svn commit: r230002 - stable/9/sbin/geom/class/part

Warren Block wblock at FreeBSD.org
Thu Jan 12 04:37:20 UTC 2012


Author: wblock (doc committer)
Date: Thu Jan 12 04:37:19 2012
New Revision: 230002
URL: http://svn.freebsd.org/changeset/base/230002

Log:
  MFC r227774, r227777, r227800, r229838, r229847:
  
  MFC r227774:
  Add a section that explicitly describes partitioning schemes.  Modify
  existing sections to refer to the new one.  Rearrange partitioning
  scheme list so MBR and EBR types are together.  Also add several
  corrections for grammar, clarity, and consistency.
  
  MFC r227777:
  Fix date.
  
  MFC r227800:
  Correct and expand BSD partitioning scheme description.
  Correct GUID to GPT in RECOVERING section.
  
  MFC r229838:
  Clarity improvements.
  
  MFC r229847:
  Whitespace-only fix.
  
  Approved by:	gjb (mentor)

Modified:
  stable/9/sbin/geom/class/part/gpart.8
Directory Properties:
  stable/9/sbin/geom/   (props changed)

Modified: stable/9/sbin/geom/class/part/gpart.8
==============================================================================
--- stable/9/sbin/geom/class/part/gpart.8	Thu Jan 12 03:52:53 2012	(r230001)
+++ stable/9/sbin/geom/class/part/gpart.8	Thu Jan 12 04:37:19 2012	(r230002)
@@ -24,7 +24,7 @@
 .\"
 .\" $FreeBSD$
 .\"
-.Dd August 19, 2011
+.Dd January 8, 2012
 .Dt GPART 8
 .Os
 .Sh NAME
@@ -33,56 +33,25 @@
 .Sh SYNOPSIS
 To add support for the disk partitioning GEOM class,
 place one or more of the following
-lines in your kernel configuration file:
+lines in the 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_EBR"
+.Cd "options GEOM_PART_EBR_COMPAT"
 .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.
+These options provide support for the various types of partitioning
+schemes supported by the
+.Ns Nm
+utility.
+See
+.Sx "PARTITIONING SCHEMES"
+below for more details.
 .Pp
 Usage of the
 .Ns Nm
@@ -190,7 +159,7 @@ utility:
 The
 .Nm
 utility is used to partition GEOM providers, normally disks.
-The first argument of which is the action to be taken:
+The first argument is the action to be taken:
 .Bl -tag -width ".Cm bootcode"
 .\" ==== ADD ====
 .It Cm add
@@ -245,7 +214,7 @@ about its use.
 .El
 .\" ==== BACKUP ====
 .It Cm backup
-Dump a partition table to standard output in special format used by
+Dump a partition table to standard output in a special format used by the
 .Cm restore
 action.
 .\" ==== BOOTCODE ====
@@ -290,18 +259,17 @@ about its use.
 .It Cm commit
 Commit any pending changes for geom
 .Ar geom .
-All actions are being committed by default and will not result in
+All actions are 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.
+option so that they are not committed, but 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.
+action will write all pending changes to disk.
 .\" ==== CREATE ====
 .It Cm create
 Create a new partitioning scheme on a provider given by
@@ -309,16 +277,16 @@ Create a new partitioning scheme on a pr
 The
 .Fl s Ar scheme
 option determines the scheme to use.
-The kernel needs to have support for a particular scheme before
+The kernel must 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.
+Every partitioning scheme has a minimum and maximum number of entries.
+This option allows tables to be created with a number of entries
+that is within the limits.
 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
@@ -392,7 +360,7 @@ about its use.
 .El
 .\" ==== RECOVER ====
 .It Cm recover
-Recover corrupt partition's scheme metadata on the geom
+Recover a corrupt partition's scheme metadata on the geom
 .Ar geom .
 See the section entitled
 .Sx RECOVERING
@@ -443,13 +411,13 @@ about its use.
 .El
 .\" ==== RESTORE ====
 .It Cm restore
-Restore the partition table from backup previously created by
+Restore the partition table from a backup previously created by the
 .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.
+action and read from standard input.
+Only the partition table is restored.
+This action does not affect the content of partitions.
+After restoring the partition table and writing bootcode if needed,
+user data must be restored from backup.
 .Pp
 Additional options include:
