misc/mke2fs.conf.5.in - platform/external/e2fsprogs - Git at Google

 .\" -*- nroff -*-
 .\" Copyright 2006 by Theodore Ts'o.  All Rights Reserved.
 .\" This file may be copied under the terms of the GNU Public License.
 .\"
 .TH mke2fs.conf 5 "@E2FSPROGS_MONTH@ @E2FSPROGS_YEAR@" "E2fsprogs version @E2FSPROGS_VERSION@"
 .SH NAME
 mke2fs.conf \- Configuration file for mke2fs
 .SH DESCRIPTION
 .I mke2fs.conf
 is the configuration file for
 .BR mke2fs (8).
 It controls the default parameters used by
 .BR mke2fs (8)
 when it is creating ext2, ext3, or ext4 filesystems.
 .PP
 The
 .I mke2fs.conf
 file uses an INI-style format.  Stanzas, or top-level sections, are
 delimited by square braces: [ ].  Within each section, each line
 defines a relation, which assigns tags to values, or to a subsection,
 which contains further relations or subsections.
 .\" Tags can be assigned multiple values
 An example of the INI-style format used by this configuration file
 follows below:
 .P
 	[section1]
 .br
 		tag1 = value_a
 .br
 		tag1 = value_b
 .br
 		tag2 = value_c
 .P
 	[section 2]
 .br
 		tag3 = {
 .br
 			subtag1 = subtag_value_a
 .br
 			subtag1 = subtag_value_b
 .br
 			subtag2 = subtag_value_c
 .br
 		}
 .br
 		tag1 = value_d
 .br
 		tag2 = value_e
 .br
 	}
 .P
 Comments are delimited by a semicolon (';') or a hash ('#') character
 at the beginning of the comment, and are terminated by the end of
 line character.
 .P
 Tags and values must be quoted using double quotes if they contain
 spaces.  Within a quoted string, the standard backslash interpretations
 apply: "\en" (for the newline character),
 "\et" (for the tab character), "\eb" (for the backspace character),
 and "\e\e" (for the backslash character).
 .P
 Some relations expect a boolean value.  The parser is quite liberal on
 recognizing ``yes'', '`y'', ``true'', ``t'', ``1'', ``on'', etc. as a
 boolean true value, and ``no'', ``n'', ``false'', ``nil'', ``0'',
 ``off'' as a boolean false value.
 .P
 The following stanzas are used in the
 .I mke2fs.conf
 file.  They will be described in more detail in future sections of this
 document.
 .TP
 .I [options]
 Contains relations which influence how mke2fs behaves.
 .TP
 .I [defaults]
 Contains relations which define the default parameters
 used by
 .BR mke2fs (8).
 In general, these defaults may be overridden by a definition in the
 .B fs_types
 stanza, or by an command-line option provided by the user.
 .TP
 .I [fs_types]
 Contains relations which define defaults that should be used for specific
 file system and usage types.  The file system type and usage type can be
 specified explicitly using
 the
 .BR \-t and \-T
 options to
 .BR mke2fs (8),
 respectively.
 .SH THE [options] STANZA
 The following relations are defined in the
 .I [options]
 stanza.
 .TP
 .I proceed_delay
 If this relation is set to a positive integer, then if mke2fs will
 proceed after waiting
 .I proceed_delay
 seconds, after asking the user for permission to proceed, even if the
 user has not answered the question.  Defaults to 0, which means to wait
 until the user answers the question one way or another.
 .SH THE [defaults] STANZA
 The following relations are defined in the
 .I [defaults]
 stanza.
 .TP
 .I base_features
 This relation specifies the filesystems features which are enabled in
 newly created filesystems.  It may be overridden by the
 .I base_features
 relation found in the filesystem or usage type subsection of
 the
 .I [fs_types]
 stanza.
 .TP
 .I default_features
 This relation specifies a set of features that should be added or
 removed to the features listed in the
 .I base_features
 relation.  It may be overridden by the filesystem-specific
 .I default_features
 in the filesystem or usage type subsection of
 .IR [fs_types] ,
 and by the
 .B -O
 command-line option
 to
 .BR mke2fs (8).
