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|
<!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd"
[<!ENTITY % poky SYSTEM "../poky.ent"> %poky; ] >
<!-- Dummy chapter -->
<chapter id='ref-variables-glos'>
<title>Variables Glossary</title>
<para>
This chapter lists common variables used in the OpenEmbedded build system and gives an overview
of their function and contents.
</para>
<glossary id='ref-variables-glossary'>
<para>
<link linkend='var-ALLOW_EMPTY'>A</link>
<link linkend='var-B'>B</link>
<link linkend='var-CFLAGS'>C</link>
<link linkend='var-D'>D</link>
<link linkend='var-ENABLE_BINARY_LOCALE_GENERATION'>E</link>
<link linkend='var-FILES'>F</link>
<!-- <link linkend='var-glossary-g'>G</link> -->
<link linkend='var-HOMEPAGE'>H</link>
<link linkend='var-IMAGE_FEATURES'>I</link>
<!-- <link linkend='var-glossary-j'>J</link> -->
<link linkend='var-KARCH'>K</link>
<link linkend='var-LAYERDIR'>L</link>
<link linkend='var-MACHINE'>M</link>
<!-- <link linkend='var-glossary-n'>N</link> -->
<link linkend='var-OE_TERMINAL'>O</link>
<link linkend='var-P'>P</link>
<!-- <link linkend='var-glossary-q'>Q</link> -->
<link linkend='var-RCONFLICTS'>R</link>
<link linkend='var-S'>S</link>
<link linkend='var-T'>T</link>
<!-- <link linkend='var-glossary-u'>U</link> -->
<!-- <link linkend='var-glossary-v'>V</link> -->
<link linkend='var-WORKDIR'>W</link>
<!-- <link linkend='var-glossary-x'>X</link> -->
<!-- <link linkend='var-glossary-y'>Y</link> -->
<!-- <link linkend='var-glossary-z'>Z</link>-->
</para>
<glossdiv id='var-glossary-a'><title>A</title>
<glossentry id='var-ALLOW_EMPTY'><glossterm>ALLOW_EMPTY</glossterm>
<glossdef>
<para>
Specifies if an output package should still be produced if it is empty.
By default, BitBake does not produce empty packages.
This default behavior can cause issues when there is an
<link linkend='var-RDEPENDS'><filename>RDEPENDS</filename></link> or
some other runtime hard-requirement on the existence of the package.
</para>
<para>
Like all package-controlling variables, you must always use them in
conjunction with a package name override.
Here is an example:
<literallayout class='monospaced'>
ALLOW_EMPTY_${PN} = "1"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-AUTHOR'><glossterm>AUTHOR</glossterm>
<glossdef>
<para>The email address used to contact the original author or authors in
order to send patches, forward bugs, etc.</para>
</glossdef>
</glossentry>
<glossentry id='var-AUTOREV'><glossterm>AUTOREV</glossterm>
<glossdef>
<para>When <filename><link linkend='var-SRCREV'>SRCREV</link></filename>
is set to the value of this variable, it specifies that the latest
source revision in the repository should be used. Here is an example:
<literallayout class='monospaced'>
SRCREV = "${AUTOREV}"
</literallayout>
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-b'><title>B</title>
<glossentry id='var-B'><glossterm>B</glossterm>
<glossdef>
<para>
The <ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
The OpenEmbedded build system places generated objects into the Build Directory
during a recipe's build process.
By default, this directory is the same as the <link linkend='var-S'><filename>S</filename></link>
directory:
<literallayout class='monospaced'>
B = ${WORKDIR}/${BPN}/{PV}/
</literallayout>
You can separate the (<filename>S</filename>) directory and the directory pointed to
by the <filename>B</filename> variable.
Most autotools-based recipes support separating these directories.
The build system defaults to using separate directories for <filename>gcc</filename>
and some kernel recipes.
</para>
</glossdef>
</glossentry>
<glossentry id='var-BAD_RECOMMENDATIONS'><glossterm>BAD_RECOMMENDATIONS</glossterm>
<glossdef>
<para>
A list of packages not to install despite being recommended by a recipe.
Support for this variable exists only when using the
<filename>ipk</filename> packaging backend.
</para>
</glossdef>
</glossentry>
<glossentry id='var-BB_DANGLINGAPPENDS_WARNONLY'><glossterm>BB_DANGLINGAPPENDS_WARNONLY</glossterm>
<glossdef>
<para>
Defines how BitBake handles situations where an append
file (<filename>.bbappend</filename>) has no
corresponding recipe file (<filename>.bb</filename>).
This condition often occurs when layers get out of sync
(e.g. <filename>oe-core</filename> bumps a
recipe version and the old recipe no longer exists and the
other layer has not been updated to the new version
of the recipe yet).
</para>
<para>
The default fatal behavior is safest because it is
the sane reaction given something is out of sync.
It is important to realize when your changes are no longer
being applied.
</para>
<para>
You can change the default behavior by setting this
variable to "1" in the <filename>local.conf</filename>
file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>
as follows:
<literallayout class='monospaced'>
BB_DANGLINGAPPENDS_WARNONLY = "1"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-BB_DISKMON_DIRS'><glossterm>BB_DISKMON_DIRS</glossterm>
<glossdef>
<para>
Monitors disk space and available inodes during the build
and allows you to control the build based on these
parameters.
</para>
<para>
Disk space monitoring is disabled by default.
To enable monitoring, add the <filename>BB_DISKMON_DIRS</filename>
variable to your <filename>conf/local.conf</filename> file found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
Use the following form:
<literallayout class='monospaced'>
BB_DISKMON_DIRS = "<action>,<dir>,<threshold> [...]"
where:
<action> is:
ABORT: Immediately abort the build when
a threshold is broken.
STOPTASKS: Stop the build after the currently
executing tasks have finished when
a threshold is broken.
WARN: Issue a warning but continue the
build when a threshold is broken.
Subsequent warnings are issued as
defined by the
<link linkend='var-BB_DISKMON_WARNINTERVAL'>BB_DISKMON_WARNINTERVAL</link> variable,
which must be defined in the
conf/local.conf file.
<dir> is:
Any directory you choose. You can specify one or
more directories to monitor by separating the
groupings with a space. If two directories are
on the same device, only the first directory
is monitored.
<threshold> is:
Either the minimum available disk space,
the minimum number of free inodes, or
both. You must specify at least one. To
omit one or the other, simply omit the value.
Specify the threshold using G, M, K for Gbytes,
Mbytes, and Kbytes, respectively. If you do
not specify G, M, or K, Kbytes is assumed by
default. Do not use GB, MB, or KB.
</literallayout>
</para>
<para>
Here are some examples:
<literallayout class='monospaced'>
BB_DISKMON_DIRS = "ABORT,${TMPDIR},1G,100K WARN,${SSTATE_DIR},1G,100K"
BB_DISKMON_DIRS = "STOPTASKS,${TMPDIR},1G"
BB_DISKMON_DIRS = "ABORT,${TMPDIR},,100K"
</literallayout>
The first example works only if you also provide
the <link linkend='var-BB_DISKMON_WARNINTERVAL'><filename>BB_DISKMON_WARNINTERVAL</filename></link> variable
in the <filename>conf/local.conf</filename>.
This example causes the build system to immediately
abort when either the disk space in <filename>${TMPDIR}</filename> drops
below 1 Gbyte or the available free inodes drops below
100 Kbytes.
Because two directories are provided with the variable, the
build system also issue a
warning when the disk space in the
<filename>${SSTATE_DIR}</filename> directory drops
below 1 Gbyte or the number of free inodes drops
below 100 Kbytes.
Subsequent warnings are issued during intervals as
defined by the <filename>BB_DISKMON_WARNINTERVAL</filename>
variable.
</para>
<para>
The second example stops the build after all currently
executing tasks complete when the minimum disk space
in the <filename>${TMPDIR}</filename> directory drops
below 1 Gbyte.
No disk monitoring occurs for the free inodes in this case.
</para>
<para>
The final example immediately aborts the build when the
number of free inodes in the <filename>${TMPDIR}</filename> directory
drops below 100 Kbytes.
No disk space monitoring for the directory itself occurs
in this case.
</para>
</glossdef>
</glossentry>
<glossentry id='var-BB_DISKMON_WARNINTERVAL'><glossterm>BB_DISKMON_WARNINTERVAL</glossterm>
<glossdef>
<para>
Defines the disk space and free inode warning intervals.
To set these intervals, define the variable in your
<filename>conf/local.conf</filename> file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
</para>
<para>
If you are going to use the
<filename>BB_DISKMON_WARNINTERVAL</filename> variable, you must
also use the
<link linkend='var-BB_DISKMON_DIRS'><filename>BB_DISKMON_DIRS</filename></link> variable
and define its action as "WARN".
During the build, subsequent warnings are issued each time
disk space or number of free inodes further reduces by
the respective interval.
</para>
<para>
If you do not provide a <filename>BB_DISKMON_WARNINTERVAL</filename>
variable and you do use <filename>BB_DISKMON_DIRS</filename> with
the "WARN" action, the disk monitoring interval defaults to
the following:
<literallayout class='monospaced'>
BB_DISKMON_WARNINTERVAL = "50M,5K"
</literallayout>
</para>
<para>
When specifying the variable in your configuration file,
use the following form:
<literallayout class='monospaced'>
BB_DISKMON_WARNINTERVAL = "<disk_space_interval>,<disk_inode_interval>"
where:
<disk_space_interval> is:
An interval of memory expressed in either
G, M, or K for Gbytes, Mbytes, or Kbytes,
respectively. You cannot use GB, MB, or KB.
<disk_inode_interval> is:
An interval of free inodes expressed in either
G, M, or K for Gbytes, Mbytes, or Kbytes,
respectively. You cannot use GB, MB, or KB.
</literallayout>
</para>
<para>
Here is an example:
<literallayout class='monospaced'>
BB_DISKMON_DIRS = "WARN,${SSTATE_DIR},1G,100K"
BB_DISKMON_WARNINTERVAL = "50M,5K"
</literallayout>
These variables cause the OpenEmbedded build system to
issue subsequent warnings each time the available
disk space further reduces by 50 Mbytes or the number
of free inodes further reduces by 5 Kbytes in the
<filename>${SSTATE_DIR}</filename> directory.
Subsequent warnings based on the interval occur each time
a respective interval is reached beyond the intial warning
(i.e. 1 Gbytes and 100 Kbytes).
</para>
</glossdef>
</glossentry>
<glossentry id='var-BBCLASSEXTEND'><glossterm>BBCLASSEXTEND</glossterm>
<glossdef>
<para>
Allows you to extend a recipe so that it builds variants of the software.
Common variants for recipes exist such as "natives" like <filename>quilt-native</filename>,
which is a copy of quilt built to run on the build system;
"crosses" such as <filename>gcc-cross</filename>,
which is a compiler built to run on the build machine but produces binaries
that run on the target <link linkend='var-MACHINE'><filename>MACHINE</filename></link>;
"nativesdk", which targets the SDK machine instead of <filename>MACHINE</filename>;
and "mulitlibs" in the form "<filename>multilib:<multilib_name></filename>".
</para>
<para>
To build a different variant of the recipe with a minimal amount of code, it usually
is as simple as adding the following to your recipe:
<literallayout class='monospaced'>
BBCLASSEXTEND =+ "native nativesdk"
BBCLASSEXTEND =+ "multilib:<multilib_name>"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-BBMASK'><glossterm>BBMASK</glossterm>
<glossdef>
<para>
Prevents BitBake from processing recipes and recipe
append files.
Use the <filename>BBMASK</filename> variable from within the
<filename>conf/local.conf</filename> file found
in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
</para>
<para>
You can use the <filename>BBMASK</filename> variable
to "hide" these <filename>.bb</filename> and
<filename>.bbappend</filename> files.
BitBake ignores any recipe or recipe append files that
match the expression.
It is as if BitBake does not see them at all.
Consequently, matching files are not parsed or otherwise
used by BitBake.</para>
<para>
The value you provide is passed to python's regular
expression compiler.
The expression is compared against the full paths to
the files.
For complete syntax information, see python's
documentation at
<ulink url='http://docs.python.org/release/2.3/lib/re-syntax.html'></ulink>.
</para>
<para>
The following example uses a complete regular expression
to tell BitBake to ignore all recipe and recipe append
files in the <filename>/meta-ti/recipes-misc/</filename>
directory:
<literallayout class='monospaced'>
BBMASK = "/meta-ti/recipes-misc/"
</literallayout>
If you want to mask out multiple directories or recipes,
use the vertical bar to separate the regular expression
fragments.
This next example masks out multiple directories and
individual recipes:
<literallayout class='monospaced'>
BBMASK = "meta-ti/recipes-misc/|meta-ti/recipes-ti/packagegroup/"
BBMASK .= "|.*meta-oe/recipes-support/"
BBMASK .= "|.*openldap"
BBMASK .= "|.*opencv"
BBMASK .= "|.*lzma"
</literallayout>
Notice how the vertical bar is used to append the fragments.
<note>
When specifying a directory name, use the trailing
slash character to ensure you match just that directory
name.
</note>
</para>
</glossdef>
</glossentry>
<glossentry id='var-BB_NUMBER_THREADS'><glossterm>BB_NUMBER_THREADS</glossterm>
<glossdef>
<para>The maximum number of tasks BitBake should run in parallel at any one time.
If your host development system supports multiple cores a good rule of thumb
is to set this variable to twice the number of cores.</para>
</glossdef>
</glossentry>
<glossentry id='var-BBFILE_COLLECTIONS'><glossterm>BBFILE_COLLECTIONS</glossterm>
<glossdef>
<para>Lists the names of configured layers.
These names are used to find the other <filename>BBFILE_*</filename>
variables.
Typically, each layer will append its name to this variable in its
<filename>conf/layer.conf</filename> file.
</para>
</glossdef>
</glossentry>
<glossentry id='var-BBFILE_PATTERN'><glossterm>BBFILE_PATTERN</glossterm>
<glossdef>
<para>Variable that expands to match files from <filename>BBFILES</filename> in a particular layer.
This variable is used in the <filename>conf/layer.conf</filename> file and must
be suffixed with the name of the specific layer (e.g.
<filename>BBFILE_PATTERN_emenlow</filename>).</para>
</glossdef>
</glossentry>
<glossentry id='var-BBFILE_PRIORITY'><glossterm>BBFILE_PRIORITY</glossterm>
<glossdef>
<para>Assigns the priority for recipe files in each layer.</para>
<para>This variable is useful in situations where the same recipe appears in
more than one layer.
Setting this variable allows you to prioritize a
layer against other layers that contain the same recipe - effectively
letting you control the precedence for the multiple layers.
The precedence established through this variable stands regardless of a
recipe's version (<filename>PV</filename> variable).
For example, a layer that has a recipe with a higher <filename>PV</filename> value but for
which the <filename>BBFILE_PRIORITY</filename> is set to have a lower precedence still has a
lower precedence.</para>
<para>A larger value for the <filename>BBFILE_PRIORITY</filename> variable results in a higher
precedence.
