.\" Copyright (c) 2007, 2008 Marcel Moolenaar .\" All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" .\" THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND .\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE .\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE .\" ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE .\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL .\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS .\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) .\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT .\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY .\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF .\" SUCH DAMAGE. .\" .\" $FreeBSD$ .\" .Dd May 03, 2011 .Dt GPART 8 .Os .Sh NAME .Nm gpart .Nd "control utility for the disk partitioning GEOM class" .Sh SYNOPSIS To add support for the disk partitioning GEOM class, place one or more of the following lines in your kernel configuration file: .Bd -ragged -offset indent .Cd "options GEOM_PART_APM" .Cd "options GEOM_PART_BSD" .Cd "options GEOM_PART_EBR" .Cd "options GEOM_PART_EBR_COMPAT" .Cd "options GEOM_PART_GPT" .Cd "options GEOM_PART_MBR" .Cd "options GEOM_PART_PC98" .Cd "options GEOM_PART_VTOC8" .Ed .Pp The .Dv GEOM_PART_APM option adds support for the Apple Partition Map (APM) found on Apple Macintosh computers. The .Dv GEOM_PART_BSD option adds support for the traditional .Bx disklabel. The .Dv GEOM_PART_EBR option adds support for the Extended Boot Record (EBR), which is used to define a logical partition. The .Dv GEOM_PART_EBR_COMPAT option enables backward compatibility for partition names in the EBR scheme. Also it makes impossible any types of actions with such partitions. The .Dv GEOM_PART_GPT option adds support for the GUID Partition Table (GPT) found on Intel Itanium computers and Intel-based Macintosh computers. The .Dv GEOM_PART_MBR option adds support for the Master Boot Record (MBR) found on PCs and used on many removable media. The .Dv GEOM_PART_PC98 option adds support for the MBR variant as used on NEC PC-98 computers. The .Dv GEOM_PART_VTOC8 option adds support for Sun's SMI VTOC8 label as found on computers based on .Tn SPARC64 and .Tn UltraSPARC. .Pp Usage of the .Ns Nm utility: .Pp .\" ==== ADD ==== .Nm .Cm add .Fl t Ar type .Op Fl a Ar alignment .Op Fl b Ar start .Op Fl s Ar size .Op Fl i Ar index .Op Fl l Ar label .Op Fl f Ar flags .Ar geom .\" ==== BACKUP ==== .Nm .Cm backup .Ar geom .\" ==== BOOTCODE ==== .Nm .Cm bootcode .Op Fl b Ar bootcode .Op Fl p Ar partcode Fl i Ar index .Op Fl f Ar flags .Ar geom .\" ==== COMMIT ==== .Nm .Cm commit .Ar geom .\" ==== CREATE ==== .Nm .Cm create .Fl s Ar scheme .Op Fl n Ar entries .Op Fl f Ar flags .Ar provider .\" ==== DELETE ==== .Nm .Cm delete .Fl i Ar index .Op Fl f Ar flags .Ar geom .\" ==== DESTROY ==== .Nm .Cm destroy .Op Fl F .Op Fl f Ar flags .Ar geom .\" ==== MODIFY ==== .Nm .Cm modify .Fl i Ar index .Op Fl l Ar label .Op Fl t Ar type .Op Fl f Ar flags .Ar geom .\" ==== RECOVER ==== .Nm .Cm recover .Op Fl f Ar flags .Ar geom .\" ==== RESIZE ==== .Nm .Cm resize .Fl i Ar index .Op Fl a Ar alignment .Op Fl s Ar size .Op Fl f Ar flags .Ar geom .\" ==== RESTORE ==== .Nm .Cm restore .Op Fl lF .Op Fl f Ar flags .Ar provider .Op Ar ... .\" ==== SET ==== .Nm .Cm set .Fl a Ar attrib .Fl i Ar index .Op Fl f Ar flags .Ar geom .\" ==== SHOW ==== .Nm .Cm show .Op Fl lrp .Op Ar geom ... .\" ==== UNDO ==== .Nm .Cm undo .Ar geom .\" ==== UNSET ==== .Nm .Cm unset .Fl a Ar attrib .Fl i Ar index .Op Fl f Ar flags .Ar geom .\" .Sh DESCRIPTION The .Nm utility is used to partition GEOM providers, normally disks. The first argument of which is the action to be taken: .Bl -tag -width ".Cm bootcode" .\" ==== ADD ==== .It Cm add Add a new partition to the partitioning scheme given by .Ar geom . The partition begins on the logical block address given by the .Fl b Ar start option. Its size is given by the .Fl s Ar size option. SI unit suffixes are allowed. One or both .Fl b and .Fl s options can be omitted. If so they are automatically calculated. The type of the partition is given by the .Fl t Ar type option. Partition types are discussed below in the section entitled .Sx "PARTITION TYPES" . .Pp Additional options include: .Bl -tag -width 12n .It Fl a Ar alignment If specified, then .Nm utility tries to align .Ar start offset and partition .Ar size to be multiple of .Ar alignment value. .It Fl i Ar index The index in the partition table at which the new partition is to be placed. The index determines the name of the device special file used to represent the partition. .It Fl l Ar label The label attached to the partition. This option is only valid when used on partitioning schemes that support partition labels. .