 .TP
 .I enable_periodic_fsck
 This boolean relation specifies whether periodic filesystem checks should be
 enforced at boot time.  If set to true, checks will be forced every
 180 days, or after a random number of mounts.  These values may
 be changed later via the
 .B -i
 and
 .B -c
 command-line options to
 .BR tune2fs (8).
 .TP
 .I force_undo
 This boolean relation, if set to a value of true, forces
 .B mke2fs
 to always try to create an undo file, even if the undo file might be
 huge and it might extend the time to create the filesystem image
 because the inode table isn't being initialized lazily.
 .TP
 .I fs_type
 This relation specifies the default filesystem type if the user does not
 specify it via the
 .B \-t
 option, or if
 .B mke2fs
 is not started using a program name of the form
 .BI mkfs. fs-type\fR.
 If both the user and the
 .B mke2fs.conf
 file do not specify a default filesystem type, mke2fs will use a
 default filesystem type of
 .IR ext3
 if a journal was requested via a command-line option, or
 .I ext2
 if not.
 .TP
 .I undo_dir
 This relation specifies the directory where the undo file should be
 stored.  It can be overridden via the
 .B E2FSPROGS_UNDO_DIR
 environment variable.  If the directory location is set to the value
 .IR none ,
 .B mke2fs
 will not create an undo file.
 .PP
 In addition, any tags that can be specified in a per-file system tags
 subsection as defined below (e.g.,
 .IR blocksize ,
 .IR hash_alg ,
 .IR inode_ratio ,
 .IR inode_size ,
 .IR reserved_ratio ,
 etc.) can also be specified in the
 .I defaults
 stanza to specify the default value to be used if the user does not
 specify one on the command line, and the filesystem-type
 specific section of the configuration file does not specify a default value.
 .SH THE [fs_types] STANZA
 Each tag in the
 .I [fs_types]
 stanza names a filesystem type or usage type which can be specified via the
 .B \-t
 or
 .B \-T
 options to
 .BR mke2fs (8),
 respectively.
 .P
 The
 .B mke2fs
 program constructs a list of fs_types by concatenating the filesystem
 type (i.e., ext2, ext3, etc.) with the usage type list.  For most
 configuration options,
 .B mke2fs
 will look for a subsection in the
 .I [fs_types]
 stanza corresponding with each entry in the constructed list, with later
 entries overriding earlier filesystem or usage types.
 For
 example, consider the following
 .B mke2fs.conf
 fragment:
 .P
 [defaults]
 .br
 	base_features = sparse_super,filetype,resize_inode,dir_index
 .br
 	blocksize = 4096
 .br
 	inode_size = 256
 .br
 	inode_ratio = 16384
 .br

 .br
 [fs_types]
 .br
 	ext3 = {
 .br
 		features = has_journal
 .br
 	}
 .br
 	ext4 = {
 .br
 		features = extents,flex_bg
 .br
 		inode_size = 256
 .br
 	}
 .br
 	small = {
 .br
 		blocksize = 1024
 .br
 		inode_ratio = 4096
 .br
 	}
 .br
 	floppy = {
 .br
 		features = ^resize_inode
 .br
 		blocksize = 1024
 .br
 		inode_size = 128
 .br
 	}
 .P
 If mke2fs started with a program name of
 .BR mke2fs.ext4 ,
 then the filesystem type of ext4 will be used.  If the filesystem is
 smaller than 3 megabytes, and no usage type is specified, then
 .B mke2fs
 will use a default
 usage type of
 .IR floppy .
 This results in an fs_types list of "ext4, floppy".   Both the ext4
 subsection and the floppy subsection define an
 .I inode_size
 relation, but since the later entries in the fs_types list supersede
 earlier ones, the configuration parameter for fs_types.floppy.inode_size
 will be used, so the filesystem  will have an inode size of 128.
