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SGDISK(8)                                GPT fdisk Manual                               SGDISK(8)

NAME
       sgdisk - Command-line GUID partition table (GPT) manipulator for Linux and Unix

SYNOPSIS
       sgdisk [ options ] device

DESCRIPTION
       GPT  fdisk  is  a text-mode menu-driven package for creation and manipulation of partition
       tables. It consists of two programs: the text-mode interactive gdisk and the  command-line
       sgdisk.  Either  program  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 parti-
       tion table. This man page documents the command-line sgdisk program.

       Some advanced data manipulation and recovery options require you to  understand  the  dis-
       tinctions  between  the  main  and backup data, as well as between the GPT headers and the
       partition tables. For information on MBR vs. GPT, as well as GPT  terminology  and  struc-
       ture,  see  the extended gdisk documentation at http://www.rodsbooks.com/gdisk/ or consult
       Wikipedia.

       The sgdisk program employs a user interface that's based entirely  on  the  command  line,
       making  it  suitable  for  use  in scripts or by experts who want to make one or two quick
       changes to a disk. (The program may query the user when certain  errors  are  encountered,
       though.)  The  program's name is based on sfdisk, but the user options of the two programs
       are entirely different from one another.

       Ordinarily, sgdisk 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; sgdisk cannot work on compressed or other advanced disk im-
       age formats.

       The  MBR  partitioning  system uses a combination of cylinder/head/sector (CHS) addressing
       and logical block addressing (LBA). The former is klunky and limiting. GPT drops  CHS  ad-
       dressing  and  uses  64-bit LBA mode exclusively. Thus, GPT data structures, and therefore
       sgdisk, do not need to deal with CHS geometries and all the problems they create.

       For best results, you should use an OS-specific partition table program whenever possible.
       For  example,  you  should make Mac OS X partitions with the Mac OS X Disk Utility program
       and Linux partitions with the Linux gdisk, sgdisk, or GNU Parted programs.

       Upon start, sgdisk attempts to identify the partition type in use on the disk. If it finds
       valid  GPT  data,  sgdisk will use it. If sgdisk 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.) GPT fdisk can identify, but not use data in, Apple Partition
       Map  (APM)  disks,  which are used on 680x0- and PowerPC-based Macintoshes. If you specify
       any option that results in changes to an  MBR  or  BSD  disklabel,  sgdisk  ignores  those
       changes  unless  the -g (--mbrtogpt), -z (--zap), or -Z (--zap-all) option is used. If you
       use the -g option, sgdisk replaces the MBR or disklabel with a GPT. This action is  poten-
       tially  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.

       The  MBR-to-GPT  conversion  will leave at least one gap in the partition numbering if the
       original MBR used logical partitions. These gaps are harmless, but you can eliminate  them
       by  using  the -s (--sort) option, if you like. (Doing this may require you to update your
       /etc/fstab file.)

       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 what-
              ever sizes are desired.

       *      Boot disks for EFI-based systems require an EFI System  Partition  (gdisk  internal
              code  0xEF00)  formatted  as  FAT-32.  I recommended making this partition 550 MiB.
              (Smaller ESPs are common, but some EFIs have flaky FAT drivers that  necessitate  a
              larger partition for reliable operation.) Boot-related files are stored here. (Note
              that GNU Parted identifies such partitions as having the "boot flag" set.)

       *      Some boot loaders for BIOS-based systems make use of a BIOS Boot  Partition  (gdisk
              internal code 0xEF02), in which the secondary boot loader is stored, possibly with-
              out the benefit of a filesystem. (GRUB2 may optionally use such a partition.)  This
              partition  can  typically  be quite small (roughly 32 to 200 KiB, although 1 MiB is
              more common in practice), 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
              (sgdisk internal code 0x0C01) is recommended. This partition should  be  about  128
              MiB  in  size.  It ordinarily follows the EFI System Partition and immediately pre-
              cedes the Windows data partitions. (Note that GNU Parted creates 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.