 .Bl -tag -width 10n
@@ -489,7 +457,7 @@ 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
+For partitioning schemes that support partition labels, print them
 instead of partition type.
 .It Fl p
 Show provider names instead of partition indexes.
@@ -520,39 +488,95 @@ below for a discussion
 about its use.
 .El
 .El
-.\"
+.Sh PARTITIONING SCHEMES
+Several partitioning schemes are supported by the
+.Nm
+utility:
+.Bl -tag -width ".Cm VTOC8"
+.It Cm APM
+Apple Partition Map, used by PowerPC(R) Macintosh(R) computers.
+Requires the
+.Cd GEOM_PART_APM
+kernel option.
+.It Cm BSD
+Traditional BSD disklabel, usually used to subdivide MBR partitions.
+.Po
+This scheme can also be used as the sole partitioning method, without
+an MBR.
+Partition editing tools from other operating systems often do not
+understand the bare disklabel partition layout, so this is sometimes
+called
+.Dq dangerously dedicated .
+.Pc
+Requires the
+.Cm GEOM_PART_BSD
+kernel option.
+.It Cm GPT
+GUID Partition Table is used on Intel-based Macintosh computers and
+gradually replacing MBR on most PCs and other systems.
+Requires the
+.Cm GEOM_PART_GPT
+kernel option.
+.It Cm MBR
+Master Boot Record is used on PCs and removable media.
+Requires the
+.Cm GEOM_PART_MBR
+kernel option.
+The
+.Cm GEOM_PART_EBR
+option adds support for the Extended Boot Record (EBR),
+which is used to define a logical partition.
+The
+.Cm GEOM_PART_EBR_COMPAT
+option enables backward compatibility for partition names
+in the EBR scheme.
+It also prevents any type of actions on such partitions.
+.It Cm PC98
+An MBR variant for NEC PC-98 and compatible computers.
+Requires the
+.Cm GEOM_PART_PC98
+kernel option.
+.It Cm VTOC8
+Sun's SMI Volume Table Of Contents, used by
+.Tn SPARC64
+and
+.Tn UltraSPARC
+computers.
+Requires the
+.Cm GEOM_PART_VTOC8
+kernel option.
+.El
 .Sh PARTITION TYPES
 Partition types are identified on disk by particular strings or magic
 values.
 The
 .Nm
-utility uses symbolic names for common partition types to avoid the
-user needing to know these values or other details of the partitioning
+utility uses symbolic names for common partition types so the user
+does not need to know these values or other details of the partitioning
 scheme in question.
 The
 .Nm
 utility also allows the user to specify scheme-specific partition types
 for partition types that do not have symbolic names.
-The symbolic names currently understood are:
+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.
+Usually it is used by the GRUB 2 loader for GPT partitioning schemes.
 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
+In such cases, the GPT partitioning scheme is 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
+partition subdivided into filesystems with a
 .Bx
-disklabel to sub-divide the
-partition into file systems.
+disklabel.
 This is a legacy partition type and should not be used for the APM
 or GPT schemes.
 The scheme-specific types are
@@ -581,7 +605,7 @@ for GPT, and tag 0x0901 for VTOC8.
 .It Cm freebsd-ufs
 A
 .Fx
-partition that contains a UFS or UFS2 file system.
+partition that contains a UFS or UFS2 filesystem.
 The scheme-specific types are
 .Qq Li "!FreeBSD-UFS"
 for APM,
@@ -606,7 +630,7 @@ 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).
+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.
@@ -712,27 +736,28 @@ The scheme-specific attributes for PC98:
 .Fx
 supports several partitioning schemes and each scheme uses different
 bootstrap code.
-The bootstrap code is located in the specific disk area for each partitioning
-scheme and also it might have different size.
+The bootstrap code is located in a specific disk area for each partitioning
+scheme, and may vary in size for different schemes.
 .Pp
-The bootstrap code could be separated into two types.
-The first one is embedded in the partitioning scheme's metadata, the second
-type is located on the specific partition.
-The embedding bootstrap code should be done only with the
+Bootstrap code can be separated into two types.
+The first type is embedded in the partitioning scheme's metadata, while the
+second type is located on a specific partition.