For example, the value 6 has a higher precedence than the value 5.
If not specified, the <filename>BBFILE_PRIORITY</filename> variable is set based on layer
dependencies (see the
<filename><link linkend='var-LAYERDEPENDS'>LAYERDEPENDS</link></filename> variable for
more information.
The default priority, if unspecified
for a layer with no dependencies, is the lowest defined priority + 1
(or 1 if no priorities are defined).</para>
<tip>
You can use the command <filename>bitbake-layers show_layers</filename> to list
all configured layers along with their priorities.
</tip>
</glossdef>
</glossentry>
<glossentry id='var-BBFILES'><glossterm>BBFILES</glossterm>
<glossdef>
<para>List of recipe files used by BitBake to build software</para>
</glossdef>
</glossentry>
<glossentry id='var-BBPATH'><glossterm>BBPATH</glossterm>
<glossdef>
<para>Used by BitBake to locate <filename>.bbclass</filename> and configuration files.
This variable is analogous to the <filename>PATH</filename> variable.</para>
</glossdef>
</glossentry>
<glossentry id='var-BBINCLUDELOGS'><glossterm>BBINCLUDELOGS</glossterm>
<glossdef>
<para>Variable that controls how BitBake displays logs on build failure.</para>
</glossdef>
</glossentry>
<glossentry id='var-BBLAYERS'><glossterm>BBLAYERS</glossterm>
<glossdef>
<para>Lists the layers to enable during the build.
This variable is defined in the <filename>bblayers.conf</filename> configuration
file in the <ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
Here is an example:
<literallayout class='monospaced'>
BBLAYERS = " \
/home/scottrif/poky/meta \
/home/scottrif/poky/meta-yocto \
/home/scottrif/poky/meta-yocto-bsp \
/home/scottrif/poky/meta-mykernel \
"
BBLAYERS_NON_REMOVABLE ?= " \
/home/scottrif/poky/meta \
/home/scottrif/poky/meta-yocto \
"
</literallayout>
This example enables four layers, one of which is a custom, user-defined layer
named <filename>meta-mykernel</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-BBLAYERS_NON_REMOVABLE'><glossterm>BBLAYERS_NON_REMOVABLE</glossterm>
<glossdef>
Core layer for images cannot be removed
<para>Lists core layers that cannot be removed from the
<filename>bblayers.conf</filename> file.
In order for BitBake to build your image, your
<filename>bblayers.conf</filename> file must include the
<filename>meta</filename> and <filename>meta-yocto</filename>
core layers.
Here is an example that shows these two layers listed in
the <filename>BBLAYERS_NON_REMOVABLE</filename> statement:
<literallayout class='monospaced'>
BBLAYERS = " \
/home/scottrif/poky/meta \
/home/scottrif/poky/meta-yocto \
/home/scottrif/poky/meta-yocto-bsp \
/home/scottrif/poky/meta-mykernel \
"
BBLAYERS_NON_REMOVABLE ?= " \
/home/scottrif/poky/meta \
/home/scottrif/poky/meta-yocto \
"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-BP'><glossterm>BP</glossterm>
<glossdef>
<para>The base recipe name and version but without any special
recipe name suffix (i.e. <filename>-native</filename>, <filename>lib64-</filename>,
and so forth).
<filename>BP</filename> is comprised of the following:
<literallayout class="monospaced">
${BPN}-${PV}
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-BPN'><glossterm>BPN</glossterm>
<glossdef>
<para>The bare name of the recipe.
This variable is a version of the <link linkend='var-PN'><filename>PN</filename></link> variable
but removes common suffixes such as "-native" and "-cross" as well
as removes common prefixes such as multilib's "lib64-" and "lib32-".
The exact list of suffixes removed is specified by the
<link linkend='var-SPECIAL_PKGSUFFIX'><filename>SPECIAL_PKGSUFFIX</filename></link> variable.
The exact list of prefixes removed is specified by the
<link linkend='var-MLPREFIX'><filename>MLPREFIX</filename></link> variable.
Prefixes are removed for multilib and nativesdk cases.</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-c'><title>C</title>
<glossentry id='var-CFLAGS'><glossterm>CFLAGS</glossterm>
<glossdef>
<para>
Flags passed to C compiler for the target system.
This variable evaluates to the same as
<filename><link linkend='var-TARGET_CFLAGS'>TARGET_CFLAGS</link></filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-COMBINED_FEATURES'><glossterm>COMBINED_FEATURES</glossterm>
<glossdef>
<para>A set of features common between
<link linkend='var-MACHINE_FEATURES'><filename>MACHINE_FEATURES</filename></link>
and <link linkend='var-DISTRO_FEATURES'><filename>DISTRO_FEATURES</filename></link>.
See the glossary descriptions for these variables for more information.</para>
</glossdef>
</glossentry>
<glossentry id='var-COMPATIBLE_MACHINE'><glossterm>COMPATIBLE_MACHINE</glossterm>
<glossdef>
<para>A regular expression which evaluates to match the machines the recipe
works with.
It stops recipes being run on machines for which they are not compatible.
This is particularly useful with kernels.
It also helps to increase parsing speed as further parsing of the recipe is skipped
if it is found the current machine is not compatible.</para>
</glossdef>
</glossentry>
<glossentry id='var-CONFFILES'><glossterm>CONFFILES</glossterm>
<glossdef>
<para>
Identifies editable or configurable files that are part of a package.
If the Package Management System (PMS) is being used to update
packages on the target system, it is possible that
configuration files you have changed after the original installation
and that you now want to remain unchanged are overwritten.
In other words, editable files might exist in the package that you do not
want reset as part of the package update process.
You can use the <filename>CONFFILES</filename> variable to list the files in the
package that you wish to prevent the PMS from overwriting during this update process.
</para>
<para>
To use the <filename>CONFFILES</filename> variable, provide a package name
override that identifies the resulting package.
Then, provide a space-separated list of files.
Here is an example:
<literallayout class='monospaced'>
CONFFILES_${PN} += "${sysconfdir}/file1 \
${sysconfdir}/file2 ${sysconfdir}/file3"
</literallayout>
</para>
<para>
A relationship exists between the <filename>CONFFILES</filename> and
<filename><link linkend='var-FILES'>FILES</link></filename> variables.
The files listed within <filename>CONFFILES</filename> must be a subset of
the files listed within <filename>FILES</filename>.
Because the configuration files you provide with <filename>CONFFILES</filename>
are simply being identified so that the PMS will not overwrite them,
it makes sense that
the files must already be included as part of the package through the
<filename>FILES</filename> variable.
</para>
<note>
When specifying paths as part of the <filename>CONFFILES</filename> variable,
it is good practice to use appropriate path variables.
For example, <filename>${sysconfdir}</filename> rather than
<filename>/etc</filename> or <filename>${bindir}</filename> rather
than <filename>/usr/bin</filename>.
You can find a list of these variables at the top of the
<filename>/meta/conf/bitbake.conf</filename> file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
</note>
</glossdef>
</glossentry>
<glossentry id='var-CONFIG_SITE'><glossterm>CONFIG_SITE</glossterm>
<glossdef>
<para>
A list of files that contains <filename>autoconf</filename> test results relevant
to the current build.
This variable is used by the Autotools utilities when running
<filename>configure</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-CORE_IMAGE_EXTRA_INSTALL'><glossterm>CORE_IMAGE_EXTRA_INSTALL</glossterm>
<glossdef>
<para>
Specifies the list of packages to be added to the image.
This variable should only be set in the <filename>local.conf</filename>
configuration file found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
</para>
<para>
This variable replaces <filename>POKY_EXTRA_INSTALL</filename>, which is no longer supported.
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-d'><title>D</title>
<glossentry id='var-D'><glossterm>D</glossterm>
<glossdef>
<para>The destination directory.</para>
</glossdef>
</glossentry>
<glossentry id='var-DEBUG_BUILD'><glossterm>DEBUG_BUILD</glossterm>
<glossdef>
<para>
Specifies to build packages with debugging information.
This influences the value of the
<filename><link linkend='var-SELECTED_OPTIMIZATION'>SELECTED_OPTIMIZATION</link></filename>
variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DEBUG_OPTIMIZATION'><glossterm>DEBUG_OPTIMIZATION</glossterm>
<glossdef>
<para>
The options to pass in
<filename><link linkend='var-TARGET_CFLAGS'>TARGET_CFLAGS</link></filename>
and <filename><link linkend='var-CFLAGS'>CFLAGS</link></filename> when compiling
a system for debugging.
This variable defaults to "-O -fno-omit-frame-pointer -g".
</para>
</glossdef>
</glossentry>
<glossentry id='var-DEFAULT_PREFERENCE'><glossterm>DEFAULT_PREFERENCE</glossterm>
<glossdef>
<para>Specifies the priority of recipes.</para>
</glossdef>
</glossentry>
<glossentry id='var-DEPENDS'><glossterm>DEPENDS</glossterm>
<glossdef>
<para>
Lists a recipe's build-time dependencies
(i.e. other recipe files).
The system ensures that all the dependencies listed
have been built and have their contents in the appropriate
sysroots before the recipe's configure task is executed.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DESCRIPTION'><glossterm>DESCRIPTION</glossterm>
<glossdef>
<para>The package description used by package managers.
If not set, <filename>DESCRIPTION</filename> takes
the value of the
<link linkend='var-SUMMARY'><filename>SUMMARY</filename></link>
variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DESTDIR'><glossterm>DESTDIR</glossterm>
<glossdef>
<para>the destination directory.</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO'><glossterm>DISTRO</glossterm>
<glossdef>
<para>
The short name of the distribution.
This variable corresponds to a file with the
extension <filename>.conf</filename>
located in a <filename>conf/distro</filename> directory
within the metadata that contains the distribution configuration.
The
value must not contain spaces, and is typically all lower-case.
</para>
<para>
If the variable is blank, a set of default configuration
will be used, which is specified
within <filename>meta/conf/distro/defaultsetup.conf</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_EXTRA_RDEPENDS'><glossterm>DISTRO_EXTRA_RDEPENDS</glossterm>
<glossdef>
<para>
Specifies a list of distro-specific packages to add to all images.
This variable takes affect through
<filename>packagegroup-base</filename> so the
variable only really applies to the more full-featured
images that include <filename>packagegroup-base</filename>.
You can use this variable to keep distro policy out of
generic images.
As with all other distro variables, you set this variable
in the distro <filename>.conf</filename> file.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_EXTRA_RRECOMMENDS'><glossterm>DISTRO_EXTRA_RRECOMMENDS</glossterm>
<glossdef>
<para>
Specifies a list of distro-specific packages to add to all images
if the packages exist.
The packages might not exist or be empty (e.g. kernel modules).
The list of packages are automatically installed but can be
removed by the user.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_FEATURES'><glossterm>DISTRO_FEATURES</glossterm>
<glossdef>
<para>The features enabled for the distribution.
For a list of features supported by the Yocto Project as shipped,
see the "<link linkend='ref-features-distro'>Distro</link>"
section.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_FEATURES_BACKFILL'><glossterm>DISTRO_FEATURES_BACKFILL</glossterm>
<glossdef>
<para>Features to be added to
<filename><link linkend='var-DISTRO_FEATURES'>DISTRO_FEATURES</link></filename>
if not also present in
<filename><link linkend='var-DISTRO_FEATURES_BACKFILL_CONSIDERED'>DISTRO_FEATURES_BACKFILL_CONSIDERED</link></filename>.
</para>
<para>
This variable is set in the <filename>meta/conf/bitbake.conf</filename> file.
It is not intended to be user-configurable.
It is best to just reference the variable to see which distro features are
being backfilled for all distro configurations.
See the <link linkend='ref-features-backfill'>Feature backfilling</link> section for
more information.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_FEATURES_BACKFILL_CONSIDERED'><glossterm>DISTRO_FEATURES_BACKFILL_CONSIDERED</glossterm>
<glossdef>
<para>Features from
<filename><link linkend='var-DISTRO_FEATURES_BACKFILL'>DISTRO_FEATURES_BACKFILL</link></filename>
that should not backfilled (i.e. added to
<filename><link linkend='var-DISTRO_FEATURES'>DISTRO_FEATURES</link></filename>)
during the build.
See the "<link linkend='ref-features-backfill'>Feature Backfilling</link>" section for
more information.
</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_NAME'><glossterm>DISTRO_NAME</glossterm>
<glossdef>
<para>The long name of the distribution.</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_PN_ALIAS'><glossterm>DISTRO_PN_ALIAS</glossterm>
<glossdef>
<para>Alias names used for the recipe in various Linux distributions.</para>
<para>See the
"<ulink url='&YOCTO_DOCS_DEV_URL;#usingpoky-configuring-DISTRO_PN_ALIAS'>Handling
a Package Name Alias</ulink>" section in the Yocto Project Development
Manual for more information.</para>
</glossdef>
</glossentry>
<glossentry id='var-DISTRO_VERSION'><glossterm>DISTRO_VERSION</glossterm>
<glossdef>
<para>the version of the distribution.</para>
</glossdef>
</glossentry>
<glossentry id='var-DL_DIR'><glossterm>DL_DIR</glossterm>
<glossdef>
<para>
The central download directory used by the build process to store downloads.
You can set this directory by defining the <filename>DL_DIR</filename>
variable in the <filename>/conf/local.conf</filename> file.
This directory is self-maintaining and you should not have
to touch it.
By default, the directory is <filename>downloads</filename> in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
<literallayout class='monospaced'>
#DL_DIR ?= "${TOPDIR}/downloads"
</literallayout>
To specify a different download directory, simply uncomment the line
and provide your directory.
</para>
<para>
During a first build, the system downloads many different source code
tarballs from various upstream projects.
Downloading can take a while, particularly if your network
connection is slow.
Tarballs are all stored in the directory defined by
<filename>DL_DIR</filename> and the build system looks there first
to find source tarballs.
<note>
When wiping and rebuilding, you can preserve this directory to speed
up this part of subsequent builds.
</note>
</para>
<para>
You can safely share this directory between multiple builds on the
same development machine.
For additional information on how the build process gets source files
when working behind a firewall or proxy server, see the
"<link linkend='how-does-the-yocto-project-obtain-source-code-and-will-it-work-behind-my-firewall-or-proxy-server'>FAQ</link>"
chapter.
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-e'><title>E</title>
<glossentry id='var-ENABLE_BINARY_LOCALE_GENERATION'><glossterm>ENABLE_BINARY_LOCALE_GENERATION</glossterm>
<glossdef>
<para></para>
<para>Variable that controls which locales for <filename>eglibc</filename> are
to be generated during the build (useful if the target device has 64Mbytes
of RAM or less).</para>
</glossdef>
</glossentry>
<glossentry id='var-EXTENDPE'><glossterm>EXTENDPE</glossterm>
<glossdef>
<para>
Used with file and pathnames to create a prefix for a recipe's
version based on the recipe's
<link linkend='var-PE'><filename>PE</filename></link> value.