OPTIONS
       Some  options  take no arguments, others take one argument (typically a partition number),
       and others take compound arguments with colon delimitation. For instance, -n (--new) takes
       a partition number, a starting sector number, and an ending sector number, as in sgdisk -n
       2:2000:50000 /dev/sdc, which creates a new partition, numbered 2, starting at sector  2000
       an ending at sector 50,000, on /dev/sdc.

       Unrelated  options may be combined; however, some such combinations will be nonsense (such
       as deleting a partition and then changing its GUID type code).  sgdisk interprets  options
       in  the  order  in  which they're entered, so effects can vary depending on order. For in-
       stance, sgdisk -s -d 2 sorts the partition table entries and then deletes partition 2 from
       the  newly-sorted list; but sgdisk -d 2 -s deletes the original partition 2 and then sorts
       the modified partition table.

       Error checking and opportunities to correct mistakes in sgdisk are minimal.  Although  the
       program  endeavors to keep the GPT data structures legal, it does not prompt for verifica-
       tion before performing its actions. Unless you require a command-line-driven program,  you
       should use the interactive gdisk instead of sgdisk, since gdisk allows you to quit without
       saving your changes, should you make a mistake.

       Although sgdisk is based on the same partition-manipulation code as gdisk,  sgdisk  imple-
       ments fewer features than its interactive sibling. Options available in sgdisk are:

       -a, --set-alignment=value
              Set the sector alignment multiple. GPT fdisk aligns the start of partitions to sec-
              tors that are multiples of this value, which defaults to 1 MiB (2048 on disks  with
              512-byte  sectors) on freshly formatted disks. This alignment value is necessary to
              obtain optimum performance with Western Digital Advanced Format and similar  drives
              with larger physical than logical sector sizes, with some types of RAID arrays, and
              with SSD devices.

       -A,     --attributes=list|[partnum:show|or|nand|xor|=|set|clear|toggle|get[:bitnum|hexbit-
       mask]]
              View or set partition attributes. Use list to see defined (known) attribute values.
              Omit the partition number (and even the device filename) when  using  this  option.
              The  others  require  a partition number. The show and get options show the current
              attribute settings (all attributes or for a particular bit, respectively). The  or,
              nand, xor, =, set, clear, and toggle options enable you to change the attribute bit
              value. The set, clear, toggle, and get options work on a  bit  number;  the  others
              work on a hexadecimal bit mask. For example, type sgdisk -A 4:set:2 /dev/sdc to set
              the bit 2 attribute (legacy BIOS bootable) on partition 4 on /dev/sdc.

       -b, --backup=file
              Save partition data to a backup file. You can back up your current in-memory parti-
              tion  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 cur-
              rent in-memory data structures, so if you launch the  program,  make  changes,  and
              then  use this option, the backup will reflect your changes. If the GPT data struc-
              tures are damaged, the backup may not accurately reflect  the  damaged  state;  in-
              stead, they will reflect GPT fdisk's first-pass interpretation of the GPT.

       -B, --byte-swap-name=partnum
              Swap  the  byte  order  for  the name of the specified partition. Some partitioning
              tools, including GPT fdisk 1.0.7 and earlier, can write the partition name  in  the
              wrong  byte order on big-endian computers, such as the IBM s390 mainframes and Pow-
              erPC-based Macs. This feature corrects this problem.

       -c, --change-name=partnum: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. If you want to set a name that includes a space,
              enclose it in quotation marks, as in sgdisk -c 1:"Sample Name" /dev/sdb. Note  that
              the  GPT name of a partition is distinct from the filesystem name, which is encoded
              in the filesystem's data structures.

       -C, --recompute-chs
              Recompute CHS values in protective or hybrid MBR. This option can sometimes help if
              a  disk  utility, OS, or BIOS doesn't like the CHS values used by the partitions in
              the protective or hybrid MBR. In particular, the GPT specification requires  a  CHS
              value  of  0xFFFFFF for over-8GiB partitions, but this value is technically illegal
              by the usual standards. Some BIOSes hang if they encounter this value. This  option
              will  recompute  a  more normal CHS value -- 0xFEFFFF for over-8GiB partitions, en-
              abling these BIOSes to boot.

       -d, --delete=partnum
              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.