+Embedding bootstrap code should only be done with the
 .Cm gpart bootcode
-command with
+command with the
 .Fl b Ar bootcode
 option.
-The GEOM PART class has knowlege on how to embed bootstrap code into specific
-partitioning scheme metadata without damage.
+The GEOM PART class knows how to safely embed bootstrap code into
+specific partitioning scheme metadata without causing any damage.
 .Pp
-The Master Boot Record (MBR) uses 512-bytes bootstrap code image, embedded into
-partition table's metadata area.
+The Master Boot Record (MBR) uses a 512-byte bootstrap code image, embedded
+into the partition table's metadata area.
 There are two variants of this bootstrap code:
 .Pa /boot/mbr
 and
 .Pa /boot/boot0 .
-The first one searches partition with
+.Pa /boot/mbr
+searches for a partition with the
 .Cm active
 attribute (see the
 .Sx ATTRIBUTES
@@ -740,9 +765,10 @@ section) in the partition table.
 Then it runs next bootstrap stage.
 The
 .Pa /boot/boot0
-image contains a boot manager with some additional interactive functions.
+image contains a boot manager with some additional interactive functions
+for multi-booting from a user-selected partition.
 .Pp
-The BSD disklabel is usually created on top of the MBR partition (slice)
+A BSD disklabel is usually created inside an MBR partition (slice)
 with type
 .Cm freebsd
 (see the
@@ -750,17 +776,17 @@ with type
 section).
 It uses 8 KB size bootstrap code image
 .Pa /boot/boot ,
-embedded into partition table's metadata area.
+embedded into the partition table's metadata area.
 .Pp
 Both types of bootstrap code are used to boot from the GUID Partition Table.
-First of all, a protective MBR is embedded into first disk sector from the
+First, a protective MBR is embedded into the first disk sector from the
 .Pa /boot/pmbr
 image.
-It searches the
+It searches the GPT
 .Cm freebsd-boot
 partition (see the
 .Sx "PARTITION TYPES"
-section) in the GPT and runs next bootstrap stage from it.
+section) in the GPT and runs the next bootstrap stage from it.
 The
 .Cm freebsd-boot
 partition should be smaller than 545 KB.
@@ -768,37 +794,39 @@ There are two variants of bootstrap code
 .Pa /boot/gptboot
 and
 .Pa /boot/gptzfsboot .
-The first one is used to boot from UFS.
-It searches in the GPT partition with type
-.Cm freebsd-ufs ,
-and it runs the third bootstrap stage (
-.Pa /boot/loader )
-if it is found.
+.Pa /boot/gptboot
+is used to boot from UFS.
+It searches
+.Cm freebsd-ufs
+GPT partitions and starts
+.Pa /boot/loader
+.Pq the third bootstrap stage
+if found.
 The
 .Pa /boot/gptzfsboot
 is used to boot from ZFS.
-It searches partition with type
+It searches
 .Cm freebsd-zfs
-and starts
+GPT partitions and starts
 .Pa /boot/zfsloader
-from it.
+if found.
 .Pp
 The VTOC8 scheme does not support embedding bootstrap code.
 Instead, the 8 KBytes bootstrap code image
 .Pa /boot/boot1
-should be written with
+should be written with the
 .Cm gpart bootcode
-command with
+command with the
 .Fl p Ar bootcode
 option to all sufficiently large VTOC8 partitions.
 To do this the
 .Fl i Ar index
-option could be ommited.
+option could be omitted.
 .Pp
 The APM scheme also does not support embedding bootstrap code.
 Instead, the 800 KBytes bootstrap code image
 .Pa /boot/boot1.hfs
-should be written with
+should be written with the
 .Cm gpart bootcode
 command to a partition of type
 .Cm freebsd-boot ,
@@ -829,21 +857,22 @@ action or reverted with the
 action.
 .Sh RECOVERING
 The GEOM PART class supports recovering of partition tables only for GPT.
-The GUID partition table has a primary and secondary (backup) copy of
-metadata for redundance, these are stored at the begining and the end
-of the device respectively.
-As a result of having two copies, it is acceptable to have some corruption
-within the metadata that is not fatal to the working of GPT.
-When the kernel detects corrupt metadata it marks this table as corrupt and
-reports the corruption.
-Any operations on corrupt tables are prohibited except for
+The GPT primary metadata is stored at the beginning of the device.
+For redundancy, a secondary
+.Pq backup
+copy of the metadata is stored at the end of the device.
