.Nm
250will display it and ask you whether it is correct.
251It will then proceed to the next entry.
252.Pp
253Getting the
254.Em cyl , sector ,
255and
256.Em head
257fields correct is tricky, so by default,
258they will be calculated for you;
259you can specify them if you choose to though.
260.Pp
261After all the slices are processed,
262you are given the option to change the
263.Dq active
264slice.
265Finally, when all the new data for sector 0 has been accumulated,
266you are asked to confirm whether you really want to rewrite it.
267.Pp
268The difference between the
269.Fl u
270and
271.Fl i
272flags is that
273the
274.Fl u
275flag edits (updates) the existing slice parameters
276while the
277.Fl i
278flag is used to
279.Dq initialize
280them (old values will be ignored);
281if you edit the first slice,
282.Fl i
283will also set it up to use the whole disk for
284.Fx
285and make it active.
286.Sh NOTES
287The automatic calculation of starting cylinder etc.\& uses
288a set of figures that represent what the BIOS thinks the
289geometry of the drive is.
290These figures are taken from the in-core disklabel by default,
291but
292.Nm
293initially gives you an opportunity to change them.
294This allows you to create a bootblock that can work with drives
295that use geometry translation under the BIOS.
296.Pp
297If you hand craft your disk layout,
298please make sure that the
299.Fx
300slice starts on a cylinder boundary.
301.Pp
302Editing an existing slice will most likely result in the loss of
303all data in that slice.
304.Pp
305You should run
306.Nm
307interactively once or twice to see how it works.
308This is completely safe as long as you answer the last question
309in the negative.
310There are subtleties that
311.Nm
312detects that are not fully explained in this manual page.
313.Sh CONFIGURATION FILE
314When the
315.Fl f
316option is given, a disk's slice table can be written using values
317from a
318.Ar configfile .
319The syntax of this file is very simple;
320each line is either a comment or a specification, as follows:
321.Bl -tag -width indent
322.It Ic # Ar comment ...
323Lines beginning with a
324.Ic #
325are comments and are ignored.
326.It Ic g Ar spec1 spec2 spec3
327Set the BIOS geometry used in slice calculations.
328There must be
329three values specified, with a letter preceding each number:
330.Bl -tag -width indent
331.It Cm c Ns Ar num
332Set the number of cylinders to
333.Ar num .
334.It Cm h Ns Ar num
335Set the number of heads to
336.Ar num .
337.It Cm s Ns Ar num
338Set the number of sectors/track to
339.Ar num .
340.El
341.Pp
342These specs can occur in any order, as the leading letter determines
343which value is which; however, all three must be specified.
344.Pp
345This line must occur before any lines that specify slice
346information.
347.Pp
348It is an error if the following is not true:
349.Bd -literal -offset indent
3501 <= number of cylinders
3511 <= number of heads <= 256
3521 <= number of sectors/track < 64
353.Ed
354.Pp
355The number of cylinders should be less than or equal to 1024, but this
356is not enforced, although a warning will be printed.
357Note that bootable
358.Fx
359slices (the
360.Dq Pa /
361file system) must lie completely within the
362first 1024 cylinders; if this is not true, booting may fail.
363Non-bootable slices do not have this restriction.
364.Pp
365Example (all of these are equivalent), for a disk with 1019 cylinders,
36639 heads, and 63 sectors:
367.Bd -literal -offset indent
368g       c1019   h39     s63
369g       h39     c1019   s63
370g       s63     h39     c1019
371.Ed
372.It Ic p Ar slice type start length
373Set the slice given by
374.Ar slice
375(1-4) to type
376.Ar type ,
377starting at sector
378.Ar start
379for
380.Ar length
381sectors.
382If the
383.Ar start
384or
385.Ar length
386is suffixed with a
387.Em K ,
388.Em M
389or
390.Em G ,
391it is taken as a
392.Em Kilobyte ,
393.Em Megabyte
394or
395.Em Gigabyte
396measurement respectively.
397If the
398.Ar start
399is given as
400.Qq *
401it is set to the value of the previous partition end.
402If the
403.Ar length
404is given as
405.Qq *
406the partition end is set to the end of the disk.
407.Pp
408Only those slices explicitly mentioned by these lines are modified;
409any slice not referenced by a
410.Ic p
411line will not be modified.
412However, if an invalid slice table is present, or the
413.Fl i
414option is specified, all existing slice entries will be cleared
415(marked as unused), and these
416.Ic p
417lines will have to be used to
418explicitly set slice information.
419If multiple slices need to be
420set, multiple
421.Ic p
422lines must be specified; one for each slice.
423.Pp
424These slice lines must occur after any geometry specification lines,
425if one is present.
426.Pp
427The
428.Ar type
429is 165 for
430.Fx
431slices.
432Specifying a slice type of zero is
433the same as clearing the slice and marking it as unused; however,
434dummy values (such as
435.Dq 0 )
436must still be specified for
437.Ar start
438and
439.Ar length .
440.Pp
441Note: the start offset will be rounded upwards to a head boundary if
442necessary, and the end offset will be rounded downwards to a cylinder
443boundary if necessary.
444.Pp
445Example: to clear slice 4 and mark it as unused:
446.Pp
447.Dl "p       4       0       0       0"
448.Pp
449Example: to set slice 1 to a
450.Fx
451slice, starting at sector 1
452for 2503871 sectors (note: these numbers will be rounded upwards and
453downwards to correspond to head and cylinder boundaries):
454.Pp
455.Dl "p       1       165     1       2503871"
456.Pp
457Example: to set slices 1, 2 and 4 to
458.Fx
459slices, the first being 2 Gigabytes, the second being 10 Gigabytes and the
460forth being the remainder of the disk (again, numbers will be rounded
461appropriately):
462.Pp
463.Dl "p       1       165     63      2G"
464.Dl "p       2       165     *       10G"
465.Dl "p       3       0       0       0"
466.Dl "p       4       165     *       *"
467.It Ic a Ar slice
468Make
469.Ar slice
470the active slice.
471Can occur anywhere in the config file, but only
472one must be present.
473.Pp
474Example: to make slice 1 the active slice:
475.Pp
476.Dl "a       1"
477.El
478.Sh FILES
479.Bl -tag -width ".Pa /boot/mbr" -compact
480.It Pa /boot/mbr
481The default boot code.
482.El
483.Sh SEE ALSO
484.Xr boot0cfg 8 ,
485.Xr bsdlabel 8 ,
486.Xr gpart 8 ,
487.Xr newfs 8
488.Sh HISTORY
489A version of
490.Nm
491first appeared in the Mach Operating System.
492It was subsequently ported to
493.Bx 386 .
494.Sh AUTHORS
495.An -nosplit
496.Nm
497for Mach Operating System was written by
498.An Robert Baron Aq Mt rvb@cs.cmu.edu .
499It was ported to
500.Bx 386
501by
502.An Julian Elischer Aq Mt julian@tfs.com .
503.Sh BUGS
504The default boot code will not necessarily handle all slice types
505correctly, in particular those introduced since
506.Tn MS-DOS
5076.x.
508.Pp
509The entire utility should be made more user-friendly.
510.Pp
511Most users new to
512.Fx
513do not understand the difference between
514.Dq slice
515and
516.Dq partition ,
517causing difficulty to adjust.
518.Pp
519You cannot use this command to completely dedicate a disk to
520.Fx .
521The
522.Xr bsdlabel 8
523command must be used for this.
524