       -D, --display-alignment
              Display current sector alignment value. Partitions will be created on multiples  of
              the  sector  value reported by this option. You can change the alignment value with
              the -a option.

       -e, --move-second-header
              Move backup GPT data structures to the end of the disk. Use this option  if  you've
              added  disks  to a RAID array, thus creating a virtual disk with space that follows
              the backup GPT data structures. This command moves the backup GPT  data  structures
              to the end of the disk, where they belong.

       -E, --end-of-largest
              Displays  the sector number of the end of the largest available block of sectors on
              the disk. A script may store this value and pass it back as part of -n's option  to
              create  a partition. If no unallocated sectors are available, this function returns
              the value 0.

       -f, --first-in-largest
              Displays the sector number of the start of the largest available block  of  sectors
              on  the disk. A script may store this value and pass it back as part of -n's option
              to create a partition. If no unallocated sectors are available, this  function  re-
              turns  the  value 0. Note that this parameter is blind to partition alignment; when
              you actually create a partition, its start point might be changed from this value.

       -F, --first-aligned-in-largest
              Similar to -f (--first-in-largest), except returns the sector number with the  cur-
              rent alignment correction applied. Use this function if you need to compute the ac-
              tual partition start point rather than a theoretical  start  point  or  the  actual
              start point if you set the alignment value to 1.

       -g, --mbrtogpt
              Convert  an  MBR  or  BSD disklabel disk to a GPT disk. As a safety measure, use of
              this option is required on MBR or BSD disklabel disks if you intend  to  save  your
              changes, in order to prevent accidentally damaging such disks.

       -G, --randomize-guids
              Randomize the disk's GUID and all partitions' unique GUIDs (but not their partition
              type code GUIDs). This function may be used after cloning a disk in order to render
              all GUIDs once again unique.

       -h, --hybrid
              Create  a  hybrid MBR. This option takes from one to three partition numbers, sepa-
              rated by colons, as arguments. You may optionally specify a final partition "EE" to
              indicate that the EFI GPT (type 0xEE) should be placed last in the table, otherwise
              it will be placed first, followed by the  partition(s)  you  specify.   Their  type
              codes  are  based  on  the GPT fdisk type codes divided by 0x0100, which is usually
              correct for Windows partitions. If the active/bootable flag should be set, you must
              do so in another program, such as fdisk. The gdisk program offers additional hybrid
              MBR creation options.

       -i, --info=partnum
              Show detailed partition information. The summary information  produced  by  the  -p
              command necessarily omits many details, such as the partition's unique GUID and the
              translation of sgdisk's internal partition type code to a plain type name.  The  -i
              option displays this information for a single partition.

       -j, --adjust-main-table=sector
              Adjust  the  location of the main partition table. This value is normally 2, but it
              may need to be increased in some cases, such as  when  a  system-on-chip  (SoC)  is
              hard-coded  to  read  boot  code  from sector 2. I recommend against adjusting this
              value unless doing so is absolutely necessary.

       -l, --load-backup=file
              Load partition data from a backup file. This option is the reverse of  the  -b  op-
              tion. Note that restoring partition data from anything but the original disk is not
              recommended. This option will work even if the disk's original partition  table  is
              bad; however, most other options on the same command line will be ignored.

       -L, --list-types
              Display  a  summary of partition types. GPT uses a GUID to identify partition types
              for particular OSes and purposes. For ease of data entry, sgdisk  compresses  these
              into  two-byte (four-digit hexadecimal) values that are related to their equivalent
              MBR codes. Specifically, the MBR code is multiplied by hexadecimal 0x0100. For  in-
              stance,  the  code for Linux swap space in MBR is 0x82, and it's 0x8200 in gdisk. A
              one-to-one correspondence is impossible, though. Most notably, the  codes  for  all
              varieties  of  FAT  and  NTFS partition correspond to a single GPT code (entered as
              0x0700 in sgdisk). Some OSes use a single MBR code but employ many  more  codes  in
              GPT. For these, sgdisk adds code numbers sequentially, such as 0xa500 for a FreeBSD
              disklabel, 0xa501 for FreeBSD boot, 0xa502 for FreeBSD swap, and so on.  Note  that
              these  two-byte  codes are unique to gdisk and sgdisk. This option does not require
              you to specify a valid disk device filename.