 .P
 The exception to this resolution is the
 .I features
 tag, which specifies a set of changes to the features used by the
 filesystem, and which is cumulative.  So in the above example, first
 the configuration relation defaults.base_features would enable an
 initial feature set with the sparse_super, filetype, resize_inode, and
 dir_index features enabled.  Then configuration relation
 fs_types.ext4.features would enable the extents and flex_bg
 features, and finally the configuration relation
 fs_types.floppy.features would remove
 the resize_inode feature, resulting in a filesystem feature set
 consisting of the sparse_super, filetype, dir_index,
 extents_and flex_bg features.
 .P
 For each filesystem type, the following tags may be used in that
 fs_type's subsection.   These tags may also be used in the
 .I default
 section:
 .TP
 .I base_features
 This relation specifies the features which are initially enabled for this
 filesystem type.  Only one
 .I base_features
 will be used, so if there are multiple entries in the fs_types list
 whose subsections define the
 .I base_features
 relation, only the last will be used by
 .BR mke2fs (8).
 .TP
 .I errors
 Change the behavior of the kernel code when errors are detected.
 In all cases, a filesystem error will cause
 .BR e2fsck (8)
 to check the filesystem on the next boot.
 .I errors
 can be one of the following:
 .RS 1.2i
 .TP 1.2i
 .B continue
 Continue normal execution.
 .TP
 .B remount-ro
 Remount filesystem read-only.
 .TP
 .B panic
 Cause a kernel panic.
 .RE
 .TP
 .I features
 This relation specifies a comma-separated list of features edit
 requests which modify the feature set
 used by the newly constructed filesystem.  The syntax is the same as the
 .B -O
 command-line option to
 .BR mke2fs (8);
 that is, a feature can be prefixed by a caret ('^') symbol to disable
 a named feature.  Each
 .I feature
 relation specified in the fs_types list will be applied in the order
 found in the fs_types list.
 .TP
 .I default_features
 This relation specifies set of features which should be enabled or
 disabled after applying the features listed in the
 .I base_features
 and
 .I features
 relations.  It may be overridden by the
 .B -O
 command-line option to
 .BR mke2fs (8).
 .TP
 .I auto_64-bit_support
 This relation is a boolean which specifies whether
 .BR mke2fs (8)
 should automatically add the 64bit feature if the number of blocks for
 the file system requires this feature to be enabled.  The resize_inode
 feature is also automatically disabled since it doesn't support 64-bit
 block numbers.
 .TP
 .I default_mntopts
 This relation specifies the set of mount options which should be enabled
 by default.  These may be changed at a later time with the
 .B -o
 command-line option to
 .BR tune2fs (8).
 .TP
 .I blocksize
 This relation specifies the default blocksize if the user does not
 specify a blocksize on the command line.
 .TP
 .I lazy_itable_init
 This boolean relation specifies whether the inode table should
 be lazily initialized.  It only has meaning if the uninit_bg feature is
 enabled.  If lazy_itable_init is true and the uninit_bg feature is
 enabled,  the inode table will
 not be fully initialized by
 .BR mke2fs (8).
 This speeds up filesystem
 initialization noticeably, but it requires the kernel to finish
 initializing the filesystem in the background when the filesystem is
 first mounted.
 .TP
 .I journal_location
 This relation specifies the location of the journal.
 .TP
 .I num_backup_sb
 This relation indicates whether file systems with the
 .B sparse_super2
 feature enabled should be created with 0, 1, or 2 backup superblocks.
 .TP
 .I packed_meta_blocks
 This boolean relation specifes whether the allocation bitmaps, inode
 table, and journal should be located at the beginning of the file system.
 .TP
 .I inode_ratio
 This relation specifies the default inode ratio if the user does not
 specify one on the command line.
 .TP
 .I inode_size
 This relation specifies the default inode size if the user does not
 specify one on the command line.
 .TP
 .I reserved_ratio
 This relation specifies the default percentage of filesystem blocks
 reserved for the super-user, if the user does not specify one on the command
 line.