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== BACKUP ==== .It Cm backup Dump a partition table to standard output in special format used by .Cm restore action. .\" ==== BOOTCODE ==== .It Cm bootcode Embed bootstrap code into the partitioning scheme's metadata on the .Ar geom (using .Fl b Ar bootcode ) or write bootstrap code into a partition (using .Fl p Ar partcode and .Fl i Ar index ) . Not all partitioning schemes have embedded bootstrap code, so the .Fl b Ar bootcode option is scheme-specific in nature. For the GPT scheme, embedded bootstrap code is supported. The bootstrap code is embedded in the protective MBR rather than the GPT. The .Fl b Ar bootcode option specifies a file that contains the bootstrap code. The contents and size of the file are determined by the partitioning scheme. For the MBR scheme, it is a 512 byte file of which the first 446 bytes are installed as bootstrap code. The .Fl p Ar partcode option specifies a file that contains the bootstrap code intended to be written to a partition. For the VTOC8 scheme, it is a 8192 byte file of which the last 7680 bytes are installed as bootstrap code. The partition is specified by the .Fl i Ar index option. For the VTOC8 scheme, if the .Fl i Ar index option is omitted, the bootstrap code is written to all sufficiently large partitions. The size of the file must be smaller than the size of the partition. .Pp Additional options include: .Bl -tag -width 10n .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== COMMIT ==== .It Cm commit Commit any pending changes for geom .Ar geom . All actions are being committed by default and will not result in pending changes. Actions can be modified with the .Fl f Ar flags option so that they are not being committed by default. As such, they become pending. Pending changes are reflected by the geom and the .Nm utility, but they are not actually written to disk. The .Cm commit action will write any and all pending changes to disk. .\" ==== CREATE ==== .It Cm create Create a new partitioning scheme on a provider given by .Ar provider . The .Fl s Ar scheme option determines the scheme to use. The kernel needs to have support for a particular scheme before that scheme can be used to partition a disk. .Pp Additional options include: .Bl -tag -width 10n .It Fl n Ar entries The number of entries in the partition table. Every partitioning scheme has a minimum and a maximum number of entries and this option allows tables to be created with the number of entries that lies anywhere between the minimum and the maximum. Some schemes have a maximum equal to the minimum and some schemes have a maximum large enough to be considered unlimited. By default, partition tables are created with the minimum number of entries. .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== DELETE ==== .It Cm delete Delete a partition from geom .Ar geom and further identified by the .Fl i Ar index option. The partition cannot be actively used by the kernel. .Pp Additional options include: .Bl -tag -width 10n .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== DESTROY ==== .It Cm destroy Destroy the partitioning scheme as implemented by geom .Ar geom . .Pp Additional options include: .Bl -tag -width 10n .It Fl F Forced destroying of the partition table even if it is not empty. .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== MODIFY ==== .It Cm modify Modify a partition from geom .Ar geom and further identified by the .Fl i Ar index option. Only the the type and/or label of the partition can be modified. To change the type of a partition, specify the new type with the .Fl t Ar type option. To change the label of a partition, specify the new label with the .Fl l Ar label option. Not all partitioning schemes support labels and it is invalid to try to change a partition label in such cases. .Pp Additional options include: .Bl -tag -width 10n .