If <filename>PE</filename> is set and greater than zero for a recipe,
<filename>EXTENDPE</filename> becomes that value (e.g if
<filename>PE</filename> is equal to "1" then <filename>EXTENDPE</filename>
becomes "1_").
If a recipe's <filename>PE</filename> is not set (the default) or is equal to
zero, <filename>EXTENDPE</filename> becomes "".</para>
<para>See the <link linkend='var-STAMP'><filename>STAMP</filename></link>
variable for an example.
</para>
</glossdef>
</glossentry>
<glossentry id='var-EXTRA_IMAGE_FEATURES'><glossterm>EXTRA_IMAGE_FEATURES</glossterm>
<glossdef>
<para>Allows extra packages to be added to the generated images.
You set this variable in the <filename>local.conf</filename>
configuration file.
Note that some image features are also added using the
<filename><link linkend='var-IMAGE_FEATURES'>IMAGE_FEATURES</link></filename>
variable generally configured in image recipes.
You can use this variable to add more features in addition to those.
Here are some examples of features you can add:</para>
<literallayout class='monospaced'>
"dbg-pkgs" - Adds -dbg packages for all installed packages
including symbol information for debugging and
profiling.
"dev-pkgs" - Adds -dev packages for all installed packages.
This is useful if you want to develop against
the libraries in the image.
"tools-sdk" - Adds development tools such as gcc, make,
pkgconfig and so forth.
"tools-debug" - Adds debugging tools such as gdb and
strace.
"tools-profile" - Adds profiling tools such as oprofile,
exmap, lttng and valgrind (x86 only).
"tools-testapps" - Adds useful testing tools such as
ts_print, aplay, arecord and so
forth.
"debug-tweaks" - Makes an image suitable for development.
For example, ssh root access has a blank
password. You should remove this feature
before you produce a production image.
</literallayout>
<para>There are other valid features too, see the
<link linkend='ref-features-image'>Images</link>
section for more details.</para>
</glossdef>
</glossentry>
<glossentry id='var-EXTRA_IMAGEDEPENDS'><glossterm>EXTRA_IMAGEDEPENDS</glossterm>
<glossdef>
<para>A list of recipes to be built that do not provide packages to be installed in
the root filesystem.
</para>
<para>Sometimes a recipe is required to build the final image but is not
needed in the root filesystem.
You can use the <filename>EXTRA_IMAGEDEPENDS</filename> variable to
list these recipes and thus, specify the dependencies.
A typical example is a required bootloader in a machine configuration.
</para>
<note>
To add packages to the root filesystem, see the various
<filename>*DEPENDS</filename> and <filename>*RECOMMENDS</filename>
variables.
</note>
</glossdef>
</glossentry>
<glossentry id='var-EXTRA_OECMAKE'><glossterm>EXTRA_OECMAKE</glossterm>
<glossdef>
<para>Additional <filename>cmake</filename> options.</para>
</glossdef>
</glossentry>
<glossentry id='var-EXTRA_OECONF'><glossterm>EXTRA_OECONF</glossterm>
<glossdef>
<para>Additional <filename>configure</filename> script options.</para>
</glossdef>
</glossentry>
<glossentry id='var-EXTRA_OEMAKE'><glossterm>EXTRA_OEMAKE</glossterm>
<glossdef>
<para>Additional GNU <filename>make</filename> options.</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-f'><title>F</title>
<glossentry id='var-FILES'><glossterm>FILES</glossterm>
<glossdef>
<para>
The list of directories or files that are placed in packages.
</para>
<para>
To use the <filename>FILES</filename> variable, provide a package name
override that identifies the resulting package.
Then, provide a space-separated list of files or paths that identifies the
files you want included as part of the resulting package.
Here is an example:
<literallayout class='monospaced'>
FILES_${PN} += "${bindir}/mydir1/ ${bindir}/mydir2/myfile"
</literallayout>
</para>
<note>
When specifying paths as part of the <filename>FILES</filename> variable,
it is good practice to use appropriate path variables.
For example, <filename>${sysconfdir}</filename> rather than
<filename>/etc</filename> or <filename>${bindir}</filename> rather
than <filename>/usr/bin</filename>.
You can find a list of these variables at the top of the
<filename>/meta/conf/bitbake.conf</filename> file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
</note>
<para>
If some of the files you provide with the <filename>FILES</filename> variable
are editable and you know they should not be
overwritten during the package update process by the Package Management
System (PMS), you can identify these files so that the PMS will not
overwrite them.
See the <filename><link linkend='var-CONFFILES'>CONFFILES</link></filename>
variable for information on how to identify these files to the PMS.
</para>
</glossdef>
</glossentry>
<glossentry id='var-FILESEXTRAPATHS'><glossterm>FILESEXTRAPATHS</glossterm>
<glossdef>
<para>
Extends the search path the OpenEmbedded build system uses
when looking for files and patches as it processes recipes.
The directories BitBake uses when it processes recipes are
defined by the
<link linkend='var-FILESPATH'><filename>FILESPATH</filename></link> variable.
You can add directories to the search path by defining the
<filename>FILESEXTRAPATHS</filename> variable.
</para>
<para>
To add paths to the front of the search order, prepend
them and use the immediate expansion
(<filename>:=</filename>) operator.
Provide a list of directories and separate
each path using a colon character as follows:
<literallayout class='monospaced'>
FILESEXTRAPATHS_prepend := "path_1:path_2:path_3:"
</literallayout>
You can add paths to the end of the search order by simply
adding them as follows:
<literallayout class='monospaced'>
FILESEXTRAPATHS := "path_1:path_2:path_3:"
</literallayout>
To maintain the integrity of the
<filename>FILESPATH</filename> variable, you must include
the appropriate beginning or ending (as needed) colon
character.
</para>
<para>
The <filename>FILESEXTRAPATHS</filename> variable is
intended for use in <filename>.bbappend</filename> files
to include any additional files provided in that layer.
You typically accomplish this with the following:
<literallayout class='monospaced'>
FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-FILESPATH'><glossterm>FILESPATH</glossterm>
<glossdef>
<para>
The default set of directories the OpenEmbedded build system uses
when searching for patches and files.
During the build process, BitBake searches each directory in
<filename>FILESPATH</filename> in the specified order when looking for
files and patches specified by each <filename>file://</filename> URI in a recipe.
</para>
<para>
The default value for the <filename>FILESPATH</filename> variable is defined
in the <filename>base.bbclass</filename> class found in
<filename>meta/classes</filename> in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>:
<literallayout class='monospaced'>
FILESPATH = "${@base_set_filespath(["${FILE_DIRNAME}/${BP}", \
"${FILE_DIRNAME}/${BPN}", "${FILE_DIRNAME}/files"], d)}"
</literallayout>
Do not hand-edit the <filename>FILESPATH</filename> variable.
If you want to extend the set of pathnames that BitBake uses when searching for
files and patches, use the
<link linkend='var-FILESEXTRAPATHS'><filename>FILESEXTRAPATHS</filename></link> variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-FILESYSTEM_PERMS_TABLES'><glossterm>FILESYSTEM_PERMS_TABLES</glossterm>
<glossdef>
<para>Allows you to define your own file permissions settings table as part of
your configuration for the packaging process.
For example, suppose you need a consistent set of custom permissions for
a set of groups and users across an entire work project.
It is best to do this in the packages themselves but this is not always
possible.
</para>
<para>
By default, the OpenEmbedded build system uses the <filename>fs-perms.txt</filename>, which
is located in the <filename>meta/files</filename> folder in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
If you create your own file permissions setting table, you should place it in your
layer or the distros layer.
</para>
<para>
You define the <filename>FILESYSTEM_PERMS_TABLES</filename> variable in the
<filename>conf/local.conf</filename> file, which is found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>, to
point to your custom <filename>fs-perms.txt</filename>.
You can specify more than a single file permissions setting table.
The paths you specify to these files must be defined within the
<link linkend='var-BBPATH'><filename>BBPATH</filename></link> variable.
</para>
<para>
For guidance on how to create your own file permissions settings table file,
examine the existing <filename>fs-perms.txt</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-FULL_OPTIMIZATION'><glossterm>FULL_OPTIMIZATION</glossterm>
<glossdef>
<para>
The options to pass in
<filename><link linkend='var-TARGET_CFLAGS'>TARGET_CFLAGS</link></filename>
and <filename><link linkend='var-CFLAGS'>CFLAGS</link></filename>
when compiling an optimized system.
This variable defaults to
"-fexpensive-optimizations -fomit-frame-pointer -frename-registers -O2".
</para>
</glossdef>
</glossentry>
</glossdiv>
<!-- <glossdiv id='var-glossary-g'><title>G</title>-->
<!-- </glossdiv>-->
<glossdiv id='var-glossary-h'><title>H</title>
<glossentry id='var-HOMEPAGE'><glossterm>HOMEPAGE</glossterm>
<glossdef>
<para>Website where more information about the software the recipe is building
can be found.</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-i'><title>I</title>
<glossentry id='var-IMAGE_FEATURES'><glossterm>IMAGE_FEATURES</glossterm>
<glossdef>
<para>The list of features to include in an image.
Typically, you configure this variable in an image recipe.
Note that you can also add extra features to the image by using the
<filename><link linkend='var-EXTRA_IMAGE_FEATURES'>EXTRA_IMAGE_FEATURES</link></filename> variable.
See the "<link linkend="ref-features-image">Images</link>" section for the
full list of features that can be included in images built by the
OpenEmbedded build system.</para>
</glossdef>
</glossentry>
<glossentry id='var-IMAGE_FSTYPES'><glossterm>IMAGE_FSTYPES</glossterm>
<glossdef>
<para>Formats of root filesystem images that you want to have created.</para>
</glossdef>
</glossentry>
<glossentry id='var-IMAGE_INSTALL'><glossterm>IMAGE_INSTALL</glossterm>
<glossdef>
<para>
Specifies the packages to install into an image.
The <filename>IMAGE_INSTALL</filename> variable is a mechanism for an image
recipe and you should use it with care to avoid ordering issues.
</para>
<para>
Image recipes set <filename>IMAGE_INSTALL</filename> to specify the
packages to install into an image through <filename>image.bbclass</filename>.
Additionally, "helper" classes exist, such as <filename>core-image.bbclass</filename>,
that can take
<filename><link linkend='var-IMAGE_FEATURES'>IMAGE_FEATURES</link></filename> lists
and turn these into auto-generated entries in
<filename>IMAGE_INSTALL</filename> in addition to its default contents.
</para>
<para>
Using <filename>IMAGE_INSTALL</filename> with the <filename>+=</filename>
operator from the <filename>/conf/local.conf</filename> file or from within
an image recipe is not recommended as it can cause ordering issues.
Since <filename>core-image.bbclass</filename> sets <filename>IMAGE_INSTALL</filename>
to a default value using the <filename>?=</filename> operator, using a
<filename>+=</filename> operation against <filename>IMAGE_INSTALL</filename>
will result in unexpected behavior when used in
<filename>/conf/local.conf</filename>.
Furthermore, the same operation from with an image recipe may or may not
succeed depending on the specific situation.
In both these cases, the behavior is contrary to how most users expect
the <filename>+=</filename> operator to work.
</para>
<para>
When you use this variable, it is best to use it as follows:
<literallayout class='monospaced'>
IMAGE_INSTALL_append = " package-name"
</literallayout>
Be sure to include the space between the quotation character and the start of the
package name.
</para>
</glossdef>
</glossentry>
<glossentry id='var-IMAGE_OVERHEAD_FACTOR'><glossterm>IMAGE_OVERHEAD_FACTOR</glossterm>
<glossdef>
<para>
Defines a multiplier that the build system applies to the initial image
size for cases when the multiplier times the returned disk usage value
for the image is greater than the sum of
<filename><link linkend='var-IMAGE_ROOTFS_SIZE'>IMAGE_ROOTFS_SIZE</link></filename>
and
<filename><link linkend='var-IMAGE_ROOTFS_EXTRA_SPACE'>IMAGE_ROOTFS_EXTRA_SPACE</link></filename>.
The result of the multiplier applied to the initial image size creates
free disk space in the image as overhead.
By default, the build process uses a multiplier of 1.3 for this variable.
This default value results in 30% free disk space added to the image when this
method is used to determine the final generated image size.
You should be aware that post install scripts and the package management
system uses disk space inside this overhead area.
Consequently, the multiplier does not produce an image with
all the theoretical free disk space.
See <filename><link linkend='var-IMAGE_ROOTFS_SIZE'>IMAGE_ROOTFS_SIZE</link></filename>
for information on how the build system determines the overall image size.
</para>
<para>
The default 30% free disk space typically gives the image enough room to boot
and allows for basic post installs while still leaving a small amount of
free disk space.
If 30% free space is inadequate, you can increase the default value.
For example, the following setting gives you 50% free space added to the image:
<literallayout class='monospaced'>
IMAGE_OVERHEAD_FACTOR = "1.5"
</literallayout>
</para>
<para>
Alternatively, you can ensure a specific amount of free disk space is added
to the image by using
<filename><link linkend='var-IMAGE_ROOTFS_EXTRA_SPACE'>IMAGE_ROOTFS_EXTRA_SPACE</link></filename>
the variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-IMAGE_ROOTFS_EXTRA_SPACE'><glossterm>IMAGE_ROOTFS_EXTRA_SPACE</glossterm>
<glossdef>
<para>
Defines additional free disk space created in the image in Kbytes.
By default, this variable is set to "0".
This free disk space is added to the image after the build system determines
the image size as described in
<filename><link linkend='var-IMAGE_ROOTFS_SIZE'>IMAGE_ROOTFS_SIZE</link></filename>.
</para>
<para>
This variable is particularly useful when you want to ensure that a
specific amount of free disk space is available on a device after an image
is installed and running.
For example, to be sure 5 Gbytes of free disk space is available, set the
variable as follows:
<literallayout class='monospaced'>
IMAGE_ROOTFS_EXTRA_SPACE = "5242880"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-IMAGE_ROOTFS_SIZE'><glossterm>IMAGE_ROOTFS_SIZE</glossterm>
<glossdef>
<para>
Defines the size in Kbytes for the generated image.
The OpenEmbedded build system determines the final size for the generated
image using an algorithm that takes into account the initial disk space used
for the generated image, a requested size for the image, and requested
additional free disk space to be added to the image.