 .TP
 .I hash_alg
 This relation specifies the default hash algorithm used for the
 new filesystems with hashed b-tree directories.  Valid algorithms
 accepted are:
 .IR legacy ,
 .IR half_md4 ,
 and
 .IR tea .
 .TP
 .I flex_bg_size
 This relation specifies the number of block groups that will be packed
 together to create one large virtual block group on an ext4 filesystem.
 This improves meta-data locality and performance on meta-data heavy
 workloads.  The number of groups must be a power of 2 and may only be
 specified if the flex_bg filesystem feature is enabled.
 .TP
 .I options
 This relation specifies additional extended options which should be
 treated by
 .BR mke2fs (8)
 as if they were prepended to the argument of the
 .B -E
 option.  This can be used to configure the default extended options used
 by
 .BR mke2fs (8)
 on a per-filesystem type basis.
 .TP
 .I discard
 This boolean relation specifies whether the
 .BR mke2fs (8)
 should attempt to discard device prior to filesystem creation.
 .TP
 .I cluster_size
 This relation specifies the default cluster size if the bigalloc file
 system feature is enabled.  It can be overridden via the
 .B \-C
 command line option to
 .BR mke2fs (8)
 .TP
 .I make_hugefiles
 This boolean relation enables the creation of pre-allocated files as
 part of formatting the file system.
 .TP
 .I hugefiles_uid
 This relation controls the user ownership for all of the files and
 directories created by the
 .I make_hugefiles
 feature.
 .TP
 .I hugefiles_gid
 This relation controls the group ownership for all of the files and
 directories created by the
 .I make_hugefiles
 feature.
 .TP
 .I hugefiles_umask
 This relation specifies the umask used when creating the files and
 directories by the
 .I make_hugefiles
 feature.
 .TP
 .I num_hugefiles
 This relation specifies the number of huge files to be created.  If this
 relation is not specified, or is set to zero, and the
 .I hugefiles_size
 relation is non-zero, then
 .I make_hugefiles
 will create as many huge files as can fit to fill the entire file system.
 .TP
 .I hugefiles_slack
 This relation specifies how much space should be reserved for other
 files.
 .TP
 .I hugefiles_size
 This relation specifies the size of the huge files.  If this relation is
 not specified, the default is to fill the entire file system.
 .TP
 .I hugefiles_align
 This relation specifies the alignment for the start block of the huge
 files.  It also forces the size of huge files to be a multiple of the
 requested alignment.  If this relation is not specified, no alignment
 requirement will be imposed on the huge files.
 .TP
 .I hugefiles_align_disk
 This relations specifies whether the alignment should be relative to the
 beginning of the hard drive (assuming that the starting offset of the
 partition is available to mke2fs).  The default value is false, which
 will cause hugefile alignment to be relative to the beginning of the
 file system.
 .TP
 .I hugefiles_name
 This relation specifies the base file name for the huge files.
 .TP
 .I hugefiles_digits
 This relation specifies the (zero-padded) width of the field for the
 huge file number.
 .TP
 .I zero_hugefiles
 This boolean relation specifies whether or not zero blocks will be
 written to the hugefiles while
 .BR mke2fs(8)
 is creating them.  By default, zero blocks will be written to the huge
 files to avoid stale data from being made available to potentially
 untrusted user programs, unless the device supports a discard/trim
 operation which will take care of zeroing the device blocks.  By setting
 .I zero_hugefiles
 to false, this step will always be skipped, which can be useful if it is
 known that the disk has been previously erased, or if the user programs
 that will have access to the huge files are trusted to not reveal stale
 data.
 .SH THE [devices] STANZA
 Each tag in the
 .I [devices]
 stanza names device name so that per-device defaults can be specified.
 .TP
 .I fs_type
 This relation specifies the default parameter for the
 .B \-t
 option, if this option isn't specified on the command line.
 .TP
 .I usage_types
 This relation specifies the default parameter for the
 .B \-T
 option, if this option isn't specified on the command line.
