Ubuntu Manpage: cgdisk - Curses-based GUID partition table (GPT) manipulator

NAME

       cgdisk - Curses-based GUID partition table (GPT) manipulator

SYNOPSIS

       cgdisk [ -a ] device

DESCRIPTION

GPT fdisk is a text-mode family of programs for creation and manipulation of partition tables. The cgdisk
member of this family employs a curses-based user interface for interaction using a text-mode menuing
system. It will automatically convert an old-style Master Boot Record (MBR) partition table or BSD
disklabel stored without an MBR carrier partition to the newer Globally Unique Identifier (GUID)
Partition Table (GPT) format, or will load a GUID partition table. Other members of this program family
are gdisk (the most feature-rich program of the group, with a non-curses-based interactive user
interface) and sgdisk (which is driven via command-line options for use by experts or in scripts).
FixParts is a related program for fixing a limited set of problems with MBR disks.

For information on MBR vs. GPT, as well as GPT terminology and structure, see the extended GPT fdisk
documentation at https://www.rodsbooks.com/gdisk/ or consult Wikipedia.

The cgdisk program employs a user interface similar to that of Linux's cfdisk, but cgdisk modifies GPT
partitions. It also has the capability of transforming MBR partitions or BSD disklabels into GPT
partitions. Like the original cfdisk program, cgdisk does not modify disk structures until you explicitly
write them to disk, so if you make a mistake, you can exit from the program with the Quit option to leave
your partitions unmodified.

Ordinarily, cgdisk operates on disk device files, such as /dev/sda or /dev/hda under Linux, /dev/disk0
under Mac OS X, or /dev/ad0 or /dev/da0 under FreeBSD. The program can also operate on disk image files,
which can be either copies of whole disks (made with dd, for instance) or raw disk images used by
emulators such as QEMU or VMWare. Note that only raw disk images are supported; cgdisk cannot work on
compressed or other advanced disk image formats.

Upon start, cgdisk attempts to identify the partition type in use on the disk. If it finds valid GPT
data, cgdisk will use it. If cgdisk finds a valid MBR or BSD disklabel but no GPT data, it will attempt
to convert the MBR or disklabel into GPT form. (BSD disklabels are likely to have unusable first and/or
final partitions because they overlap with the GPT data structures, though.) Upon exiting with the 'w'
option, cgdisk replaces the MBR or disklabel with a GPT. This action is potentially dangerous! Your
system may become unbootable, and partition type codes may become corrupted if the disk uses unrecognized
type codes. Boot problems are particularly likely if you're multi-booting with any GPT-unaware OS. If
you mistakenly launch cgdisk on an MBR disk, you can safely exit the program without making any changes
by using the Quit option.

When creating a fresh partition table, certain considerations may be in order:

* For data (non-boot) disks, and for boot disks used on BIOS-based computers with GRUB as the boot
loader, partitions may be created in whatever order and in whatever sizes are desired.

* Boot disks for EFI-based systems require an EFI System Partition (GPT fdisk internal code 0xEF00)
formatted as FAT-32. The recommended size of this partition is between 100 and 300 MiB.
Boot-related files are stored here. (Note that GNU Parted identifies such partitions as having the
"boot flag" set.)

* The GRUB 2 boot loader for BIOS-based systems makes use of a BIOS Boot Partition (GPT fdisk
internal code 0xEF02), in which the secondary boot loader is stored, without the benefit of a
filesystem. This partition can typically be quite small (roughly 32 KiB to 1 MiB), but you should
consult your boot loader documentation for details.

* If Windows is to boot from a GPT disk, a partition of type Microsoft Reserved (GPT fdisk internal
code 0x0C01) is recommended. This partition should be about 128 MiB in size. It ordinarily follows
the EFI System Partition and immediately precedes the Windows data partitions. (Note that old
versions of GNU Parted create all FAT partitions as this type, which actually makes the partition
unusable for normal file storage in both Windows and Mac OS X.)

* Some OSes' GPT utilities create some blank space (typically 128 MiB) after each partition. The
intent is to enable future disk utilities to use this space. Such free space is not required of
GPT disks, but creating it may help in future disk maintenance. You can use GPT fdisk's relative
partition positioning option (specifying the starting sector as '+128M', for instance) to simplify
creating such gaps.

OPTIONS

Only one command-line option is accepted, aside from the device filename: -a. This option alters the
highlighting of partitions and blocks of free space: Instead of using ncurses, when -a is used cgdisk
uses a ">" symbol to the left of the selected partition or free space. This option is intended for use
on limited display devices such as teletypes and screen readers.