Programatically, the build system determines the final size of the
generated image as follows:
<literallayout class='monospaced'>
if (image-du * overhead) < rootfs-size:
internal-rootfs-size = rootfs-size + xspace
else:
internal-rootfs-size = (image-du * overhead) + xspace
where:
image-du = Returned value of the du command on
the image.
overhead = IMAGE_OVERHEAD_FACTOR
rootfs-size = IMAGE_ROOTFS_SIZE
internal-rootfs-size = Initial root filesystem
size before any modifications.
xspace = IMAGE_ROOTFS_EXTRA_SPACE
</literallayout>
<!-- In the above example, <filename>overhead</filename> is defined by the
<filename><link linkend='var-IMAGE_OVERHEAD_FACTOR'>IMAGE_OVERHEAD_FACTOR</link></filename>
variable, <filename>xspace</filename> is defined by the
<filename><link linkend='var-IMAGE_ROOTFS_EXTRA_SPACE'>IMAGE_ROOTFS_EXTRA_SPACE</link></filename>
variable, and <filename>du</filename> is the results of the disk usage command
on the initially generated image. -->
</para>
</glossdef>
</glossentry>
<glossentry id='var-INC_PR'><glossterm>INC_PR</glossterm>
<glossdef>
<para>Helps define the recipe revision for recipes that share
a common <filename>include</filename> file.
You can think of this variable as part of the recipe revision
as set from within an include file.</para>
<para>Suppose, for example, you have a set of recipes that
are used across several projects.
And, within each of those recipes the revision
(its <filename>PR</filename> value) is set accordingly.
In this case, when the revision of those recipes changes
the burden is on you to find all those recipes and
be sure that they get changed to reflect the updated
version of the recipe.
In this scenario, it can get complicated when recipes
used in many places and that provide common functionality
are upgraded to a new revision.</para>
<para>A more efficient way of dealing with this situation is
to set the <filename>INC_PR</filename> variable inside
the <filename>include</filename> files that the recipes
share and then expand the <filename>INC_PR</filename>
variable within the recipes to help
define the recipe revision.
</para>
<para>
The following provides an example that shows how to use
the <filename>INC_PR</filename> variable
given a common <filename>include</filename> file that
defines the variable.
Once the variable is defined in the
<filename>include</filename> file, you can use the
variable to set the <filename>PR</filename> values in
each recipe.
You will notice that when you set a recipe's
<filename>PR</filename> you can provide more granular
revisioning by appending values to the
<filename>INC_PR</filename> variable:
<literallayout class='monospaced'>
recipes-graphics/xorg-font/xorg-font-common.inc:INC_PR = "r2"
recipes-graphics/xorg-font/encodings_1.0.4.bb:PR = "${INC_PR}.1"
recipes-graphics/xorg-font/font-util_1.3.0.bb:PR = "${INC_PR}.0"
recipes-graphics/xorg-font/font-alias_1.0.3.bb:PR = "${INC_PR}.3"
</literallayout>
The first line of the example establishes the baseline
revision to be used for all recipes that use the
<filename>include</filename> file.
The remaining lines in the example are from individual
recipes and show how the <filename>PR</filename> value
is set.</para>
</glossdef>
</glossentry>
<glossentry id='var-INHIBIT_PACKAGE_STRIP'><glossterm>INHIBIT_PACKAGE_STRIP</glossterm>
<glossdef>
<para>
Causes the build to not strip binaries in resulting packages.
</para>
</glossdef>
</glossentry>
<glossentry id='var-INHERIT'><glossterm>INHERIT</glossterm>
<glossdef>
<para>
Causes the named class to be inherited at
this point during parsing.
The variable is only valid in configuration files.
</para>
</glossdef>
</glossentry>
<glossentry id='var-INITSCRIPT_PACKAGES'><glossterm>INITSCRIPT_PACKAGES</glossterm>
<glossdef>
<para>
A list of the packages that contain initscripts.
If multiple packages are specified, you need to append the package name
to the other <filename>INITSCRIPT_*</filename> as an override.</para>
<para>
This variable is used in recipes when using <filename>update-rc.d.bbclass</filename>.
The variable is optional and defaults to the <filename>PN</filename> variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-INITSCRIPT_NAME'><glossterm>INITSCRIPT_NAME</glossterm>
<glossdef>
<para>
The filename of the initscript (as installed to <filename>${etcdir}/init.d)</filename>.
</para>
<para>
This variable is used in recipes when using <filename>update-rc.d.bbclass</filename>.
The variable is Mandatory.
</para>
</glossdef>
</glossentry>
<glossentry id='var-INITSCRIPT_PARAMS'><glossterm>INITSCRIPT_PARAMS</glossterm>
<glossdef>
<para>
Specifies the options to pass to <filename>update-rc.d</filename>.
An example is <filename>start 99 5 2 . stop 20 0 1 6 .</filename>, which gives the script a
runlevel of 99, starts the script in initlevels 2 and 5, and
stops the script in levels 0, 1 and 6.
</para>
<para>
The variable is mandatory and is used in recipes when using
<filename>update-rc.d.bbclass</filename>.
</para>
</glossdef>
</glossentry>
</glossdiv>
<!-- <glossdiv id='var-glossary-j'><title>J</title>-->
<!-- </glossdiv>-->
<glossdiv id='var-glossary-k'><title>K</title>
<glossentry id='var-KARCH'><glossterm>KARCH</glossterm>
<glossdef>
<para>
Defines the kernel architecture to be used in assembling
the configuration.
Architectures supported for this release are:
<literallayout class='monospaced'>
powerpc
arm
i386
mips
powerpc
x86_64
</literallayout>
</para>
<para>
You define the <filename>KARCH</filename> variable in the
<ulink url='&YOCTO_DOCS_KERNEL_DEV_URL;#bsp-descriptions'>BSP Descriptions</ulink>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-KBRANCH'><glossterm>KBRANCH</glossterm>
<glossdef>
<para>
A regular expression used by the build process to explicitly identify the kernel
branch that is validated, patched and configured during a build.
The <filename>KBRANCH</filename> variable is optional.
You can use it to trigger checks to ensure the exact kernel branch you want is
being used by the build process.
</para>
<para>
Values for this variable are set in the kernel's recipe file and the kernel's
append file.
For example, if you are using the Yocto Project kernel that is based on the
Linux 3.4 kernel, the kernel recipe file is the
<filename>meta/recipes-kernel/linux/linux-yocto_3.4.bb</filename> file.
Following is the default value for <filename>KBRANCH</filename> and the default
override for the architectures the Yocto Project supports:
<literallayout class='monospaced'>
KBRANCH_DEFAULT = "standard/base"
KBRANCH = "${KBRANCH_DEFAULT}"
</literallayout>
This branch exists in the <filename>linux-yocto-3.4</filename> kernel Git
repository <ulink url='&YOCTO_GIT_URL;/cgit.cgi/linux-yocto-3.4/refs/heads'></ulink>.
</para>
<para>
This variable is also used from the kernel's append file to identify the kernel
branch specific to a particular machine or target hardware.
The kernel's append file is located in the BSP layer for a given machine.
For example, the kernel append file for the Crown Bay BSP is in the
<filename>meta-intel</filename> Git repository and is named
<filename>meta-crownbay/recipes-kernel/linux/linux-yocto_3.4.bbappend</filename>.
Here are the related statements from the append file:
<literallayout class='monospaced'>
COMPATIBLE_MACHINE_crownbay = "crownbay"
KMACHINE_crownbay = "crownbay"
KBRANCH_crownbay = "standard/crownbay"
COMPATIBLE_MACHINE_crownbay-noemgd = "crownbay-noemgd"
KMACHINE_crownbay-noemgd = "crownbay"
KBRANCH_crownbay-noemgd = "standard/crownbay"
</literallayout>
The <filename>KBRANCH_*</filename> statements identify the kernel branch to
use when building for the Crown Bay BSP.
In this case there are two identical statements: one for each type of
Crown Bay machine.
</para>
</glossdef>
</glossentry>
<glossentry id='var-KBRANCH_DEFAULT'><glossterm>KBRANCH_DEFAULT</glossterm>
<glossdef>
<para>
Defines the Linux kernel source repository's default
branch used to build the Linux kernel.
The <filename>KBRANCH_DEFAULT</filename> value is
the default value for
<link linkend='var-KBRANCH'><filename>KBRANCH</filename></link>.
Unless you specify otherwise,
<filename>KBRANCH_DEFAULT</filename> initializes to
"master".
</para>
</glossdef>
</glossentry>
<glossentry id='var-KERNEL_FEATURES'><glossterm>KERNEL_FEATURES</glossterm>
<glossdef>
<para>Includes additional metadata from the Yocto Project kernel Git repository.
In the OpenEmbedded build system, the default Board Support Packages (BSPs)
metadata is provided through
the <filename>KMACHINE</filename> and <filename>KBRANCH</filename> variables.
You can use the <filename>KERNEL_FEATURES</filename> variable to further
add metadata for all BSPs.</para>
<para>The metadata you add through this variable includes config fragments and
features descriptions,
which usually includes patches as well as config fragments.
You typically override the <filename>KERNEL_FEATURES</filename> variable
for a specific machine.
In this way, you can provide validated, but optional, sets of kernel
configurations and features.</para>
<para>For example, the following adds <filename>netfilter</filename> to all
the Yocto Project kernels and adds sound support to the <filename>qemux86</filename>
machine:
<literallayout class='monospaced'>
# Add netfilter to all linux-yocto kernels
KERNEL_FEATURES="features/netfilter"
# Add sound support to the qemux86 machine
KERNEL_FEATURES_append_qemux86=" cfg/sound"
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-KERNEL_IMAGETYPE'><glossterm>KERNEL_IMAGETYPE</glossterm>
<glossdef>
<para>The type of kernel to build for a device, usually set by the
machine configuration files and defaults to "zImage".
This variable is used
when building the kernel and is passed to <filename>make</filename> as the target to
build.</para>
</glossdef>
</glossentry>
<glossentry id='var-KERNEL_PATH'><glossterm>KERNEL_PATH</glossterm>
<glossdef>
<para>
The location of the kernel sources.
This variable is set to the value of the
<link linkend='var-STAGING_KERNEL_DIR'><filename>STAGING_KERNEL_DIR</filename></link>
within the <filename>module.bbclass</filename> class.
For information on how this variable is used, see the
"<ulink url='&YOCTO_DOCS_KERNEL_DEV_URL;#incorporating-out-of-tree-modules'>Incorporating Out-of-Tree Modules</ulink>"
section.
</para>
<para>
The <link linkend='var-KERNEL_SRC'><filename>KERNEL_SRC</filename></link>
variable is identical to the <filename>KERNEL_PATH</filename>
variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-KERNEL_SRC'><glossterm>KERNEL_SRC</glossterm>
<glossdef>
<para>
The location of the kernel sources.
This variable is set to the value of the
<link linkend='var-STAGING_KERNEL_DIR'><filename>STAGING_KERNEL_DIR</filename></link>
within the <filename>module.bbclass</filename> class.
For information on how this variable is used, see the
"<ulink url='&YOCTO_DOCS_KERNEL_DEV_URL;#incorporating-out-of-tree-modules'>Incorporating Out-of-Tree Modules</ulink>"
section.
</para>
<para>
The <link linkend='var-KERNEL_PATH'><filename>KERNEL_PATH</filename></link>
variable is identical to the <filename>KERNEL_SRC</filename>
variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-KFEATURE_DESCRIPTION'><glossterm>KFEATURE_DESCRIPTION</glossterm>
<glossdef>
<para>
Provides a short description of a configuration fragment.
You use this variable in the <filename>.scc</filename>
file that describes a configuruation fragment file.
Here is the variable used in a file named
<filename>smp.scc</filename> to describe SMP being
enabled:
<literallayout class='monospaced'>
define KFEATURE_DESCRIPTION "Enable SMP"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-KMACHINE'><glossterm>KMACHINE</glossterm>
<glossdef>
<para>
The machine as known by the kernel.
Sometimes the machine name used by the kernel does not match the machine name
used by the OpenEmbedded build system.
For example, the machine name that the OpenEmbedded build system understands as
<filename>qemuarm</filename> goes by a different name in the Linux Yocto kernel.
The kernel understands that machine as <filename>arm_versatile926ejs</filename>.
For cases like these, the <filename>KMACHINE</filename> variable maps the
kernel machine name to the OpenEmbedded build system machine name.
</para>
<para>
Kernel machine names are initially defined in the
<ulink url='&YOCTO_GIT_URL;/cgit.cgi'>Yocto Linux Kernel</ulink> in
the <filename>meta</filename> branch.
From the <filename>meta</filename> branch, look in
the <filename>meta/cfg/kernel-cache/bsp/<bsp_name>/<bsp-name>-<kernel-type>.scc</filename> file.
For example, from the <filename>meta</filename> branch in the
<filename>linux-yocto-3.0</filename> kernel, the
<filename>meta/cfg/kernel-cache/bsp/cedartrail/cedartrail-standard.scc</filename> file
has the following:
<literallayout class='monospaced'>
define KMACHINE cedartrail
define KTYPE standard
define KARCH i386
include ktypes/standard
branch cedartrail
include cedartrail.scc
</literallayout>
You can see that the kernel understands the machine name for the Cedar Trail BSP as
<filename>cedartrail</filename>.
</para>
<para>
If you look in the Cedar Trail BSP layer in the <filename>meta-intel</filename> source
repository at <filename>meta-cedartrail/recipes-kernel/linux/linux-yocto_3.0.bbappend</filename>,
you will find the following statements among others:
<literallayout class='monospaced'>
COMPATIBLE_MACHINE_cedartrail = "cedartrail"
KMACHINE_cedartrail = "cedartrail"
KBRANCH_cedartrail = "yocto/standard/cedartrail"
KERNEL_FEATURES_append_cedartrail += "bsp/cedartrail/cedartrail-pvr-merge.scc"
KERNEL_FEATURES_append_cedartrail += "cfg/efi-ext.scc"
COMPATIBLE_MACHINE_cedartrail-nopvr = "cedartrail"
KMACHINE_cedartrail-nopvr = "cedartrail"
KBRANCH_cedartrail-nopvr = "yocto/standard/cedartrail"
KERNEL_FEATURES_append_cedartrail-nopvr += " cfg/smp.scc"
</literallayout>
The <filename>KMACHINE</filename> statements in the kernel's append file make sure that
the OpenEmbedded build system and the Yocto Linux kernel understand the same machine
names.
</para>
<para>
This append file uses two <filename>KMACHINE</filename> statements.
The first is not really necessary but does ensure that the machine known to the
OpenEmbedded build system as <filename>cedartrail</filename> maps to the machine
in the kernel also known as <filename>cedartrail</filename>:
<literallayout class='monospaced'>
KMACHINE_cedartrail = "cedartrail"
</literallayout>
</para>
<para>
The second statement is a good example of why the <filename>KMACHINE</filename> variable
is needed.
In this example, the OpenEmbedded build system uses the <filename>cedartrail-nopvr</filename>
machine name to refer to the Cedar Trail BSP that does not support the propriatory
PowerVR driver.
The kernel, however, uses the machine name <filename>cedartrail</filename>.