 .SH FILES
 .TP
 .I /etc/mke2fs.conf
 The configuration file for
 .BR mke2fs (8).
 .SH SEE ALSO
 .BR mke2fs (8)
	.\" -- nroff --
	.\" Copyright 2006 by Theodore Ts'o. All Rights Reserved.
	.\" This file may be copied under the terms of the GNU Public License.
	.\"
	.TH mke2fs.conf 5 "@E2FSPROGS_MONTH@ @E2FSPROGS_YEAR@" "E2fsprogs version @E2FSPROGS_VERSION@"
	.SH NAME
	mke2fs.conf \- Configuration file for mke2fs
	.SH DESCRIPTION
	.I mke2fs.conf
	is the configuration file for
	.BR mke2fs (8).
	It controls the default parameters used by
	.BR mke2fs (8)
	when it is creating ext2, ext3, or ext4 filesystems.
	.PP
	The
	.I mke2fs.conf
	file uses an INI-style format. Stanzas, or top-level sections, are
	delimited by square braces: [ ]. Within each section, each line
	defines a relation, which assigns tags to values, or to a subsection,
	which contains further relations or subsections.
	.\" Tags can be assigned multiple values
	An example of the INI-style format used by this configuration file
	follows below:
	.P
	[section1]
	.br
	tag1 = value_a
	.br
	tag1 = value_b
	.br
	tag2 = value_c
	.P
	[section 2]
	.br
	tag3 = {
	.br
	subtag1 = subtag_value_a
	.br
	subtag1 = subtag_value_b
	.br
	subtag2 = subtag_value_c
	.br
	}
	.br
	tag1 = value_d
	.br
	tag2 = value_e
	.br
	}
	.P
	Comments are delimited by a semicolon (';') or a hash ('#') character
	at the beginning of the comment, and are terminated by the end of
	line character.
	.P
	Tags and values must be quoted using double quotes if they contain
	spaces. Within a quoted string, the standard backslash interpretations
	apply: "\en" (for the newline character),
	"\et" (for the tab character), "\eb" (for the backspace character),
	and "\e\e" (for the backslash character).
	.P
	Some relations expect a boolean value. The parser is quite liberal on
	recognizing ``yes'', '`y'', ``true'', ``t'', ``1'', ``on'', etc. as a
	boolean true value, and ``no'', ``n'', ``false'', ``nil'', ``0'',
	``off'' as a boolean false value.
	.P
	The following stanzas are used in the
	.I mke2fs.conf
	file. They will be described in more detail in future sections of this
	document.
	.TP
	.I [options]
	Contains relations which influence how mke2fs behaves.
	.TP
	.I [defaults]
	Contains relations which define the default parameters
	used by
	.BR mke2fs (8).
	In general, these defaults may be overridden by a definition in the
	.B fs_types
	stanza, or by an command-line option provided by the user.
	.TP
	.I [fs_types]
	Contains relations which define defaults that should be used for specific
	file system and usage types. The file system type and usage type can be
	specified explicitly using
	the
	.BR \-t and \-T
	options to
	.BR mke2fs (8),
	respectively.
	.SH THE [options] STANZA
	The following relations are defined in the
	.I [options]
	stanza.
	.TP
	.I proceed_delay
	If this relation is set to a positive integer, then if mke2fs will
	proceed after waiting
	.I proceed_delay
	seconds, after asking the user for permission to proceed, even if the
	user has not answered the question. Defaults to 0, which means to wait
	until the user answers the question one way or another.
	.SH THE [defaults] STANZA
	The following relations are defined in the
	.I [defaults]
	stanza.
	.TP
	.I base_features
	This relation specifies the filesystems features which are enabled in
	newly created filesystems. It may be overridden by the
	.I base_features
	relation found in the filesystem or usage type subsection of
	the
	.I [fs_types]
	stanza.
	.TP
	.I default_features
	This relation specifies a set of features that should be added or
	removed to the features listed in the
	.I base_features
	relation. It may be overridden by the filesystem-specific
	.I default_features
	in the filesystem or usage type subsection of
	.IR [fs_types] ,
	and by the
	.B -O
	command-line option
	to
	.BR mke2fs (8).