Interactions with cgdisk occur with its interactive text-mode menus. The display is broken into two
interactive parts:

* The partition display area, in which partitions and gaps between them (marked as "free space") are
summarized.

* The option selection area, in which buttons for the main options appear.

In addition, the top of the display shows the program's name and version number, the device filename
associated with the disk, and the disk's size in both sectors and IEEE-1541 units (GiB, TiB, and so on).

You can use the following keys to move among the various options and to select among them:

up arrow
This key moves the partition selection up by one partition.

down arrow
This key moves the partition selection down by one partition.

Page Up
This key moves the partition selection up by one screen.

Page Down
This key moves the partition selection down by one screen.

right arrow
This key moves the option selection to the right by one item.

left arrow
This key moves the option selection to the left by one item.

Enter This key activates the currently selected option. You can also activate an option by typing the
capitalized letter in the option's name on the keyboard, such as a to activate the Align option.

If more partitions exist than can be displayed in one screen, you can scroll between screens using the
partition selection keys, much as in a text editor.

Available options are as described below. (Note that cgdisk provides a much more limited set of options
than its sibling gdisk. If you need to perform partition table recovery, hybrid MBR modification, or
other advanced operations, you should consult the gdisk documentation.)

Align Change the sector alignment value. Disks with more logical sectors than physical sectors (such as
modern Advanced Format drives), some RAID configurations, and many SSD devices, can suffer
performance problems if partitions are not aligned properly for their internal data structures. On
new disks, GPT fdisk attempts to align partitions on 1 MiB boundaries (2048-sectors on disks with
512-byte sectors) by default, which optimizes performance for all of these disk types. On
pre-partitioned disks, GPT fdisk attempts to identify the alignment value used on that disk, but
will set 8-sector alignment on disks larger than 300 GB even if lesser alignment values are
detected. In either case, it can be changed by using this option. The alignment value also
affects the default end sector value when creating a new partition; it will be aligned to one less
than a multiple of the alignment value, when possible. This should keep partitions a multiple of
the alignment value in size. Some disk encryption tools require partitions to be sized to some
value, typically 4096 bytes, so the default alignment of 1 MiB works well for them.

Backup Save partition data to a backup file. You can back up your current in-memory partition table to a
disk file using this option. The resulting file is a binary file consisting of the protective MBR,
the main GPT header, the backup GPT header, and one copy of the partition table, in that order.
Note that the backup is of the current in-memory data structures, so if you launch the program,
make changes, and then use this option, the backup will reflect your changes.

Delete Delete a partition. This action deletes the entry from the partition table but does not disturb
the data within the sectors originally allocated to the partition on the disk. If a corresponding
hybrid MBR partition exists, gdisk deletes it, as well, and expands any adjacent 0xEE (EFI GPT)
MBR protective partition to fill the new free space.

Help Print brief descriptions of all the options.

Info Show detailed partition information. The summary information shown in the partition display area
necessarily omits many details, such as the partitions' unique GUIDs and the partitions' sector-
exact start and end points. The Info option displays this information for a single partition.

Load Load partition data from a backup file. This option is the reverse of the Backup option. Note that
restoring partition data from anything but the original disk is not recommended.

naMe Change the GPT name of a partition. This name is encoded as a UTF-16 string, but proper entry and
display of anything beyond basic ASCII values requires suitable locale and font support. For the
most part, Linux ignores the partition name, but it may be important in some OSes. GPT fdisk sets
a default name based on the partition type code. Note that the GPT partition name is different
from the filesystem name, which is encoded in the filesystem's data structures. Note also that to
activate this item by typing its alphabetic equivalent, you must use M, not the more obvious N,
because the latter is used by the next option....

New Create a new partition. You enter a starting sector, a size, a type code, and a name. The start
sector can be specified in absolute terms as a sector number or as a position measured in
kibibytes (K), mebibytes (M), gibibytes (G), tebibytes (T), or pebibytes (P); for instance, 40M
specifies a position 40MiB from the start of the disk. You can specify locations relative to the
start or end of the specified default range by preceding the number by a '+' symbol, as in +2G to
specify a point 2GiB after the default start sector. The size value can use the K, M, G, T, and P
suffixes, too. Pressing the Enter key with no input specifies the default value, which is the
start of the largest available block for the start sector and the full available size for the
size.