Thus, the append file must map the <filename>cedartrail-nopvr</filename> machine name to
the kernel's <filename>cedartrail</filename> name:
<literallayout class='monospaced'>
KMACHINE_cedartrail-nopvr = "cedartrail"
</literallayout>
</para>
<para>
BSPs that ship with the Yocto Project release provide all mappings between the Yocto
Project kernel machine names and the OpenEmbedded machine names.
Be sure to use the <filename>KMACHINE</filename> if you create a BSP and the machine
name you use is different than that used in the kernel.
</para>
</glossdef>
</glossentry>
<glossentry id='var-KTYPE'><glossterm>KTYPE</glossterm>
<glossdef>
<para>
Defines the kernel type to be used in assembling the
configuration.
The linux-yocto recipes define "standard", "tiny",
and "preempt-rt" kernel types.
See the
"<ulink url='&YOCTO_DOCS_KERNEL_DEV_URL;#kernel-types'>Kernel Types</ulink>"
section in the Yocto Project Linux Kernel Development
Manual for more information on kernel types.
</para>
<para>
You define the <filename>KTYPE</filename> variable in the
<ulink url='&YOCTO_DOCS_KERNEL_DEV_URL;#bsp-descriptions'>BSP Descriptions</ulink>.
The value you use must match the value used for the
<link linkend='var-LINUX_KERNEL_TYPE'><filename>LINUX_KERNEL_TYPE</filename></link>
value used by the kernel recipe.
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-l'><title>L</title>
<glossentry id='var-LAYERDEPENDS'><glossterm>LAYERDEPENDS</glossterm>
<glossdef>
<para>Lists the layers that this recipe depends upon, separated by spaces.
Optionally, you can specify a specific layer version for a dependency
by adding it to the end of the layer name with a colon, (e.g. "anotherlayer:3"
to be compared against <filename>LAYERVERSION_anotherlayer</filename> in this case).
An error will be produced if any dependency is missing or
the version numbers do not match exactly (if specified).
This variable is used in the <filename>conf/layer.conf</filename> file
and must be suffixed with the name of the specific layer (e.g.
<filename>LAYERDEPENDS_mylayer</filename>).</para>
</glossdef>
</glossentry>
<glossentry id='var-LAYERDIR'><glossterm>LAYERDIR</glossterm>
<glossdef>
<para>When used inside the <filename>layer.conf</filename> configuration
file, this variable provides the path of the current layer.
This variable requires immediate expansion
(see the BitBake manual) as lazy expansion can result in
the expansion happening in the wrong directory and therefore
giving the wrong value.</para>
</glossdef>
</glossentry>
<glossentry id='var-LAYERVERSION'><glossterm>LAYERVERSION</glossterm>
<glossdef>
<para>Optionally specifies the version of a layer as a single number.
You can use this within <filename>LAYERDEPENDS</filename> for another layer in order to
depend on a specific version of the layer.
This variable is used in the <filename>conf/layer.conf</filename> file
and must be suffixed with the name of the specific layer (e.g.
<filename>LAYERVERSION_mylayer</filename>).</para>
</glossdef>
</glossentry>
<glossentry id='var-LIC_FILES_CHKSUM'><glossterm>LIC_FILES_CHKSUM</glossterm>
<glossdef>
<para>Checksums of the license text in the recipe source code.</para>
<para>This variable tracks changes in license text of the source
code files.
If the license text is changed, it will trigger a build
failure, which gives the developer an opportunity to review any
license change.</para>
<para>
This variable must be defined for all recipes (unless <filename>LICENSE</filename>
is set to "CLOSED")</para>
<para>For more information, see the
<link linkend='usingpoky-configuring-LIC_FILES_CHKSUM'>
Tracking License Changes</link> section</para>
</glossdef>
</glossentry>
<glossentry id='var-LICENSE'><glossterm>LICENSE</glossterm>
<glossdef>
<para>
The list of source licenses for the recipe.
Follow these rules:
<itemizedlist>
<listitem><para>Do not use spaces within individual
license names.</para></listitem>
<listitem><para>Separate license names using
| (pipe) when there is a choice between licenses.
</para></listitem>
<listitem><para>Separate license names using
& (ampersand) when multiple licenses exist
that cover different parts of the source.
</para></listitem>
<listitem><para>You can use spaces between license
names.</para></listitem>
</itemizedlist>
</para>
<para>
Here are some examples:
<literallayout class='monospaced'>
LICENSE = "LGPLv2.1 | GPLv3"
LICENSE = "MPL-1 & LGPLv2.1"
LICENSE = "GPLv2+"
</literallayout>
The first example is from the recipes for Qt, which the user
may choose to distribute under either the LGPL version
2.1 or GPL version 3.
The second example is from Cairo where two licenses cover
different parts of the source code.
The final example is from <filename>sysstat</filename>,
which presents a single license.
</para>
</glossdef>
</glossentry>
<glossentry id='var-LICENSE_PATH'><glossterm>LICENSE_PATH</glossterm>
<glossdef>
<para>Path to additional licenses used during the build.
By default, the OpenEmbedded build system uses <filename>COMMON_LICENSE_DIR</filename>
to define the directory that holds common license text used during the build.
The <filename>LICENSE_PATH</filename> variable allows you to extend that
location to other areas that have additional licenses:
<literallayout class='monospaced'>
LICENSE_PATH += "/path/to/additional/common/licenses"
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-LINUX_KERNEL_TYPE'><glossterm>LINUX_KERNEL_TYPE</glossterm>
<glossdef>
<para>
Defines the kernel type to be used in assembling the
configuration.
The linux-yocto recipes define "standard", "tiny", and
"preempt-rt" kernel types.
See the
"<ulink url='&YOCTO_DOCS_KERNEL_DEV_URL;#kernel-types'>Kernel Types</ulink>"
section in the Yocto Project Linux Kernel Development
Manual for more information on kernel types.
</para>
<para>
If you do not specify a
<filename>LINUX_KERNEL_TYPE</filename>, it defaults to
"standard".
Together with
<link linkend='var-KMACHINE'><filename>KMACHINE</filename></link>,
the <filename>LINUX_KERNEL_TYPE</filename> variable
defines the search
arguments used by the kernel tools to find the appropriate
description within the kernel Metadata with which to build
out the sources and configuration.
</para>
</glossdef>
</glossentry>
<glossentry id='var-LINUX_VERSION'><glossterm>LINUX_VERSION</glossterm>
<glossdef>
<para>The Linux version from <filename>kernel.org</filename>
on which the Linux kernel image being built using the
OpenEmbedded build system is based.
You define this varible in the kernel recipe.
For example, the <filename>linux-yocto-3.4.bb</filename>
kernel recipe found in
<filename>meta/recipes-kernel/linux</filename>
defines the variables as follows:
<literallayout class='monospaced'>
LINUX_VERSION ?= "3.4.24"
</literallayout>
The <filename>LINUX_VERSION</filename> variable is used to
define <link linkend='var-PV'><filename>PV</filename></link>
for the recipe:
<literallayout class='monospaced'>
PV = "${LINUX_VERSION}+git${SRCPV}"
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-LINUX_VERSION_EXTENSION'><glossterm>LINUX_VERSION_EXTENSION</glossterm>
<glossdef>
<para>A string extension compiled into the version
string of the Linux kernel built with the OpenEmbedded
build system.
You define this variable in the kernel recipe.
For example, the linux-yocto kernel recipes all define
the variable as follows:
<literallayout class='monospaced'>
LINUX_VERSION_EXTENSION ?= "-yocto-${<link linkend='var-LINUX_KERNEL_TYPE'>LINUX_KERNEL_TYPE</link>}"
</literallayout>
Defining this variable essentially sets the
Linux kernel configuration item
<filename>CONFIG_LOCALVERSION</filename>, which is visible
through the <filename>uname</filename> command.
Here is an example that shows the extension assuming it
was set as previously shown:
<literallayout class='monospaced'>
$ uname -r
3.7.0-rc8-custom
</literallayout>
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-m'><title>M</title>
<glossentry id='var-MACHINE'><glossterm>MACHINE</glossterm>
<glossdef>
<para>
Specifies the target device for which the image is built.
You define <filename>MACHINE</filename> in the
<filename>local.conf</filename> file found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
By default, <filename>MACHINE</filename> is set to
"qemux86", which is an x86-based architecture machine to
be emulated using QEMU:
<literallayout class='monospaced'>
MACHINE ?= "qemux86"
</literallayout>
The variable corresponds to a machine configuration file of the
same name, through which machine-specific configurations are set.
Thus, when <filename>MACHINE</filename> is set to "qemux86" there
exists the corresponding <filename>qemux86.conf</filename> machine
configuration file, which can be found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>
in <filename>meta/conf/machine</filename>.
</para>
<para>
The list of machines supported by the Yocto Project as
shipped include the following:
<literallayout class='monospaced'>
MACHINE ?= "qemuarm"
MACHINE ?= "qemumips"
MACHINE ?= "qemuppc"
MACHINE ?= "qemux86"
MACHINE ?= "qemux86-64"
MACHINE ?= "atom-pc"
MACHINE ?= "beagleboard"
MACHINE ?= "mpc8315e-rdb"
MACHINE ?= "routerstationpro"
</literallayout>
The last four are Yocto Project reference hardware boards, which
are provided in the <filename>meta-yocto-bsp</filename> layer.
<note>Adding additional Board Support Package (BSP) layers
to your configuration adds new possible settings for
<filename>MACHINE</filename>.
</note>
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_ESSENTIAL_EXTRA_RDEPENDS'><glossterm>MACHINE_ESSENTIAL_EXTRA_RDEPENDS</glossterm>
<glossdef>
<para></para>
<para>
A list of required machine-specific packages to install as part of
the image being built.
The build process depends on these packages being present.
Furthermore, because this is a "machine essential" variable, the list of
packages are essential for the machine to boot.
The impact of this variable affects images based on
<filename>packagegroup-core-boot</filename>,
including the <filename>core-image-minimal</filename> image.
</para>
<para>
This variable is similar to the
<filename><link linkend='var-MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS'>MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS</link></filename>
variable with the exception that the image being built has a build
dependency on the variable's list of packages.
In other words, the image will not build if a file in this list is not found.
</para>
<para>
As an example, suppose the machine for which you are building requires
<filename>example-init</filename> to be run during boot to initialize the hardware.
In this case, you would use the following in the machine's
<filename>.conf</filename> configuration file:
<literallayout class='monospaced'>
MACHINE_ESSENTIAL_EXTRA_RDEPENDS += "example-init"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS'><glossterm>MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS</glossterm>
<glossdef>
<para></para>
<para>
A list of recommended machine-specific packages to install as part of
the image being built.
The build process does not depend on these packages being present.
However, because this is a "machine essential" variable, the list of
packages are essential for the machine to boot.
The impact of this variable affects images based on
<filename>packagegroup-core-boot</filename>,
including the <filename>core-image-minimal</filename> image.
</para>
<para>
This variable is similar to the
<filename><link linkend='var-MACHINE_ESSENTIAL_EXTRA_RDEPENDS'>MACHINE_ESSENTIAL_EXTRA_RDEPENDS</link></filename>
variable with the exception that the image being built does not have a build
dependency on the variable's list of packages.
In other words, the image will still build if a package in this list is not found.
Typically, this variable is used to handle essential kernel modules, whose
functionality may be selected to be built into the kernel rather than as a module,
in which case a package will not be produced.
</para>
<para>
Consider an example where you have a custom kernel where a specific touchscreen
driver is required for the machine to be usable.
However, the driver can be built as a module or
into the kernel depending on the kernel configuration.
If the driver is built as a module, you want it to be installed.
But, when the driver is built into the kernel, you still want the
build to succeed.
This variable sets up a "recommends" relationship so that in the latter case,
the build will not fail due to the missing package.
To accomplish this, assuming the package for the module was called
<filename>kernel-module-ab123</filename>, you would use the
following in the machine's <filename>.conf</filename> configuration
file:
<literallayout class='monospaced'>
MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS += "kernel-module-ab123"
</literallayout>
</para>
<para>
Some examples of these machine essentials are flash, screen, keyboard, mouse,
or touchscreen drivers (depending on the machine).
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_EXTRA_RDEPENDS'><glossterm>MACHINE_EXTRA_RDEPENDS</glossterm>
<glossdef>
<para>
A list of machine-specific packages to install as part of the
image being built that are not essential for the machine to boot.
However, the build process for more fully-featured images
depends on the packages being present.
</para>
<para>
This variable affects all images based on
<filename>packagegroup-base</filename>, which does not include the
<filename>core-image-minimal</filename> or <filename>core-image-basic</filename>
images.
</para>
<para>
The variable is similar to the
<filename><link linkend='var-MACHINE_EXTRA_RRECOMMENDS'>MACHINE_EXTRA_RRECOMMENDS</link></filename>
variable with the exception that the image being built has a build
dependency on the variable's list of packages.
In other words, the image will not build if a file in this list is not found.
</para>
<para>
An example is a machine that has WiFi capability but is not essential
For the machine to boot the image.
However, if you are building a more fully-featured image, you want to enable
the WiFi.
The package containing the firmware for the WiFi hardware is always
expected to exist, so it is acceptable for the build process to depend upon
finding the package.
In this case, assuming the package for the firmware was called
<filename>wifidriver-firmware</filename>, you would use the following in the
<filename>.conf</filename> file for the machine:
<literallayout class='monospaced'>
MACHINE_EXTRA_RDEPENDS += "wifidriver-firmware"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_EXTRA_RRECOMMENDS'><glossterm>MACHINE_EXTRA_RRECOMMENDS</glossterm>
<glossdef>
<para></para>
<para>
A list of machine-specific packages to install as part of the
image being built that are not essential for booting the machine.
The image being built has no build dependency on this list of packages.
</para>
<para>
This variable affects only images based on
<filename>packagegroup-base</filename>, which does not include the
<filename>core-image-minimal</filename> or <filename>core-image-basic</filename>
images.
</para>
<para>
This variable is similar to the
<filename><link linkend='var-MACHINE_EXTRA_RDEPENDS'>MACHINE_EXTRA_RDEPENDS</link></filename>
variable with the exception that the image being built does not have a build
dependency on the variable's list of packages.
In other words, the image will build if a file in this list is not found.
</para>
<para>
An example is a machine that has WiFi capability but is not essential
For the machine to boot the image.
However, if you are building a more fully-featured image, you want to enable
WiFi.
In this case, the package containing the WiFi kernel module will not be produced
if the WiFi driver is built into the kernel, in which case you still want the
build to succeed instead of failing as a result of the package not being found.
To accomplish this, assuming the package for the module was called
<filename>kernel-module-examplewifi</filename>, you would use the
following in the <filename>.conf</filename> file for the machine:
<literallayout class='monospaced'>
MACHINE_EXTRA_RRECOMMENDS += "kernel-module-examplewifi"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_FEATURES'><glossterm>MACHINE_FEATURES</glossterm>
<glossdef>
<para>Specifies the list of hardware features the
<link linkend='var-MACHINE'>MACHINE</link> supports.