+As a result of having two copies, some corruption of metadata is not
+fatal to the working of GPT.
+When the kernel detects corrupt metadata, it marks this table as corrupt
+and reports the problem.
 .Cm destroy
 and
-.Cm recover .
+.Cm recover
+are the only operations allowed on corrupt tables.
 .Pp
 If the first sector of a provider is corrupt, the kernel can not detect GPT
-even if partition table itself is not corrupt.
-You can rewrite the protective MBR using the
+even if the partition table itself is not corrupt.
+The protective MBR can be rewritten using the
 .Xr dd 1
 command, to restore the ability to detect the GPT.
 The copy of the protective MBR is usually located in the
@@ -874,7 +903,7 @@ will report about corrupt tables.
 If the size of the device has changed (e.g.\& volume expansion) the
 secondary GPT header will no longer be located in the last sector.
 This is not a metadata corruption, but it is dangerous because any
-corruption of the primary GPT will lead to loss of partition table.
+corruption of the primary GPT will lead to loss of the partition table.
 This problem is reported by the kernel with the message:
 .Bd -literal -offset indent
 GEOM: provider: the secondary GPT header is not in the last LBA.
@@ -913,13 +942,13 @@ rejected with a diagnostic message:
 .Sh EXIT STATUS
 Exit status is 0 on success, and 1 if the command fails.
 .Sh EXAMPLES
-Create GPT scheme on
+Create a GPT scheme on
 .Pa ad0 :
 .Bd -literal -offset indent
 /sbin/gpart create -s GPT ad0
 .Ed
 .Pp
-Embed GPT bootstrap code into protective MBR:
+Embed GPT bootstrap code into a protective MBR:
 .Bd -literal -offset indent
 /sbin/gpart bootcode -b /boot/pmbr ad0
 .Ed
@@ -935,9 +964,11 @@ 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).
+booting from UFS but 128 blocks (64 KB) is used in
+this example to reserve some space for potential
+future need (e.g.\& a larger
+.Pa /boot/gptzfsboot
+for booting 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
@@ -945,17 +976,17 @@ future need (e.g.\& from a ZFS partition
 .Pp
 Create a 512MB-sized
 .Cm freebsd-ufs
-partition that would contain UFS where the system boots from:
+partition to contain a UFS filesystem from which the system can boot.
 .Bd -literal -offset indent
 /sbin/gpart add -b 162 -s 1048576 -t freebsd-ufs ad0
 .Ed
 .Pp
-Create MBR scheme on
+Create an MBR scheme on
 .Pa ada0 ,
-then create 30GB-sized
+then create a 30GB-sized
 .Fx
 slice, mark it active and
-install
+install the
 .Nm boot0
 boot manager:
 .Bd -literal -offset indent
@@ -965,16 +996,16 @@ boot manager:
 /sbin/gpart bootcode -b /boot/boot0 ada0
 .Ed
 .Pp
-Now create
+Now create a
 .Bx
 scheme
 .Pf ( Bx
-label) with ability to have up to 20 partitions:
+label) with space for up to 20 partitions:
 .Bd -literal -offset indent
 /sbin/gpart create -s BSD -n 20 ada0s1
 .Ed
 .Pp
-Create 1GB-sized UFS partition and 4GB-sized swap partition:
+Create a 1GB-sized UFS partition and a 4GB-sized swap partition:
 .Bd -literal -offset indent
 /sbin/gpart add -t freebsd-ufs -s 1G ada0s1
 /sbin/gpart add -t freebsd-swap -s 4G ada0s1
@@ -987,7 +1018,7 @@ label:
 /sbin/gpart bootcode -b /boot/boot ada0s1
 .Ed
 .Pp
-Create VTOC8 scheme on
+Create a VTOC8 scheme on
 .Pa da0 :
 .Bd -literal -offset indent
 /sbin/gpart create -s VTOC8 da0
@@ -995,36 +1026,36 @@ Create VTOC8 scheme on
 .Pp
 Create a 512MB-sized
 .Cm freebsd-ufs
-partition that would contain UFS where the system boots from:
+partition to contain a UFS filesystem from which the system can boot.
 .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:
+partition to contain a UFS filesystem 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:
+After creating 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
+Create a backup of the partition table from
 .Pa da0 :
 .Bd -literal -offset indent
 /sbin/gpart backup da0 > da0.backup
 .Ed
 .Pp
-Restore partition table from backup to
+Restore the partition table from the backup to
 .Pa da0 :
 .Bd -literal -offset indent
 /sbin/gpart restore -l da0 < /mnt/da0.backup
 .Ed
 .Pp
-Clone partition table from
+Clone the partition table from
 .Pa ada0
 to
 .Pa ada1


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