Quit Quit from the program without saving your changes. Use this option if you just wanted to view
information or if you make a mistake and want to back out of all your changes.

Type Change a single partition's type code. You enter the type code using a two-byte hexadecimal
number. You may also enter a GUID directly, if you have one and cgdisk doesn't know it. If you
don't know the type code for your partition, you can type L to see a list of known type codes.
The type code list may optionally be filtered by a search string; for instance, entering linux
shows only partition type codes with descriptions that include the string Linux. This search is
performed case-insensitively.

Verify Verify disk. This option checks for a variety of problems, such as incorrect CRCs and mismatched
main and backup data. This option does not automatically correct most problems, though; for that,
you must use gdisk. If no problems are found, this command displays a summary of unallocated disk
space.

Write Write data. Use this command to save your changes.

BUGS

       Known bugs and limitations include:

       *      The program compiles correctly only on Linux, FreeBSD, and Mac OS X. In theory, it should  compile
              under  Windows  if  the  Ncurses  library  for  Windows  is  installed, but I have not tested this
              capability. Linux versions for x86-64 (64-bit), x86  (32-bit),  and  PowerPC  (32-bit)  have  been
              tested,  with  the  x86-64  version  having seen the most testing. Under FreeBSD, 32-bit (x86) and
              64-bit (x86-64) versions have been tested. Only 32-bit versions for Mac OS X has  been  tested  by
              the author.

       *      The  FreeBSD  version  of  the  program  can't write changes to the partition table to a disk when
              existing partitions on that disk are mounted. (The same problem exists  with  many  other  FreeBSD
              utilities,  such  as  gpt,  fdisk,  and  dd.)  This  limitation  can  be overcome by typing sysctl
              kern.geom.debugflags=16 at a shell prompt.

       *      The program can load only up to 128 partitions (4 primary partitions and 124  logical  partitions)
              when  converting  from  MBR format. This limit can be raised by changing the #define MAX_MBR_PARTS
              line in the basicmbr.h source code file and recompiling; however, such a change will require using
              a  larger-than-normal partition table. (The limit of 128 partitions was chosen because that number
              equals the 128 partitions supported by the most common partition table size.)

       *      Converting from MBR format sometimes fails because of insufficient space at  the  start  or  (more
              commonly)  the end of the disk. Resizing the partition table (using the 's' option in the experts'
              menu in gdisk) can sometimes overcome this problem; however, in extreme cases it may be  necessary
              to resize a partition using GNU Parted or a similar tool prior to conversion with GPT fdisk.

       *      MBR  conversions  work  only  if the disk has correct LBA partition descriptors. These descriptors
              should be present on any disk over 8 GiB in size or on smaller disks partitioned with any but very
              ancient software.

       *      BSD  disklabel  support  can  create  first  and/or last partitions that overlap with the GPT data
              structures. This can sometimes be compensated by  adjusting  the  partition  table  size,  but  in
              extreme cases the affected partition(s) may need to be deleted.

       *      Because  of the highly variable nature of BSD disklabel structures, conversions from this form may
              be unreliable -- partitions may be dropped, converted in a way that creates  overlaps  with  other
              partitions, or converted with incorrect start or end values. Use this feature with caution!

       *      Booting  after  converting  an  MBR  or  BSD  disklabel  disk is likely to be disrupted. Sometimes
              re-installing a boot loader will fix the problem, but other times you  may  need  to  switch  boot
              loaders. Except on EFI-based platforms, Windows through at least Windows 7 doesn't support booting
              from GPT disks. Creating a hybrid MBR (using the 'h' option on the recovery & transformation  menu
              in gdisk) or abandoning GPT in favor of MBR may be your only options in this case.

       *      The  cgdisk  Verify  function  and  the  partition type listing obtainable by typing L in the Type
              function (or when specifying a partition type while creating a new partition) both currently  exit
              ncurses mode. This limitation is a minor cosmetic blemish that does not affect functionality.

AUTHORS

       Primary author: Roderick W. Smith (rodsmith@rodsbooks.com)

       Contributors:

       * Yves Blusseau (1otnwmz02@sneakemail.com)

       * David Hubbard (david.c.hubbard@gmail.com)

       * Justin Maggard (justin.maggard@netgear.com)

       * Dwight Schauer (das@teegra.net)

       * Florian Zumbiehl (florz@florz.de)

AVAILABILITY

       The cgdisk command is part of the GPT fdisk package and is available from Rod Smith.