build-appliance-image: Update to kirkstone head revision

(From OE-Core rev: d90e4d5e3cca9cffe8f60841afc63667a9ac39fa) Signed-off-by: Steve Sakoman <steve@sakoman.com>
Revert "oeqa/utils/gitarchive: fix tag computation when creating archive"
2026-02-20 08:29:42 +01:00 · 2023-09-24 10:54:48 -10:00 · 2023-09-24 10:53:11 -10:00 · 2023-09-23 05:32:58 -10:00 · 2023-09-23 05:26:16 -10:00 · 2023-09-23 05:26:16 -10:00
426 changed files with 41656 additions and 14992 deletions
--- a/bitbake/bin/bitbake-layers
+++ b/bitbake/bin/bitbake-layers
@@ -68,11 +68,11 @@ def main():

        registered = False
        for plugin in plugins:
+            if hasattr(plugin, 'tinfoil_init'):
+                plugin.tinfoil_init(tinfoil)
            if hasattr(plugin, 'register_commands'):
                registered = True
                plugin.register_commands(subparsers)
-            if hasattr(plugin, 'tinfoil_init'):
-                plugin.tinfoil_init(tinfoil)

        if not registered:
            logger.error("No commands registered - missing plugins?")
--- a/bitbake/lib/bb/runqueue.py
+++ b/bitbake/lib/bb/runqueue.py
@@ -1974,11 +1974,19 @@ class RunQueueExecute:
                self.setbuildable(revdep)
                logger.debug("Marking task %s as buildable", revdep)

-        for t in self.sq_deferred.copy():
+        found = None
+        for t in sorted(self.sq_deferred.copy()):
            if self.sq_deferred[t] == task:
-                logger.debug2("Deferred task %s now buildable" % t)
-                del self.sq_deferred[t]
-                update_scenequeue_data([t], self.sqdata, self.rqdata, self.rq, self.cooker, self.stampcache, self, summary=False)
+                # Allow the next deferred task to run. Any other deferred tasks should be deferred after that task.
+                # We shouldn't allow all to run at once as it is prone to races.
+                if not found:
+                    bb.note("Deferred task %s now buildable" % t)
+                    del self.sq_deferred[t]
+                    update_scenequeue_data([t], self.sqdata, self.rqdata, self.rq, self.cooker, self.stampcache, self, summary=False)
+                    found = t
+                else:
+                    bb.note("Deferring %s after %s" % (t, found))
+                    self.sq_deferred[t] = found

    def task_complete(self, task):
        self.stats.taskCompleted()
--- a/documentation/README
+++ b/documentation/README
@@ -34,16 +34,18 @@ Manual Organization

 Here the folders corresponding to individual manuals:

+* brief-yoctoprojectqs - Yocto Project Quick Start
 * overview-manual      - Yocto Project Overview and Concepts Manual
-* sdk-manual           - Yocto Project Software Development Kit (SDK) Developer's Guide.
+* contributor-guide    - Yocto Project and OpenEmbedded Contributor Guide
+* ref-manual           - Yocto Project Reference Manual
 * bsp-guide            - Yocto Project Board Support Package (BSP) Developer's Guide
 * dev-manual           - Yocto Project Development Tasks Manual
 * kernel-dev           - Yocto Project Linux Kernel Development Manual
-* ref-manual           - Yocto Project Reference Manual
-* brief-yoctoprojectqs - Yocto Project Quick Start
 * profile-manual       - Yocto Project Profiling and Tracing Manual
+* sdk-manual           - Yocto Project Software Development Kit (SDK) Developer's Guide.
 * toaster-manual       - Toaster User Manual
 * test-manual          - Yocto Project Test Environment Manual
+* migration-guides     - Yocto Project Release and Migration Notes

 Each folder is self-contained regarding content and figures.

@@ -129,6 +131,10 @@ Also install the "inkscape" package from your distribution.
 Inkscape is need to convert SVG graphics to PNG (for EPUB
 export) and to PDF (for PDF export).

+Additionally install "fncychap.sty" TeX font if you want to build PDFs. Debian
+and Ubuntu have it in "texlive-latex-extra" package while RedHat distributions
+and OpenSUSE have it in "texlive-fncychap" package for example.
+
 To build the documentation locally, run:

 $ cd documentation
@@ -271,6 +277,19 @@ websites.
 More information can be found here:
 https://sublime-and-sphinx-guide.readthedocs.io/en/latest/references.html.