       -m, --gpttombr
              Convert disk from GPT to MBR form. This option takes from  one  to  four  partition
              numbers,  separated  by colons, as arguments. Their type codes are based on the GPT
              fdisk type codes divided by 0x0100. If the active/bootable flag should be set,  you
              must  do so in another program, such as fdisk.  The gdisk program offers additional
              MBR conversion options. It is not possible to convert  more  than  four  partitions
              from  GPT  to  MBR  form or to convert partitions that start above the 2TiB mark or
              that are larger than 2TiB.

       -n, --new=partnum:start:end
              Create a new partition. You enter a partition number, starting sector, and an  end-
              ing sector. Both start and end sectors can be specified in absolute terms as sector
              numbers or as positions 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 '+' or '-' symbol, as in
              +2G to specify a point 2GiB after the default start sector, or -200M to  specify  a
              point  200MiB before the last available sector. A start or end value of 0 specifies
              the default value, which is the start of the largest available block for the  start
              sector  and  the  end  of  the  same block for the end sector. A partnum value of 0
              causes the program to use the first available partition number. Subsequent uses  of
              the  -A  (--attributes),  -c  (--change-name),  -t  (--typecode),  and -u (--parti-
              tion-guid) options may also use 0 to refer to the same partition.

       -N, --largest-new=num
              Create a new partition that fills the largest available block of space on the disk.
              You  can use the -a (--set-alignment) option to adjust the alignment, if desired. A
              num value of 0 causes the program to use the first available partition number.

       -o, --clear
              Clear out all partition data. This includes GPT header data, all partition  defini-
              tions, and the protective MBR. Note that this operation will, like most other oper-
              ations, fail on a damaged disk. If you want to prepare a disk you know to  be  dam-
              aged  for GPT use, you should first wipe it with -Z and then partition it normally.
              This option will work even if the disk's original partition table is bad;  however,
              most other options on the same command line will be ignored.

       -O, --print-mbr
              Display basic MBR partition summary data. This includes partition numbers, starting
              and ending sector numbers, partition sizes, MBR partition types codes,  and  parti-
              tion  names.  This option is useful mainly for diagnosing partition table problems,
              particularly on disks with hybrid MBRs.

       -p, --print
              Display basic GPT partition summary data. This includes partition numbers, starting
              and  ending  sector  numbers,  partition sizes, sgdisk's partition types codes, and
              partition names. For additional information, use the -i (--info) option.

       -P, --pretend
              Pretend to make specified changes. In-memory GPT data structures  are  altered  ac-
              cording to other parameters, but changes are not written to disk.

       -r, --transpose
              Swap  two partitions' entries in the partition table. One or both partitions may be
              empty, although swapping two empty partitions is pointless. For instance, if parti-
              tions  1-4 are defined, transposing 1 and 5 results in a table with partitions num-
              bered from 2-5. Transposing partitions in this way has  no  effect  on  their  disk
              space allocation; it only alters their order in the partition table.

       -R, --replicate=second_device_filename
              Replicate  the  main device's partition table on the specified second device.  Note
              that the replicated partition table is an exact copy, including all GUIDs;  if  the
              device  should  have  its own unique GUIDs, you should use the -G option on the new
              disk.

       -s, --sort
              Sort partition entries. GPT partition numbers need not match the  order  of  parti-
              tions  on  the disk. If you want them to match, you can use this option.  Note that
              some partitioning utilities  sort  partitions  whenever  they  make  changes.  Such
              changes  will  be  reflected  in  your  device  filenames,  so you may need to edit
              /etc/fstab if you use this option.

       -t, --typecode=partnum:{hexcode|GUID}
              Change a single partition's type code. You enter  the  type  code  using  either  a
              two-byte hexadecimal number, as described earlier, or a fully-specified GUID value,
              such as EBD0A0A2-B9E5-4433-87C0-68B6B72699C7.