	.TP
	.I enable_periodic_fsck
	This boolean relation specifies whether periodic filesystem checks should be
	enforced at boot time. If set to true, checks will be forced every
	180 days, or after a random number of mounts. These values may
	be changed later via the
	.B -i
	and
	.B -c
	command-line options to
	.BR tune2fs (8).
	.TP
	.I force_undo
	This boolean relation, if set to a value of true, forces
	.B mke2fs
	to always try to create an undo file, even if the undo file might be
	huge and it might extend the time to create the filesystem image
	because the inode table isn't being initialized lazily.
	.TP
	.I fs_type
	This relation specifies the default filesystem type if the user does not
	specify it via the
	.B \-t
	option, or if
	.B mke2fs
	is not started using a program name of the form
	.BI mkfs. fs-type\fR.
	If both the user and the
	.B mke2fs.conf
	file do not specify a default filesystem type, mke2fs will use a
	default filesystem type of
	.IR ext3
	if a journal was requested via a command-line option, or
	.I ext2
	if not.
	.TP
	.I undo_dir
	This relation specifies the directory where the undo file should be
	stored. It can be overridden via the
	.B E2FSPROGS_UNDO_DIR
	environment variable. If the directory location is set to the value
	.IR none ,
	.B mke2fs
	will not create an undo file.
	.PP
	In addition, any tags that can be specified in a per-file system tags
	subsection as defined below (e.g.,
	.IR blocksize ,
	.IR hash_alg ,
	.IR inode_ratio ,
	.IR inode_size ,
	.IR reserved_ratio ,
	etc.) can also be specified in the
	.I defaults
	stanza to specify the default value to be used if the user does not
	specify one on the command line, and the filesystem-type
	specific section of the configuration file does not specify a default value.
	.SH THE [fs_types] STANZA
	Each tag in the
	.I [fs_types]
	stanza names a filesystem type or usage type which can be specified via the
	.B \-t
	or
	.B \-T
	options to
	.BR mke2fs (8),
	respectively.
	.P
	The
	.B mke2fs
	program constructs a list of fs_types by concatenating the filesystem
	type (i.e., ext2, ext3, etc.) with the usage type list. For most
	configuration options,
	.B mke2fs
	will look for a subsection in the
	.I [fs_types]
	stanza corresponding with each entry in the constructed list, with later
	entries overriding earlier filesystem or usage types.
	For
	example, consider the following
	.B mke2fs.conf
	fragment:
	.P
	[defaults]
	.br
	base_features = sparse_super,filetype,resize_inode,dir_index
	.br
	blocksize = 4096
	.br
	inode_size = 256
	.br
	inode_ratio = 16384
	.br

	.br
	[fs_types]
	.br
	ext3 = {
	.br
	features = has_journal
	.br
	}
	.br
	ext4 = {
	.br
	features = extents,flex_bg
	.br
	inode_size = 256
	.br
	}
	.br
	small = {
	.br
	blocksize = 1024
	.br
	inode_ratio = 4096
	.br
	}
	.br
	floppy = {
	.br
	features = ^resize_inode
	.br
	blocksize = 1024
	.br
	inode_size = 128
	.br
	}
	.P
	If mke2fs started with a program name of
	.BR mke2fs.ext4 ,
	then the filesystem type of ext4 will be used. If the filesystem is
	smaller than 3 megabytes, and no usage type is specified, then
	.B mke2fs
	will use a default
	usage type of
	.IR floppy .
	This results in an fs_types list of "ext4, floppy". Both the ext4
	subsection and the floppy subsection define an
	.I inode_size
	relation, but since the later entries in the fs_types list supersede
	earlier ones, the configuration parameter for fs_types.floppy.inode_size
	will be used, so the filesystem will have an inode size of 128.