For example, including the "bluetooth" feature causes the
<filename>bluez</filename> bluetooth daemon to be built and
added to the image.
It also causes the <filename>connman</filename> recipe
to look at <filename>MACHINE_FEATURES</filename> and when it
finds "bluetooth" there it enables the bluetooth
support in ConnMan.
</para>
<para>
For a list of features supported by the Yocto Project as shipped,
see the "<link linkend='ref-features-machine'>Machine</link>" section.
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_FEATURES_BACKFILL'><glossterm>MACHINE_FEATURES_BACKFILL</glossterm>
<glossdef>
<para>Features to be added to
<filename><link linkend='var-MACHINE_FEATURES'>MACHINE_FEATURES</link></filename>
if not also present in
<filename><link linkend='var-MACHINE_FEATURES_BACKFILL_CONSIDERED'>MACHINE_FEATURES_BACKFILL_CONSIDERED</link></filename>.
</para>
<para>
This variable is set in the <filename>meta/conf/bitbake.conf</filename> file.
It is not intended to be user-configurable.
It is best to just reference the variable to see which machine features are
being backfilled for all machine configurations.
See the <link linkend='ref-features-backfill'>Feature backfilling</link> section for
more information.
</para>
</glossdef>
</glossentry>
<glossentry id='var-MACHINE_FEATURES_BACKFILL_CONSIDERED'><glossterm>MACHINE_FEATURES_BACKFILL_CONSIDERED</glossterm>
<glossdef>
<para>Features from
<filename><link linkend='var-MACHINE_FEATURES_BACKFILL'>MACHINE_FEATURES_BACKFILL</link></filename>
that should not be backfilled (i.e. added to
<filename><link linkend='var-MACHINE_FEATURES'>MACHINE_FEATURES</link></filename>)
during the build.
See the <link linkend='ref-features-backfill'>Feature backfilling</link> section for
more information.
</para>
</glossdef>
</glossentry>
<glossentry id='var-MAINTAINER'><glossterm>MAINTAINER</glossterm>
<glossdef>
<para>The email address of the distribution maintainer.</para>
</glossdef>
</glossentry>
<glossentry id='var-MIRRORS'><glossterm>MIRRORS</glossterm>
<glossdef>
<para>
Specifies additional paths from which the OpenEmbedded
build system gets source code.
When the build system searches for source code, it first
tries the local download directory.
If that location fails, the build system tries locations
defined by
<link linkend='var-PREMIRRORS'><filename>PREMIRRORS</filename></link>,
the upstream source, and then locations specified by
<filename>MIRRORS</filename> in that order.
</para>
<para>
Assuming your distribution
(<link linkend='var-DISTRO'><filename>DISTRO</filename></link>)
is "poky", the default value for
<filename>MIRRORS</filename> is defined in the
<filename>conf/distro/poky.conf</filename> file in the
<filename>meta-yocto</filename> Git repository.
</para>
</glossdef>
</glossentry>
<glossentry id='var-MLPREFIX'><glossterm>MLPREFIX</glossterm>
<glossdef>
<para>
Specifies a prefix has been added to
<link linkend='var-PN'><filename>PN</filename></link> to create a special version
of a recipe or package, such as a multilib version.
The variable is used in places where the prefix needs to be
added to or removed from a the name (e.g. the
<link linkend='var-BPN'><filename>BPN</filename></link> variable).
<filename>MLPREFIX</filename> gets set when a prefix has been
added to <filename>PN</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-MULTIMACH_TARGET_SYS'><glossterm>MULTIMACH_TARGET_SYS</glossterm>
<glossdef>
<para>
Separates files for different machines such that you can build
for multiple target machines using the same output directories.
See the <link linkend='var-STAMP'><filename>STAMP</filename></link> variable
for an example.
</para>
</glossdef>
</glossentry>
</glossdiv>
<!-- <glossdiv id='var-glossary-n'><title>N</title>-->
<!-- </glossdiv>-->
<glossdiv id='var-glossary-o'><title>O</title>
<glossentry id='var-OE_TERMINAL'><glossterm>OE_TERMINAL</glossterm>
<glossdef>
<para>
Controls how the OpenEmbedded build system spawns
interactive terminals on the host development system
(e.g. using the BitBake command with the
<filename>-c devshell</filename> command-line option).
For more information, see the
"<ulink url='&YOCTO_DOCS_DEV_URL;#platdev-appdev-devshell'>Using a Development Shell</ulink>" section
in the Yocto Project Development Manual.
</para>
<para>
You can use the following values for the
<filename>OE_TERMINAL</filename> variable:
<literallayout class='monospaced'>
auto
gnome
xfce
rxvt
screen
konsole
none
</literallayout>
<note>Konsole support only works for KDE 3.x.
Also, "auto" is the default behavior for
<filename>OE_TERMINAL</filename></note>
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-p'><title>P</title>
<glossentry id='var-P'><glossterm>P</glossterm>
<glossdef>
<para>The recipe name and version.
<filename>P</filename> is comprised of the following:
<literallayout class='monospaced'>
${PN}-${PV}
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGE_ARCH'><glossterm>PACKAGE_ARCH</glossterm>
<glossdef>
<para>The architecture of the resulting package or packages.</para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGE_BEFORE_PN'><glossterm>PACKAGE_BEFORE_PN</glossterm>
<glossdef>
<para>Enables easily adding packages to
<filename><link linkend='var-PACKAGES'>PACKAGES</link></filename>
before <filename>${PN}</filename> so that the packages can pick
up files that would normally be included in the default package.</para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGE_CLASSES'><glossterm>PACKAGE_CLASSES</glossterm>
<glossdef>
<para>This variable, which is set in the <filename>local.conf</filename> configuration
file found in the <filename>conf</filename> folder of the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>,
specifies the package manager to use when packaging data.
You can provide one or more arguments for the variable with the first
argument being the package manager used to create images:
<literallayout class='monospaced'>
PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk"
</literallayout>
For information on build performance effects as a result of the
package manager use, see
<link linkend='ref-classes-package'>Packaging - <filename>package*.bbclass</filename></link>
in this manual.
</para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGE_EXTRA_ARCHS'><glossterm>PACKAGE_EXTRA_ARCHS</glossterm>
<glossdef>
<para>Specifies the list of architectures compatible with the device CPU.
This variable is useful when you build for several different devices that use
miscellaneous processors such as XScale and ARM926-EJS).</para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGECONFIG'><glossterm>PACKAGECONFIG</glossterm>
<glossdef>
<para>
This variable provides a means of enabling or disabling
features of a recipe on a per-recipe basis.
The <filename>PACKAGECONFIG</filename>
variable itself specifies a space-separated list of the
features to enable.
The features themselves are specified as flags on the
<filename>PACKAGECONFIG</filename> variable.
You can provide up to four arguments, which are separated by
commas, to determine the behavior of each feature
when it is enabled or disabled.
You can omit any argument you like but must retain the
separating commas.
The arguments specify the following:
<orderedlist>
<listitem><para>Extra arguments
that should be added to the configure script argument list
(<link linkend='var-EXTRA_OECONF'><filename>EXTRA_OECONF</filename></link>)
if the feature is enabled.</para></listitem>
<listitem><para>Extra arguments
that should be added to <filename>EXTRA_OECONF</filename>
if the feature is disabled.
</para></listitem>
<listitem><para>Additional build dependencies
(<link linkend='var-DEPENDS'><filename>DEPENDS</filename></link>)
that should be added if the feature is enabled.
</para></listitem>
<listitem><para>Additional runtime dependencies
(<link linkend='var-RDEPENDS'><filename>RDEPENDS</filename></link>)
that should be added if the feature is enabled.
</para></listitem>
</orderedlist>
</para>
<para>
Consider the following example taken from the
<filename>librsvg</filename> recipe.
In this example the feature is <filename>croco</filename>, which
has three arguments that determine the feature's behavior.
<literallayout class='monospaced'>
PACKAGECONFIG ??= "croco"
PACKAGECONFIG[croco] = "--with-croco,--without-croco,libcroco"
</literallayout>
The <filename>--with-croco</filename> and
<filename>libcroco</filename> arguments apply only if
the feature is enabled.
In this case, <filename>--with-croco</filename> is
added to the configure script argument list and
<filename>libcroco</filename> is added to
<filename><link linkend='var-DEPENDS'>DEPENDS</link></filename>.
On the other hand, if the feature is disabled say through
a <filename>.bbappend</filename> file in another layer, then
the second argument <filename>--without-croco</filename> is
added to the configure script rather than
<filename>--with-croco</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGES'><glossterm>PACKAGES</glossterm>
<glossdef>
<para>The list of packages to be created from the recipe.
The default value is the following:
<literallayout class='monospaced'>
${PN}-dbg ${PN}-staticdev ${PN}-dev ${PN}-doc ${PN}-locale ${PACKAGE_BEFORE_PN} ${PN}
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-PACKAGES_DYNAMIC'><glossterm>PACKAGES_DYNAMIC</glossterm>
<glossdef>
<para>
A promise that your recipe satisfies runtime dependencies
for optional modules that are found in other recipes.
<filename>PACKAGES_DYNAMIC</filename>
does not actually satisfy the dependencies, it only states that
they should be satisfied.
For example, if a hard, runtime dependency
(<filename>RDEPENDS</filename>) of another package is satisfied
at build time through the <filename>PACKAGES_DYNAMIC</filename>
variable, but a package with the module name is never actually
produced, then the other package will be broken.
Thus, if you attempt to include that package in an image,
you will get a dependency failure from the packaging system
during <filename>do_rootfs</filename>.
Typically, if there is a chance that such a situation can
occur and the package that is not created is valid
without the dependency being satisfied, then you should use
<filename>RRECOMMENDS</filename> (a soft runtime dependency)
instead of <filename>RDEPENDS</filename>.
</para>
<para>
For an example of how to use the <filename>PACKAGES_DYNAMIC</filename>
variable when you are splitting packages, see the
"<ulink url='&YOCTO_DOCS_DEV_URL;#handling-optional-module-packaging'>Handling Optional Module Packaging</ulink>" section
in the Yocto Project Development Manual.
</para>
</glossdef>
</glossentry>
<glossentry id='var-PARALLEL_MAKE'><glossterm>PARALLEL_MAKE</glossterm>
<glossdef>
<para>Specifies extra options that are passed to the <filename>make</filename> command during the
compile tasks.
This variable is usually in the form <filename>-j 4</filename>, where the number
represents the maximum number of parallel threads make can run.
If you development host supports multiple cores a good rule of thumb is to set
this variable to twice the number of cores on the host.</para>
</glossdef>
</glossentry>
<glossentry id='var-PF'><glossterm>PF</glossterm>
<glossdef>
<para>Specifies the recipe or package name and includes all version and revision
numbers (i.e. <filename>eglibc-2.13-r20+svnr15508/</filename> and
<filename>bash-4.2-r1/</filename>).
This variable is comprised of the following:
<literallayout class='monospaced'>
${PN}-${EXTENDPE}${PV}-${PR}
</literallayout></para>
</glossdef>
</glossentry>
<glossentry id='var-PN'><glossterm>PN</glossterm>
<glossdef>
<para>This variable can have two separate functions depending on the context: a recipe
name or a resulting package name.</para>
<para><filename>PN</filename> refers to a recipe name in the context of a file used
by the OpenEmbedded build system as input to create a package.
The name is normally extracted from the recipe file name.
For example, if the recipe is named
<filename>expat_2.0.1.bb</filename>, then the default value of <filename>PN</filename>
will be "expat".</para>
<para>
The variable refers to a package name in the context of a file created or produced by the
OpenEmbedded build system.</para>
<para>If applicable, the <filename>PN</filename> variable also contains any special
suffix or prefix.
For example, using <filename>bash</filename> to build packages for the native
machine, <filename>PN</filename> is <filename>bash-native</filename>.
Using <filename>bash</filename> to build packages for the target and for Multilib,
<filename>PN</filename> would be <filename>bash</filename> and
<filename>lib64-bash</filename>, respectively.
</para>
</glossdef>
</glossentry>
<glossentry id='var-PR'><glossterm>PR</glossterm>
<glossdef>
<para>The revision of the recipe.
The default value for this variable is "r0".
</para>
</glossdef>
</glossentry>
<glossentry id='var-PREMIRRORS'><glossterm>PREMIRRORS</glossterm>
<glossdef>
<para>
Specifies additional paths from which the OpenEmbedded
build system gets source code.
When the build system searches for source code, it first
tries the local download directory.
If that location fails, the build system tries locations
defined by <filename>PREMIRRORS</filename>, the upstream
source, and then locations specified by
<link linkend='var-MIRRORS'><filename>MIRRORS</filename></link>
in that order.
</para>
<para>
Assuming your distribution
(<link linkend='var-DISTRO'><filename>DISTRO</filename></link>)
is "poky", the default value for
<filename>PREMIRRORS</filename> is defined in the
<filename>conf/distro/poky.conf</filename> file in the
<filename>meta-yocto</filename> Git repository.
</para>
<para>
Typically, you could add a specific server for the
build system to attempt before any others by adding
something like the following to the
<filename>local.conf</filename> configuration file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>:
<literallayout class='monospaced'>
PREMIRRORS_prepend = "\
git://.*/.* http://www.yoctoproject.org/sources/ \n \
ftp://.*/.* http://www.yoctoproject.org/sources/ \n \
http://.*/.* http://www.yoctoproject.org/sources/ \n \
https://.*/.* http://www.yoctoproject.org/sources/ \n"
</literallayout>
These changes cause the build system to intercept
Git, FTP, HTTP, and HTTPS requests and direct them to
the <filename>http://</filename> sources mirror.
You can use <filename>file://</filename> URLs to point
to local directories or network shares as well.
</para>
</glossdef>
</glossentry>
<glossentry id='var-PRINC'><glossterm>PRINC</glossterm>
<glossdef>
<para>Causes the <filename>PR</filename> variable of
<filename>.bbappend</filename> files to dynamically increment.
This increment minimizes the impact of layer ordering.</para>
<para>In order to ensure multiple <filename>.bbappend</filename> files can co-exist,
<filename>PRINC</filename> should be self referencing.
This variable defaults to 0.</para>
<para>Following is an example that increments <filename>PR</filename> by two:
<literallayout class='monospaced'>
PRINC := "${@int(PRINC) + 2}"
</literallayout>
It is adviseable not to use strings such as ".= '.1'" with the variable because
this usage is very sensitive to layer ordering.
Explicit assignments should be avoided as they cannot adequately represent multiple
<filename>.bbappend</filename> files.</para>
</glossdef>
</glossentry>
<glossentry id='var-PV'><glossterm>PV</glossterm>
<glossdef>
<para>The version of the recipe.
The version is normally extracted from the recipe filename.
For example, if the recipe is named
<filename>expat_2.0.1.bb</filename>, then the default value of <filename>PV</filename>
will be "2.0.1".