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== RECOVER ==== .It Cm recover Recover corrupt partition's scheme metadata on the geom .Ar geom . See the section entitled .Sx "RECOVERING" below for the additional information. .Pp Additional options include: .Bl -tag -width 10n .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== RESIZE ==== .It Cm resize Resize a partition from geom .Ar geom and further identified by the .Fl i Ar index option. New partition size is expressed in logical block numbers and can be given by the .Fl s Ar size option. If .Fl s option is omitted then new size is automatically calculated to maximum available from given geom .Ar geom . .Pp Additional options include: .Bl -tag -width 12n .It Fl a Ar alignment If specified, then .Nm utility tries to align partition .Ar size to be multiple of .Ar alignment value. .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== RESTORE ==== .It Cm restore Restore the partition table from backup previously created by .Cm backup action and given from standard input. Only partition table may be restored. This action does not affect content of partitions. This mean that you should copy your data from backup after restoring partition table and write bootcode again if it is needed. .Pp Additional options include: .Bl -tag -width 10n .It Fl F Destroy partition table on the given .Ar provider before doing restore. .It Fl l Restore partition labels for partitioning schemes that support them. .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== SET ==== .It Cm set Set the named attribute on the partition entry. See the section entitled .Sx "ATTRIBUTES" below for a list of available attributes. .Pp Additional options include: .Bl -tag -width 10n .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .\" ==== SHOW ==== .It Cm show Show the current partition information of the specified geoms or all geoms if none are specified. Additional options include: .Bl -tag -width 10n .It Fl l For partition schemes that support partition labels print them instead of partition type. .It Fl p Show provider names instead of partition indexes. .It Fl r Show raw partition type instead of symbolic name. .El .\" ==== UNDO ==== .It Cm undo Revert any pending changes for geom .Ar geom . This action is the opposite of the .Cm commit action and can be used to undo any changes that have not been committed. .\" ==== UNSET ==== .It Cm unset Clear the named attribute on the partition entry. See the section entitled .Sx "ATTRIBUTES" below for a list of available attributes. .Pp Additional options include: .Bl -tag -width 10n .It Fl f Ar flags Additional operational flags. See the section entitled .Sx "OPERATIONAL FLAGS" below for a discussion about its use. .El .El .\" .Sh PARTITION TYPES The .Nm utility uses symbolic names for common partition types to avoid that the user needs to know what the partitioning scheme in question is and what the actual number or identification needs to be used for a particular type. The .Nm utility also allows the user to specify scheme-specific partition types for partition types that do not have symbol names. The symbolic names currently understood are: .Bl -tag -width ".Cm freebsd-vinum" .It Cm bios-boot The system partition dedicated to second stage of the boot loader program. Usually it used by GRUB 2 loader when the partition table is GPT. The scheme-specific type is .Qq Li "!21686148-6449-6E6F-744E-656564454649" . .It Cm efi The system partition for computers that use the Extensible Firmware Interface (EFI). In such cases, the GPT partitioning scheme is being used and the actual partition type for the system partition can also be specified as .Qq Li "!c12a7328-f81f-11d2-ba4b-00a0c93ec93ab" . .It Cm freebsd A .Fx partition that uses the .Bx disklabel to sub-divide the partition into file systems. This is a legacy partition type and should not be used for the APM or GPT schemes. The scheme-specific types are .Qq Li "!165" for MBR, .Qq Li "!FreeBSD" for APM, and .Qq Li "!516e7cb4-6ecf-11d6-8ff8-00022d09712b" for GPT. .It Cm freebsd-boot A .Fx partition dedicated