	.P
	The exception to this resolution is the
	.I features
	tag, which specifies a set of changes to the features used by the
	filesystem, and which is cumulative. So in the above example, first
	the configuration relation defaults.base_features would enable an
	initial feature set with the sparse_super, filetype, resize_inode, and
	dir_index features enabled. Then configuration relation
	fs_types.ext4.features would enable the extents and flex_bg
	features, and finally the configuration relation
	fs_types.floppy.features would remove
	the resize_inode feature, resulting in a filesystem feature set
	consisting of the sparse_super, filetype, dir_index,
	extents_and flex_bg features.
	.P
	For each filesystem type, the following tags may be used in that
	fs_type's subsection. These tags may also be used in the
	.I default
	section:
	.TP
	.I base_features
	This relation specifies the features which are initially enabled for this
	filesystem type. Only one
	.I base_features
	will be used, so if there are multiple entries in the fs_types list
	whose subsections define the
	.I base_features
	relation, only the last will be used by
	.BR mke2fs (8).
	.TP
	.I errors
	Change the behavior of the kernel code when errors are detected.
	In all cases, a filesystem error will cause
	.BR e2fsck (8)
	to check the filesystem on the next boot.
	.I errors
	can be one of the following:
	.RS 1.2i
	.TP 1.2i
	.B continue
	Continue normal execution.
	.TP
	.B remount-ro
	Remount filesystem read-only.
	.TP
	.B panic
	Cause a kernel panic.
	.RE
	.TP
	.I features
	This relation specifies a comma-separated list of features edit
	requests which modify the feature set
	used by the newly constructed filesystem. The syntax is the same as the
	.B -O
	command-line option to
	.BR mke2fs (8);
	that is, a feature can be prefixed by a caret ('^') symbol to disable
	a named feature. Each
	.I feature
	relation specified in the fs_types list will be applied in the order
	found in the fs_types list.
	.TP
	.I default_features
	This relation specifies set of features which should be enabled or
	disabled after applying the features listed in the
	.I base_features
	and
	.I features
	relations. It may be overridden by the
	.B -O
	command-line option to
	.BR mke2fs (8).
	.TP
	.I auto_64-bit_support
	This relation is a boolean which specifies whether
	.BR mke2fs (8)
	should automatically add the 64bit feature if the number of blocks for
	the file system requires this feature to be enabled. The resize_inode
	feature is also automatically disabled since it doesn't support 64-bit
	block numbers.
	.TP
	.I default_mntopts
	This relation specifies the set of mount options which should be enabled
	by default. These may be changed at a later time with the
	.B -o
	command-line option to
	.BR tune2fs (8).
	.TP
	.I blocksize
	This relation specifies the default blocksize if the user does not
	specify a blocksize on the command line.
	.TP
	.I lazy_itable_init
	This boolean relation specifies whether the inode table should
	be lazily initialized. It only has meaning if the uninit_bg feature is
	enabled. If lazy_itable_init is true and the uninit_bg feature is
	enabled, the inode table will
	not be fully initialized by
	.BR mke2fs (8).
	This speeds up filesystem
	initialization noticeably, but it requires the kernel to finish
	initializing the filesystem in the background when the filesystem is
	first mounted.
	.TP
	.I journal_location
	This relation specifies the location of the journal.
	.TP
	.I num_backup_sb
	This relation indicates whether file systems with the
	.B sparse_super2
	feature enabled should be created with 0, 1, or 2 backup superblocks.
	.TP
	.I packed_meta_blocks
	This boolean relation specifes whether the allocation bitmaps, inode
	table, and journal should be located at the beginning of the file system.
	.TP
	.I inode_ratio
	This relation specifies the default inode ratio if the user does not
	specify one on the command line.
	.TP
	.I inode_size
	This relation specifies the default inode size if the user does not
	specify one on the command line.
	.TP
	.I reserved_ratio
	This relation specifies the default percentage of filesystem blocks
	reserved for the super-user, if the user does not specify one on the command
	line.
	.TP
	.I hash_alg
	This relation specifies the default hash algorithm used for the
	new filesystems with hashed b-tree directories. Valid algorithms
	accepted are:
	.IR legacy ,
	.IR half_md4 ,
	and
	.IR tea .