       -T, --transform-bsd=partnum
              Transform BSD partitions into GPT partitions. This option works on  BSD  disklabels
              held within GPT (or converted MBR) partitions. Converted partitions' type codes are
              likely to need manual adjustment. sgdisk will attempt  to  convert  BSD  disklabels
              stored  on  the  main  disk when launched, but this conversion is likely to produce
              first and/or last partitions that are unusable. The many BSD  variants  means  that
              the  probability of sgdisk being unable to convert a BSD disklabel is high compared
              to the likelihood of problems with an MBR conversion.

       -u, --partition-guid=partnum:guid
              Set the partition unique GUID for an individual partition. The GUID may be  a  com-
              plete GUID or 'R' to set a random GUID.

       -U, --disk-guid=guid
              Set  the  GUID for the disk. The GUID may be a complete GUID or 'R' to set a random
              GUID.

       --usage
              Print a brief summary of available options.

       -v, --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 options on the recovery & transforma-
              tion menu. If no problems are found, this command displays a summary of unallocated
              disk space. This option will work even if the disk's original  partition  table  is
              bad; however, most other options on the same command line will be ignored.

       -V, --version
              Display  program  version information. This option may be used without specifying a
              device filename.

       -z, --zap
              Zap (destroy) the GPT data structures and then exit. Use this option if you want to
              repartition  a  GPT disk using fdisk or some other GPT-unaware program. This option
              destroys only the GPT data structures; it leaves the MBR intact. This makes it use-
              ful  for wiping out GPT data structures after a disk has been repartitioned for MBR
              using a GPT-unaware utility; however, there's a risk that it will damage boot load-
              ers  or even the start of the first or end of the last MBR partition. If you use it
              on a valid GPT disk, the MBR will be left with an inappropriate EFI GPT (0xEE) par-
              tition definition, which you can delete using another utility.

       -Z, --zap-all
              Zap (destroy) the GPT and MBR data structures and then exit. This option works much
              like -z, but as it wipes the MBR as well as the GPT, it's more suitable if you want
              to  repartition a disk after using this option, and completely unsuitable if you've
              already repartitioned the disk.

       -?, --help
              Print a summary of options.

RETURN VALUES
       sgdisk returns various values depending on its success or failure:

       0      Normal program execution

       1      Too few arguments

       2      An error occurred while reading the partition table

       3      Non-GPT disk detected and no -g option, but operation requires a write action

       4      An error prevented saving changes

       5      An error occurred while reading standard input (should never occur with sgdisk, but
              may with gdisk)

       8      Disk replication operation (-R) failed

BUGS
       Known bugs and limitations include:

       *      The program compiles correctly only on Linux, FreeBSD, and Mac OS X. 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.

       *      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 fields used to display the start and end sector numbers for partitions  in  the
              -p  option are 14 characters wide. This translates to a limitation of about 45 PiB.
              On larger disks, the displayed columns will go out of alignment.

       *      The program can load only up to 128 partitions (4 primary partitions and 124  logi-
              cal partitions) when converting from MBR format. This limit can be raised by chang-
              ing the #define MAX_MBR_PARTS line in the basicmbr.h source code file and recompil-
              ing;  however,  such a change will require using a larger-than-normal partition ta-
              ble. (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) 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 gdisk.

       *      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  RC doesn't support booting from GPT disks. Creating a hybrid MBR
              (using the 'h' option on the recovery & transformation menu) or abandoning  GPT  in
              favor of MBR may be your only options in this case.

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

       Contributors:

       * Yves Blusseau (1otnwmz02 AT sneakemail.com)

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

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

       * Dwight Schauer (das AT teegra.net)

       * Florian Zumbiehl (florz AT florz.de)

SEE ALSO
       cfdisk(8), cgdisk(8), fdisk(8), gdisk(8), mkfs(8), parted(8), sfdisk(8), fixparts(8).

       http://en.wikipedia.org/wiki/GUID_Partition_Table

       http://developer.apple.com/technotes/tn2006/tn2166.html

       http://www.rodsbooks.com/gdisk/

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

Roderick W. Smith                             1.0.8                                     SGDISK(8)

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