to bootstrap code. The scheme-specific type is .Qq Li "!83bd6b9d-7f41-11dc-be0b-001560b84f0f" for GPT. .It Cm freebsd-swap A .Fx partition dedicated to swap space. The scheme-specific types are .Qq Li "!FreeBSD-swap" for APM, .Qq Li "!516e7cb5-6ecf-11d6-8ff8-00022d09712b" for GPT, and tag 0x0901 for VTOC8. .It Cm freebsd-ufs A .Fx partition that contains a UFS or UFS2 file system. The scheme-specific types are .Qq Li "!FreeBSD-UFS" for APM, .Qq Li "!516e7cb6-6ecf-11d6-8ff8-00022d09712b" for GPT, and tag 0x0902 for VTOC8. .It Cm freebsd-vinum A .Fx partition that contains a Vinum volume. The scheme-specific types are .Qq Li "!FreeBSD-Vinum" for APM, .Qq Li "!516e7cb8-6ecf-11d6-8ff8-00022d09712b" for GPT, and tag 0x0903 for VTOC8. .It Cm freebsd-zfs A .Fx partition that contains a ZFS volume. The scheme-specific types are .Qq Li "!FreeBSD-ZFS" for APM, .Qq Li "!516e7cba-6ecf-11d6-8ff8-00022d09712b" for GPT, and 0x0904 for VTOC8. .It Cm mbr A partition that is sub-partitioned by a master boot record (MBR). This type is known as .Qq Li "!024dee41-33e7-11d3-9d69-0008c781f39f" by GPT. .El .Sh ATTRIBUTES The scheme-specific attributes for EBR: .Bl -tag -width ".Ar active" .It Ar active .El .Pp The scheme-specific attributes for GPT: .Bl -tag -width ".Ar bootfailed" .It Ar bootme When set, the .Nm gptboot stage 1 boot loader will try to boot the system from this partition. Multiple partitions might be marked with the .Ar bootme attribute. In such scenario the .Nm gptboot will try all .Ar bootme partitions one by one, until the next boot stage is successfully entered. .It Ar bootonce Setting this attribute automatically sets the .Ar bootme attribute. When set, the .Nm gptboot stage 1 boot loader will try to boot the system from this partition only once. Partitions with both .Ar bootonce and .Ar bootme attributes are tried before partitions with only the .Ar bootme attribute. Before .Ar bootonce partition is tried, the .Nm gptboot removes the .Ar bootme attribute and tries to execute the next boot stage. If it fails, the .Ar bootonce attribute that is now alone is replaced with the .Ar bootfailed attribute. If the execution of the next boot stage succeeds, but the system is not fully booted, the .Nm gptboot will look for .Ar bootonce attributes alone (without the .Ar bootme attribute) on the next system boot and will replace those with the .Ar bootfailed attribute. If the system is fully booted, the .Pa /etc/rc.d/gptboot start-up script will look for partition with the .Ar bootonce attribute alone, will remove the attribute and log that the system was successfully booted from this partition. There should be at most one .Ar bootonce partition when system is successfully booted. Multiple partitions might be marked with the .Ar bootonce and .Ar bootme attribute pairs. .It Ar bootfailed This attribute should not be manually managed. It is managed by the .Nm gptboot stage 1 boot loader and the .Pa /etc/rc.d/gptboot start-up script. This attribute is used to mark partitions that had the .Ar bootonce attribute set, but we failed to boot from them. Once we successfully boot, the .Pa /etc/rc.d/gptboot script will log all the partitions we failed to boot from and will remove the .Ar bootfailed attributes. .El .Pp The scheme-specific attributes for MBR: .Bl -tag -width ".Ar active" .It Ar active .El .Pp The scheme-specific attributes for PC98: .Bl -tag -width ".Ar bootable" .It Ar active .It Ar bootable .El .Sh OPERATIONAL FLAGS Actions other than the .Cm commit and .Cm undo actions take an optional .Fl f Ar flags option. This option is used to specify action-specific operational flags. By default, the .Nm utility defines the .Ql C flag so that the action is immediately committed. The user can specify .Dq Fl f Cm x to have the action result in a pending change that can later, with other pending changes, be committed as a single compound change with the .Cm commit action or reverted with the .Cm undo action. .Sh RECOVERING The GEOM class PART supports recovering of partition tables only for GPT. The GUID partition table has a primary and secondary (backup) copy of metadata for redundance. They are stored in the begining and in the end of device respectively. Therefore it is acceptable to have some