	.TP
	.I flex_bg_size
	This relation specifies the number of block groups that will be packed
	together to create one large virtual block group on an ext4 filesystem.
	This improves meta-data locality and performance on meta-data heavy
	workloads. The number of groups must be a power of 2 and may only be
	specified if the flex_bg filesystem feature is enabled.
	.TP
	.I options
	This relation specifies additional extended options which should be
	treated by
	.BR mke2fs (8)
	as if they were prepended to the argument of the
	.B -E
	option. This can be used to configure the default extended options used
	by
	.BR mke2fs (8)
	on a per-filesystem type basis.
	.TP
	.I discard
	This boolean relation specifies whether the
	.BR mke2fs (8)
	should attempt to discard device prior to filesystem creation.
	.TP
	.I cluster_size
	This relation specifies the default cluster size if the bigalloc file
	system feature is enabled. It can be overridden via the
	.B \-C
	command line option to
	.BR mke2fs (8)
	.TP
	.I make_hugefiles
	This boolean relation enables the creation of pre-allocated files as
	part of formatting the file system.
	.TP
	.I hugefiles_uid
	This relation controls the user ownership for all of the files and
	directories created by the
	.I make_hugefiles
	feature.
	.TP
	.I hugefiles_gid
	This relation controls the group ownership for all of the files and
	directories created by the
	.I make_hugefiles
	feature.
	.TP
	.I hugefiles_umask
	This relation specifies the umask used when creating the files and
	directories by the
	.I make_hugefiles
	feature.
	.TP
	.I num_hugefiles
	This relation specifies the number of huge files to be created. If this
	relation is not specified, or is set to zero, and the
	.I hugefiles_size
	relation is non-zero, then
	.I make_hugefiles
	will create as many huge files as can fit to fill the entire file system.
	.TP
	.I hugefiles_slack
	This relation specifies how much space should be reserved for other
	files.
	.TP
	.I hugefiles_size
	This relation specifies the size of the huge files. If this relation is
	not specified, the default is to fill the entire file system.
	.TP
	.I hugefiles_align
	This relation specifies the alignment for the start block of the huge
	files. It also forces the size of huge files to be a multiple of the
	requested alignment. If this relation is not specified, no alignment
	requirement will be imposed on the huge files.
	.TP
	.I hugefiles_align_disk
	This relations specifies whether the alignment should be relative to the
	beginning of the hard drive (assuming that the starting offset of the
	partition is available to mke2fs). The default value is false, which
	will cause hugefile alignment to be relative to the beginning of the
	file system.
	.TP
	.I hugefiles_name
	This relation specifies the base file name for the huge files.
	.TP
	.I hugefiles_digits
	This relation specifies the (zero-padded) width of the field for the
	huge file number.
	.TP
	.I zero_hugefiles
	This boolean relation specifies whether or not zero blocks will be
	written to the hugefiles while
	.BR mke2fs(8)
	is creating them. By default, zero blocks will be written to the huge
	files to avoid stale data from being made available to potentially
	untrusted user programs, unless the device supports a discard/trim
	operation which will take care of zeroing the device blocks. By setting
	.I zero_hugefiles
	to false, this step will always be skipped, which can be useful if it is
	known that the disk has been previously erased, or if the user programs
	that will have access to the huge files are trusted to not reveal stale
	data.
	.SH THE [devices] STANZA
	Each tag in the
	.I [devices]
	stanza names device name so that per-device defaults can be specified.
	.TP
	.I fs_type
	This relation specifies the default parameter for the
	.B \-t
	option, if this option isn't specified on the command line.
	.TP
	.I usage_types
	This relation specifies the default parameter for the
	.B \-T
	option, if this option isn't specified on the command line.
	.SH FILES
	.TP
	.I /etc/mke2fs.conf
	The configuration file for
	.BR mke2fs (8).
	.SH SEE ALSO
	.BR mke2fs (8)