<filename>PV</filename> is generally not overridden within
a recipe unless it is building an unstable (i.e. development) version from a source code repository
(e.g. Git or Subversion).
</para>
</glossdef>
</glossentry>
<glossentry id='var-PE'><glossterm>PE</glossterm>
<glossdef>
<para>
the epoch of the recipe.
The default value is "0".
The field is used to make upgrades possible when the versioning scheme changes in
some backwards incompatible way.
</para>
</glossdef>
</glossentry>
<glossentry id='var-PREFERRED_PROVIDER'><glossterm>PREFERRED_PROVIDER</glossterm>
<glossdef>
<para>
If multiple recipes provide an item, this variable
determines which recipe should be given preference.
The variable must always be suffixed with the name of the
provided item, and should be set to the
<filename>PN</filename> of the recipe
to which you want to give precedence.
Here is an example:
<literallayout class='monospaced'>
PREFERRED_PROVIDER_virtual/xserver = "xserver-xf86"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-PREFERRED_VERSION'><glossterm>PREFERRED_VERSION</glossterm>
<glossdef>
<para>
If there are multiple versions of recipes available, this
variable determines which recipe should be given preference.
The variable must always be suffixed with the <filename>PN</filename>
for which to select, and should be set to the
<filename>PV</filename> to which you want to give precedence.
You can use the "<filename>%</filename>" character as a wildcard
to match any number of characters, which can be useful when
specifying versions that contain long revision number that could
potentially change.
Here are two examples:
<literallayout class='monospaced'>
PREFERRED_VERSION_python = "2.6.6"
PREFERRED_VERSION_linux-yocto = "3.0+git%"
</literallayout>
</para>
</glossdef>
</glossentry>
</glossdiv>
<!-- <glossdiv id='var-glossary-q'><title>Q</title>-->
<!-- </glossdiv>-->
<glossdiv id='var-glossary-r'><title>R</title>
<glossentry id='var-RCONFLICTS'><glossterm>RCONFLICTS</glossterm>
<glossdef>
<para>The list of packages that conflict with a package.
Note that the package will not be installed if the conflicting packages are not
first removed.</para>
<para>
Like all package-controlling variables, you must always use them in
conjunction with a package name override.
Here is an example:
<literallayout class='monospaced'>
RCONFLICTS_${PN} = "another-conflicting-package-name"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-RDEPENDS'><glossterm>RDEPENDS</glossterm>
<glossdef>
<para>
Lists a package's run-time dependencies (i.e. other packages)
that must be installed for the package to be built.
In other words, in order for the package to be built and
run correctly, it depends on the listed packages.
If a package in this list cannot be found, it is probable
that a dependency error would occur before the build.
</para>
<para>
The names of the variables you list with
<filename>RDEPENDS</filename> must be the names of other
packages as listed in the
<link linkend='var-PACKAGES'><filename>PACKAGES</filename></link>
variable.
You should not list recipe names (<filename>PN</filename>).
</para>
<para>
Because the <filename>RDEPENDS</filename> variable applies
to packages being built, you should
always attach a package name to the variable to specify the
particular run-time package that has the dependency.
For example, suppose you are building a development package
that depends on the <filename>perl</filename> package.
In this case, you would use the following
<filename>RDEPENDS</filename> statement:
<literallayout class='monospaced'>
RDEPENDS_${PN}-dev += "perl"
</literallayout>
In the example, the package name
(<filename>${PN}-dev</filename>) must appear as it would
in the
<filename><link linkend='var-PACKAGES'>PACKAGES</link></filename>
namespace before any renaming of the output package by
classes like <filename>debian.bbclass</filename>.
</para>
<para>
In many cases you do not need to explicitly add dependencies
to <filename>RDEPENDS</filename> since some automatic
handling occurs:
<itemizedlist>
<listitem><para><emphasis><filename>shlibdeps</filename></emphasis>: If
a run-time package contains a shared library
(<filename>.so</filename>), the build
processes the library in order to determine other
libraries to which it is dynamically linked.
The build process adds these libraries to
<filename>RDEPENDS</filename> when creating the run-time
package.</para></listitem>
<listitem><para><emphasis><filename>pcdeps</filename></emphasis>: If
the package ships a <filename>pkg-config</filename>
information file, the build process uses this file
to add items to the <filename>RDEPENDS</filename>
variable to create the run-time packages.
</para></listitem>
</itemizedlist>
</para>
</glossdef>
</glossentry>
<glossentry id='var-RRECOMMENDS'><glossterm>RRECOMMENDS</glossterm>
<glossdef>
<para>
A list of packages that extend the usability of a package being
built.
The package being built does not depend on this list of packages in
order to successfully build, but needs them for the extended usability.
To specify runtime dependencies for packages, see the
<filename><link linkend='var-RDEPENDS'>RDEPENDS</link></filename> variable.
</para>
<para>
The OpenEmbedded build process automatically installs the list of packages
as part of the built package.
However, you can remove them later if you want.
If, during the build, a package from the list cannot be found, the build
process continues without an error.
</para>
<para>
Because the <filename>RRECOMMENDS</filename> variable applies to packages
being built, you should
always attach an override to the variable to specify the particular package
whose usability is being extended.
For example, suppose you are building a development package that is extended
to support wireless functionality.
In this case, you would use the following:
<literallayout class='monospaced'>
RRECOMMENDS_${PN}-dev += "<wireless_package_name>"
</literallayout>
In the example, the package name (<filename>${PN}-dev</filename>) must
appear as it would in the
<filename><link linkend='var-PACKAGES'>PACKAGES</link></filename> namespace before any
renaming of the output package by classes like <filename>debian.bbclass</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-RREPLACES'><glossterm>RREPLACES</glossterm>
<glossdef>
<para>The list of packages that are replaced with this package.</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-s'><title>S</title>
<glossentry id='var-S'><glossterm>S</glossterm>
<glossdef>
<para>
The location in the <ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>
where unpacked package source code resides.
This location is within the working directory
(<filename><link linkend='var-WORKDIR'>WORKDIR</link></filename>), which
is not static.
The unpacked source location depends on the package name
(<filename><link linkend='var-PN'>PN</link></filename>) and
package version (<filename><link linkend='var-PV'>PV</link></filename>) as
follows:
<literallayout class='monospaced'>
${WORKDIR}/${PN}/${PV}
</literallayout>
As an example, assume a
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink> top-level
folder named <filename>poky</filename>
and a default <ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>
at <filename>poky/build</filename>.
In this case, the working directory the build system uses to build
the <filename>db</filename> package is the following:
<literallayout class='monospaced'>
~/poky/build/tmp/work/qemux86-poky-linux/db/5.1.19-r3/db-5.1.19
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-SDKIMAGE_FEATURES'><glossterm>SDKIMAGE_FEATURES</glossterm>
<glossdef>
<para>Equivalent to
<filename><link linkend='var-IMAGE_FEATURES'>IMAGE_FEATURES</link></filename>.
However, this variable applies to the SDK generated from an image using
<filename>bitbake -c populate_sdk imagename</filename>).
</para>
</glossdef>
</glossentry>
<glossentry id='var-SECTION'><glossterm>SECTION</glossterm>
<glossdef>
<para>The section in which packages should be categorized.
Package management utilities can make use of this variable.</para>
</glossdef>
</glossentry>
<glossentry id='var-SELECTED_OPTIMIZATION'><glossterm>SELECTED_OPTIMIZATION</glossterm>
<glossdef>
<para>
The variable takes the value of
<filename><link linkend='var-FULL_OPTIMIZATION'>FULL_OPTIMIZATION</link></filename>
unless <filename><link linkend='var-DEBUG_BUILD'>DEBUG_BUILD</link></filename> = "1".
In this case the value of
<filename><link linkend='var-DEBUG_OPTIMIZATION'>DEBUG_OPTIMIZATION</link></filename> is used.
</para>
</glossdef>
</glossentry>
<glossentry id='var-SERIAL_CONSOLE'><glossterm>SERIAL_CONSOLE</glossterm>
<glossdef>
<para>The speed and device for the serial port used to attach the serial console.
This variable is given to the kernel as the "console"
parameter and after booting occurs <filename>getty</filename> is started on that port
so remote login is possible.</para>
</glossdef>
</glossentry>
<glossentry id='var-SITEINFO_ENDIANNESS'><glossterm>SITEINFO_ENDIANNESS</glossterm>
<glossdef>
<para>
Specifies the endian byte order of the target system.
The value should be either "le" for little-endian or "be" for big-endian.
</para>
</glossdef>
</glossentry>
<glossentry id='var-SITEINFO_BITS'><glossterm>SITEINFO_BITS</glossterm>
<glossdef>
<para>
Specifies the number of bits for the target system CPU.
The value should be either "32" or "64".
</para>
</glossdef>
</glossentry>
<glossentry id='var-SPECIAL_PKGSUFFIX'><glossterm>SPECIAL_PKGSUFFIX</glossterm>
<glossdef>
<para>
A list of prefixes for <link linkend='var-PN'><filename>PN</filename></link> used by the
OpenEmbedded build system to create variants of recipes or packages.
The list specifies the prefixes to strip off during certain circumstances
such as the generation of the <link linkend='var-BPN'><filename>BPN</filename></link> variable.
</para>
</glossdef>
</glossentry>
<glossentry id='var-SRC_URI'><glossterm>SRC_URI</glossterm>
<glossdef>
<para>The list of source files - local or remote.
This variable tells the OpenEmbedded build system which bits to pull
in for the build and how to pull them in.
For example, if the recipe only needs to fetch a tarball from the
internet, the recipe uses a single <filename>SRC_URI</filename> entry.
On the other hand, if the recipe needs to fetch a tarball, apply
two patches, and include a custom file, the recipe would include four
instances of the variable.</para>
<para>The following list explains the available URI protocols:
<itemizedlist>
<listitem><para><emphasis><filename>file://</filename> -</emphasis> Fetches files, which is usually
a file shipped with the metadata, from the local machine.
The path is relative to the
<link linkend='var-FILESPATH'><filename>FILESPATH</filename></link>
variable.
Thus, the build system searches, in order, from the following directories,
which are assumed to be a subdirectories of the directory in which the
recipe file resides:
<itemizedlist>
<listitem><para><emphasis><filename>${PN}</filename> -</emphasis> The recipe name
with any special suffix or prefix, if applicable.
For example, using <filename>bash</filename> to build for the native
machine, <filename>PN</filename> is <filename>bash-native</filename>.
Using <filename>bash</filename> to build for the target and for Multilib,
<filename>PN</filename> would be <filename>bash</filename> and
<filename>lib64-bash</filename>, respectively.
</para></listitem>
<listitem><para><emphasis><filename>${PF}</filename> - </emphasis>
<filename>${PN}-${EXTENDPE}${PV}-${PR}</filename>.
The recipe name including all version and revision numbers
(i.e. <filename>eglibc-2.13-r20+svnr15508/</filename> and
<filename>bash-4.2-r1/</filename>).</para></listitem>
<listitem><para><emphasis><filename>${P}</filename> -</emphasis>
<filename>${PN}-${PV}</filename>.
The recipe name and version (i.e. <filename>bash-4.2</filename>).
</para></listitem>
<listitem><para><emphasis><filename>${BPN}</filename> -</emphasis> The
base recipe name without any special suffix or version numbers.
</para></listitem>
<listitem><para><emphasis><filename>${BP}</filename> -</emphasis>
<filename>${BPN}-${PV}</filename>.
The base recipe name and version but without any special
package name suffix.</para></listitem>
<listitem><para><emphasis>Files -</emphasis> Files beneath the directory in which the recipe
resides.</para></listitem>
<listitem><para><emphasis>Directory -</emphasis> The directory itself in which the recipe
resides.</para></listitem>
</itemizedlist></para></listitem>
<listitem><para><emphasis><filename>bzr://</filename> -</emphasis> Fetches files from a
Bazaar revision control repository.</para></listitem>
<listitem><para><emphasis><filename>git://</filename> -</emphasis> Fetches files from a
Git revision control repository.</para></listitem>
<listitem><para><emphasis><filename>osc://</filename> -</emphasis> Fetches files from
an OSC (OpenSuse Build service) revision control repository.</para></listitem>
<listitem><para><emphasis><filename>repo://</filename> -</emphasis> Fetches files from
a repo (Git) repository.</para></listitem>
<listitem><para><emphasis><filename>svk://</filename> -</emphasis> Fetches files from
an SVK revision control repository.</para></listitem>
<listitem><para><emphasis><filename>http://</filename> -</emphasis> Fetches files from
the Internet using <filename>http</filename>.</para></listitem>
<listitem><para><emphasis><filename>https://</filename> -</emphasis> Fetches files
from the Internet using <filename>https</filename>.</para></listitem>
<listitem><para><emphasis><filename>ftp://</filename> -</emphasis> Fetches files
from the Internet using <filename>ftp</filename>.</para></listitem>
<listitem><para><emphasis><filename>cvs://</filename> -</emphasis> Fetches files from
a CVS revision control repository.</para></listitem>
<listitem><para><emphasis><filename>hg://</filename> -</emphasis> Fetches files from
a Mercurial (<filename>hg</filename>) revision control repository.</para></listitem>
<listitem><para><emphasis><filename>p4://</filename> -</emphasis> Fetches files from
a Perforce (<filename>p4</filename>) revision control repository.</para></listitem>
<listitem><para><emphasis><filename>ssh://</filename> -</emphasis> Fetches files from
a secure shell.</para></listitem>
<listitem><para><emphasis><filename>svn://</filename> -</emphasis> Fetches files from
a Subversion (<filename>svn</filename>) revision control repository.</para></listitem>
</itemizedlist>
</para>
<para>Standard and recipe-specific options for <filename>SRC_URI</filename> exist.
Here are standard options:
<itemizedlist>
<listitem><para><emphasis><filename>apply</filename> -</emphasis> Whether to apply
the patch or not.
The default action is to apply the patch.</para></listitem>
<listitem><para><emphasis><filename>striplevel</filename> -</emphasis> Which
striplevel to use when applying the patch.
The default level is 1.</para></listitem>
</itemizedlist>
</para>
<para>Here are options specific to recipes building code from a revision control system:
<itemizedlist>
<listitem><para><emphasis><filename>mindate</filename> -</emphasis> Only applies
the patch if <link linkend='var-SRCDATE'><filename>SRCDATE</filename></link>
is equal to or greater than <filename>mindate</filename>.</para></listitem>
<listitem><para><emphasis><filename>maxdate</filename> -</emphasis> Only applies
the patch if <link linkend='var-SRCDATE'><filename>SRCDATE</filename></link>
is not later than <filename>mindate</filename>.</para></listitem>
<listitem><para><emphasis><filename>minrev</filename> -</emphasis> Only applies
the patch if <link linkend='var-SRCREV'><filename>SRCREV</filename></link>
is equal to or greater than <filename>minrev</filename>.</para></listitem>
<listitem><para><emphasis><filename>maxrev</filename> -</emphasis> Only applies
the patch if <link linkend='var-SRCREV'><filename>SRCREV</filename></link>
is not later than <filename>maxrev</filename>.</para></listitem>
<listitem><para><emphasis><filename>rev</filename> -</emphasis> Only applies the
patch if <link linkend='var-SRCREV'><filename>SRCREV</filename></link>
is equal to <filename>rev</filename>.</para></listitem>
<listitem><para><emphasis><filename>notrev</filename> -</emphasis> Only applies
the patch if <link linkend='var-SRCREV'><filename>SRCREV</filename></link>
is not equal to <filename>rev</filename>.</para></listitem>
</itemizedlist>
</para>
<para>Here are some additional options worth mentioning:
<itemizedlist>
<listitem><para><emphasis><filename>unpack</filename> -</emphasis> Controls
whether or not to unpack the file if it is an archive.