corruptions in the metadata that are not fatal to work with GPT. When kernel detects corrupt metadata it marks this table as corrupt and reports about corruption. Any changes in corrupt table are prohibited except .Cm destroy and .Cm recover . .Pp In case when only first sector is corrupt kernel can not detect GPT even if partition table is not corrupt. You can write protective MBR with .Xr dd 1 command to restore ability of GPT detection. The copy of protective MBR is usually located in the .Pa /boot/pmbr file. .Pp In case when some of metadata is corrupt you will get to know about this from kernel's messages like these: .Bd -literal -offset indent GEOM: provider: the primary GPT table is corrupt or invalid. GEOM: provider: using the secondary instead -- recovery strongly advised. .Ed .Pp or .Bd -literal -offset indent GEOM: provider: the secondary GPT table is corrupt or invalid. GEOM: provider: using the primary only -- recovery suggested. .Ed .Pp Also .Cm gpart commands like .Cm show , .Cm status and .Cm list will report about corrupt table. .Pp In case when the size of device has changed (e.g. volume expansion) the secondary GPT header will become located not in the last sector. This is not a metadata corruption, but it is dangerous because any corruption of the primary GPT will lead to lost of partition table. Kernel reports about this problem with message: .Bd -literal -offset indent GEOM: provider: the secondary GPT header is not in the last LBA. .Ed .Pp A corrupt table can be recovered with .Cm gpart recover command. This command does reconstruction of corrupt metadata using known valid metadata. Also it can relocate secondary GPT to the end of device. .Pp .Pa NOTE : The GEOM class PART can detect the same partition table on different GEOM providers and some of them will be marked as corrupt. Be careful when choosing a provider for recovering. If you choose incorrectly you can destroy the metadata of another GEOM class, e.g. GEOM MIRROR or GEOM LABEL. .Sh EXIT STATUS Exit status is 0 on success, and 1 if the command fails. .Sh EXAMPLES Create GPT scheme on .Pa ad0 . .Bd -literal -offset indent /sbin/gpart create -s GPT ad0 .Ed .Pp Embed GPT bootstrap code into protective MBR. .Bd -literal -offset indent /sbin/gpart bootcode -b /boot/pmbr ad0 .Ed .Pp Create a dedicated .Cm freebsd-boot partition that can boot .Fx from a .Cm freebsd-ufs partition, and install bootstrap code into it. This partition must be larger than .Pa /boot/gptboot , or the GPT boot you are planning to write, but smaller than 545 KB. A size of 15 blocks (7680 bytes) would be sufficient for booting from UFS but let's use 128 blocks (64 KB) here in this example, in order to reserve some space for potential future need (e.g.\& from a ZFS partition). .Bd -literal -offset indent /sbin/gpart add -b 34 -s 128 -t freebsd-boot ad0 /sbin/gpart bootcode -p /boot/gptboot -i 1 ad0 .Ed .Pp Create a 512MB-sized .Cm freebsd-ufs partition that would contain UFS where the system boots from. .Bd -literal -offset indent /sbin/gpart add -b 162 -s 1048576 -t freebsd-ufs ad0 .Ed .Pp Create VTOC8 scheme on .Pa da0 . .Bd -literal -offset indent /sbin/gpart create -s VTOC8 da0 .Ed .Pp Create a 512MB-sized .Cm freebsd-ufs partition that would contain UFS where the system boots from. .Bd -literal -offset indent /sbin/gpart add -s 512M -t freebsd-ufs da0 .Ed .Pp Create a 15GB-sized .Cm freebsd-ufs partition that would contain UFS and aligned on 4KB boundaries: .Bd -literal -offset indent /sbin/gpart add -s 15G -t freebsd-ufs -a 4k da0 .Ed .Pp After having created all required partitions, embed bootstrap code into them. .Bd -literal -offset indent /sbin/gpart bootcode -p /boot/boot1 da0 .Ed .Pp Create backup of partition table from .Pa da0 .Bd -literal -offset indent /sbin/gpart backup da0 > da0.backup .Ed .Pp Restore partition table from backup to .Pa da0 .Bd -literal -offset indent /sbin/gpart restore -l da0 < /mnt/da0.backup .Ed .Pp Clone partition table from .Pa ada0 to .Pa ada1 and .Pa ada2 .Bd -literal -offset indent /sbin/gpart backup ada0 | /sbin/gpart restore -F ada1 ada2 .Ed .Sh SEE ALSO .Xr dd 1 , .Xr geom 4 , .Xr geom 8 .Sh HISTORY The .Nm utility appeared in .Fx 7.0 . .Sh AUTHORS .An Marcel Moolenaar Aq marcel@FreeBSD.org