The default action is to upack the file.</para></listitem>
<listitem><para><emphasis><filename>subdir</filename> -</emphasis> Places the file
(or extracts its contents) into the specified
subdirectory of <link linkend='var-WORKDIR'><filename>WORKDIR</filename></link>.
This option is useful for unusual tarballs or other archives that
don't have their files already in a subdirectory within the archive.
</para></listitem>
<listitem><para><emphasis><filename>name</filename> -</emphasis> Specifies a
name to be used for association with <filename>SRC_URI</filename> checksums
when you have more than one file specified in <filename>SRC_URI</filename>.
</para></listitem>
<listitem><para><emphasis><filename>downloadfilename</filename> -</emphasis> Specifies
the filename used when storing the downloaded file.</para></listitem>
</itemizedlist>
</para>
</glossdef>
</glossentry>
<glossentry id='var-SRC_URI_OVERRIDES_PACKAGE_ARCH'><glossterm>SRC_URI_OVERRIDES_PACKAGE_ARCH</glossterm>
<glossdef>
<para></para>
<para>
By default, the OpenEmbedded build system automatically detects whether
<filename><link linkend='var-SRC_URI'>SRC_URI</link></filename>
contains files that are machine-specific.
If so, the build system automatically changes
<filename><link linkend='var-PACKAGE_ARCH'>PACKAGE_ARCH</link></filename>.
Setting this variable to "0" disables this behavior.
</para>
</glossdef>
</glossentry>
<glossentry id='var-SRCDATE'><glossterm>SRCDATE</glossterm>
<glossdef>
<para>
The date of the source code used to build the package.
This variable applies only if the source was fetched from a Source Code Manager (SCM).
</para>
</glossdef>
</glossentry>
<glossentry id='var-SRCPV'><glossterm>SRCPV</glossterm>
<glossdef>
<para>
Returns the version string of the current package.
This string is used to help define the value of
<link linkend='var-PV'><filename>PV</filename></link>.
</para>
<para>
The <filename>SRCPV</filename> variable is defined in the
<filename>meta/conf/bitbake.conf</filename> configuration
file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>
as follows:
<literallayout class='monospaced'>
SRCPV = "${@bb.fetch2.get_srcrev(d)}"
</literallayout>
</para>
<para>
Recipes that need to define <filename>PV</filename> do so
with the help of the <filename>SRCPV</filename>.
For example, the <filename>ofono</filename> recipe
(<filename>ofono_git.bb</filename>) located in
<filename>meta/recipes-connectivity</filename> in the
Source Directory defines <filename>PV</filename> as
follows:
<literallayout class='monospaced'>
PV = "1.5.0+git${SRCPV}"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-SRCREV'><glossterm>SRCREV</glossterm>
<glossdef>
<para>
The revision of the source code used to build the package.
This variable applies to Subversion, Git, Mercurial and Bazaar
only.
Note that if you wish to build a fixed revision and you wish
to avoid performing a query on the remote repository every time
BitBake parses your recipe, you should specify a <filename>SRCREV</filename> that is a
full revision identifier and not just a tag.
</para>
</glossdef>
</glossentry>
<glossentry id='var-SSTATE_DIR'><glossterm>SSTATE_DIR</glossterm>
<glossdef>
<para>The directory for the shared state.</para>
</glossdef>
</glossentry>
<glossentry id='var-SSTATE_MIRRORS'><glossterm>SSTATE_MIRRORS</glossterm>
<glossdef>
<para>
Configures the OpenEmbedded build system to search other
mirror locations for prebuilt cache data objects before
building out the data.
This variable works like fetcher
<link linkend='var-MIRRORS'><filename>MIRRORS</filename></link>/<link linkend='var-PREMIRRORS'><filename>PREMIRRORS</filename></link>
and points to the cache locations to check for the shared
objects.
</para>
<para>
You can specify a filesystem directory or a remote URL such
as HTTP or FTP.
The locations you specify need to contain the shared state
cache (sstate-cache) results from previous builds.
The sstate-cache you point to can also be from builds on
other machines.
</para>
<para>
If a mirror uses the same structure as
<link linkend='var-SSTATE_DIR'><filename>SSTATE_DIR</filename></link>,
you need to add
"PATH" at the end as shown in the examples below.
The build system substitues the correct path within the
directory structure.
<literallayout class='monospaced'>
SSTATE_MIRRORS ?= "\
file://.* http://someserver.tld/share/sstate/PATH \n \
file://.* file:///some/local/dir/sstate/PATH"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-STAGING_KERNEL_DIR'><glossterm>STAGING_KERNEL_DIR</glossterm>
<glossdef>
<para>
The directory with kernel headers that are required to build out-of-tree
modules.
</para>
</glossdef>
</glossentry>
<glossentry id='var-STAMP'><glossterm>STAMP</glossterm>
<glossdef>
<para>
Specifies the base path used to create recipe stamp files.
The path to an actual stamp file is constructed by evaluating this
string and then appending additional information.
Currently, the default assignment for <filename>STAMP</filename>
as set in the <filename>meta/conf/bitbake.conf</filename> file
is:
<literallayout class='monospaced'>
STAMP = "${TMPDIR}/stamps/${MULTIMACH_TARGET_SYS}/${PN}/${EXTENDPE}${PV}-${PR}"
</literallayout>
See <link linkend='var-TMPDIR'><filename>TMPDIR</filename></link>,
<link linkend='var-MULTIMACH_TARGET_SYS'><filename>MULTIMACH_TARGET_SYS</filename></link>,
<link linkend='var-PN'><filename>PN</filename></link>,
<link linkend='var-EXTENDPE'><filename>EXTENDPE</filename></link>,
<link linkend='var-PV'><filename>PV</filename></link>, and
<link linkend='var-PR'><filename>PR</filename></link> for related variable
information.
</para>
</glossdef>
</glossentry>
<glossentry id='var-SUMMARY'><glossterm>SUMMARY</glossterm>
<glossdef>
<para>The short (72 characters or less) summary of the binary package for packaging
systems such as <filename>opkg</filename>, <filename>rpm</filename> or
<filename>dpkg</filename>.
By default, <filename>SUMMARY</filename> is used to define
the <link linkend='var-DESCRIPTION'><filename>DESCRIPTION</filename></link>
variable if <filename>DESCRIPTION</filename> is not set
in the recipe.
</para>
</glossdef>
</glossentry>
</glossdiv>
<glossdiv id='var-glossary-t'><title>T</title>
<glossentry id='var-T'><glossterm>T</glossterm>
<glossdef>
<para>This variable points to a directory were Bitbake places temporary
files when building a particular package.
It is typically set as follows:
<literallayout class='monospaced'>
T = ${WORKDIR}/temp
</literallayout>
The <link linkend='var-WORKDIR'><filename>WORKDIR</filename></link>
is the directory into which Bitbake unpacks and builds the package.
The default <filename>bitbake.conf</filename> file sets this variable.</para>
<para>The <filename>T</filename> variable is not to be confused with
the <link linkend='var-TMPDIR'><filename>TMPDIR</filename></link> variable,
which points to the root of the directory tree where Bitbake
places the output of an entire build.
</para>
</glossdef>
</glossentry>
<glossentry id='var-TARGET_ARCH'><glossterm>TARGET_ARCH</glossterm>
<glossdef>
<para>The architecture of the device being built.
While a number of values are possible, the OpenEmbedded build system primarily supports
<filename>arm</filename> and <filename>i586</filename>.</para>
</glossdef>
</glossentry>
<glossentry id='var-TARGET_CFLAGS'><glossterm>TARGET_CFLAGS</glossterm>
<glossdef>
<para>
Flags passed to the C compiler for the target system.
This variable evaluates to the same as
<filename><link linkend='var-CFLAGS'>CFLAGS</link></filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-TARGET_FPU'><glossterm>TARGET_FPU</glossterm>
<glossdef>
<para>Specifies the method for handling FPU code.
For FPU-less targets, which include most ARM CPUs, the variable must be
set to "soft".
If not, the kernel emulation gets used, which results in a performance penalty.</para>
</glossdef>
</glossentry>
<glossentry id='var-TARGET_OS'><glossterm>TARGET_OS</glossterm>
<glossdef>
<para>Specifies the target's operating system.
The variable can be set to "linux" for <filename>eglibc</filename>-based systems and
to "linux-uclibc" for <filename>uclibc</filename>.
For ARM/EABI targets, there are also "linux-gnueabi" and
"linux-uclibc-gnueabi" values possible.</para>
</glossdef>
</glossentry>
<glossentry id='var-TCLIBC'><glossterm>TCLIBC</glossterm>
<glossdef>
<para>
Specifies which variant of the GNU standard C library (<filename>libc</filename>)
to use during the build process.
This variable replaces <filename>POKYLIBC</filename>, which is no longer
supported.
</para>
<para>
You can select <filename>eglibc</filename> or <filename>uclibc</filename>.
<note>
This release of the Yocto Project does not support the
<filename>glibc</filename> implementation of <filename>libc</filename>.
</note>
</para>
</glossdef>
</glossentry>
<glossentry id='var-TCMODE'><glossterm>TCMODE</glossterm>
<glossdef>
<para>
The toolchain selector.
This variable replaces <filename>POKYMODE</filename>, which is no longer
supported.
</para>
<para>
The <filename>TCMODE</filename> variable selects the external toolchain
built using the OpenEmbedded build system or a few supported combinations of
the upstream GCC or CodeSourcery Labs toolchain.
The variable identifies the <filename>tcmode-*</filename> files used in
the <filename>meta/conf/distro/include</filename> directory, which is found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
</para>
<para>
By default, <filename>TCMODE</filename> is set to "default", which
chooses the <filename>tcmode-default.inc</filename> file.
The variable is similar to
<link linkend='var-TCLIBC'><filename>TCLIBC</filename></link>, which controls
the variant of the GNU standard C library (<filename>libc</filename>)
used during the build process: <filename>eglibc</filename> or <filename>uclibc</filename>.
</para>
</glossdef>
</glossentry>
<glossentry id='var-TMPDIR'><glossterm>TMPDIR</glossterm>
<glossdef>
<para>
This variable is the temporary directory the OpenEmbedded build system
uses when it does its work building images.
By default, the <filename>TMPDIR</filename> variable is named
<filename>tmp</filename> within the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
</para>
<para>
If you want to establish this directory in a location other than the
default, you can uncomment the following statement in the
<filename>conf/local.conf</filename> file in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>:
<literallayout class='monospaced'>
#TMPDIR = "${TOPDIR}/tmp"
</literallayout>
</para>
</glossdef>
</glossentry>
<glossentry id='var-TOPDIR'><glossterm>TOPDIR</glossterm>
<glossdef>
<para>
This variable is the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
BitBake automatically sets this variable.
The OpenEmbedded build system uses the Build Directory when building images.
</para>
</glossdef>
</glossentry>
</glossdiv>
<!-- <glossdiv id='var-glossary-u'><title>U</title>-->
<!-- </glossdiv>-->
<!-- <glossdiv id='var-glossary-v'><title>V</title>-->
<!-- </glossdiv>-->
<glossdiv id='var-glossary-w'><title>W</title>
<glossentry id='var-WORKDIR'><glossterm>WORKDIR</glossterm>
<glossdef>
<para>
The pathname of the working directory in which the OpenEmbedded build system
builds a recipe.
This directory is located within the
<link linkend='var-TMPDIR'><filename>TMPDIR</filename></link> directory structure and changes
as different packages are built.
</para>
<para>
The actual <filename>WORKDIR</filename> directory depends on several things:
<itemizedlist>
<listitem>The temporary directory - <link linkend='var-TMPDIR'><filename>TMPDIR</filename></link></listitem>
<listitem>The package architecture - <link linkend='var-PACKAGE_ARCH'><filename>PACKAGE_ARCH</filename></link></listitem>
<listitem>The target machine - <link linkend='var-MACHINE'><filename>MACHINE</filename></link></listitem>
<listitem>The target operating system - <link linkend='var-TARGET_OS'><filename>TARGET_OS</filename></link></listitem>
<listitem>The recipe name - <link linkend='var-PN'><filename>PN</filename></link></listitem>
<listitem>The recipe version - <link linkend='var-PV'><filename>PV</filename></link></listitem>
<listitem>The recipe revision - <link linkend='var-PR'><filename>PR</filename></link></listitem>
</itemizedlist>
</para>
<para>
For packages that are not dependent on a particular machine,
<filename>WORKDIR</filename> is defined as follows:
<literallayout class='monospaced'>
${TMPDIR}/work/${PACKAGE_ARCH}-poky-${TARGET_OS}/${PN}/${PV}-${PR}
</literallayout>
As an example, assume a
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink> top-level
folder name <filename>poky</filename> and a default
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>
at <filename>poky/build</filename>.
In this case, the working directory the build system uses to build
the <filename>v86d</filename> package is the following:
<literallayout class='monospaced'>
~/poky/build/tmp/work/qemux86-poky-linux/v86d/01.9-r0
</literallayout>
</para>
<para>
For packages that are dependent on a particular machine, <filename>WORKDIR</filename>
is defined slightly different:
<literallayout class='monospaced'>
${TMPDIR}/work/${MACHINE}-poky-${TARGET_OS}/${PN}/${PV}-${PR}
</literallayout>
As an example, again assume a Source Directory top-level folder
named <filename>poky</filename> and a default Build Directory
at <filename>poky/build</filename>.
In this case, the working directory the build system uses to build
the <filename>acl</filename> recipe, which is being built for a
MIPS-based device, is the following:
<literallayout class='monospaced'>
~/poky/build/tmp/work/mips-poky-linux/acl/2.2.51-r2
</literallayout>
</para>
</glossdef>
</glossentry>
</glossdiv>
<!-- <glossdiv id='var-glossary-x'><title>X</title>-->
<!-- </glossdiv>-->
<!-- <glossdiv id='var-glossary-y'><title>Y</title>-->
<!-- </glossdiv>-->
<!-- <glossdiv id='var-glossary-z'><title>Z</title>-->
<!-- </glossdiv>-->
</glossary>
</chapter>
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