+For external links, we use this syntax:
+`link text <link URL>`__
+
+instead of:
+`link text <link URL>`_
+
+Both syntaxes work, but the latter also creates a "link text" reference
+target which could conflict with other references with the same name.
+So, only use this variant when you wish to make multiple references
+to this link, reusing only the target name.
+
+See https://stackoverflow.com/questions/27420317/restructured-text-rst-http-links-underscore-vs-use
+
 Anchor (<#link>) links are forbidden as they are not checked by Sphinx during
 the build and may be broken without knowing about it.

@@ -340,13 +359,16 @@ The sphinx.ext.intersphinx extension is enabled by default
 so that we can cross reference content from other Sphinx based
 documentation projects, such as the BitBake manual.

-References to the BitBake manual can be done:
+References to the BitBake manual can directly be done:
 - With a specific description instead of the section name:
-  :ref:`Azure Storage fetcher (az://) <bitbake:bitbake-user-manual/bitbake-user-manual-fetching:fetchers>`
+  :ref:`Azure Storage fetcher (az://) <bitbake-user-manual/bitbake-user-manual-fetching:fetchers>`
 - With the section name:
-  :ref:`bitbake:bitbake-user-manual/bitbake-user-manual-intro:usage and syntax` option
- - Linking to the entire BitBake manual:
-  :doc:`BitBake User Manual <bitbake:index>`
+  :ref:`bitbake-user-manual/bitbake-user-manual-intro:usage and syntax` option
+
+If you want to refer to an entire document (or chapter) in the BitBake manual,
+you have to use the ":doc:" macro with the "bitbake:" prefix:
+ - :doc:`BitBake User Manual <bitbake:index>`
+ - :doc:`bitbake:bitbake-user-manual/bitbake-user-manual-metadata`" chapter

 Note that a reference to a variable (:term:`VARIABLE`) automatically points to
 the BitBake manual if the variable is not described in the Reference Manual's Variable Glossary.
@@ -355,6 +377,11 @@ BitBake manual as follows:

  :term:`bitbake:BB_NUMBER_PARSE_THREADS`

+This would be the same if we had identical document filenames in
+both the Yocto Project and BitBake manuals:
+
+  :ref:`bitbake:directory/file:section title`
+
 Submitting documentation changes
 ================================

--- a/documentation/brief-yoctoprojectqs/index.rst
+++ b/documentation/brief-yoctoprojectqs/index.rst
@@ -370,7 +370,7 @@ Follow these steps to add a hardware layer:

   You can find
   more information on adding layers in the
-   :ref:`dev-manual/common-tasks:adding a layer using the \`\`bitbake-layers\`\` script`
+   :ref:`dev-manual/layers:adding a layer using the \`\`bitbake-layers\`\` script`
   section.

 Completing these steps has added the ``meta-altera`` layer to your Yocto
@@ -405,7 +405,7 @@ The following commands run the tool to create a layer named

 For more information
 on layers and how to create them, see the
-:ref:`dev-manual/common-tasks:creating a general layer using the \`\`bitbake-layers\`\` script`
+:ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`
 section in the Yocto Project Development Tasks Manual.

 Where To Go Next
--- a/documentation/bsp-guide/bsp.rst
+++ b/documentation/bsp-guide/bsp.rst
@@ -128,7 +128,7 @@ you want to work with, such as::
 and so on.

 For more information on layers, see the
-":ref:`dev-manual/common-tasks:understanding and creating layers`"
+":ref:`dev-manual/layers:understanding and creating layers`"
 section of the Yocto Project Development Tasks Manual.

 Preparing Your Build Host to Work With BSP Layers
@@ -464,7 +464,7 @@ requirements are handled with the ``COPYING.MIT`` file.
 Licensing files can be MIT, BSD, GPLv*, and so forth. These files are
 recommended for the BSP but are optional and totally up to the BSP
 developer. For information on how to maintain license compliance, see
-the ":ref:`dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle`"
+the ":ref:`dev-manual/licenses:maintaining open source license compliance during your product's lifecycle`"
 section in the Yocto Project Development Tasks Manual.

 README File
@@ -590,7 +590,7 @@ filenames correspond to the values to which users have set the

 These files define things such as the kernel package to use
 (:term:`PREFERRED_PROVIDER` of
-:ref:`virtual/kernel <dev-manual/common-tasks:using virtual providers>`),
+:ref:`virtual/kernel <dev-manual/new-recipe:using virtual providers>`),
 the hardware drivers to include in different types of images, any
 special software components that are needed, any bootloader information,
 and also any special image format requirements.
@@ -757,7 +757,7 @@ workflow.
   OpenEmbedded build system knows about. For more information on
   layers, see the ":ref:`overview-manual/yp-intro:the yocto project layer model`"
   section in the Yocto Project Overview and Concepts Manual. You can also
-   reference the ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+   reference the ":ref:`dev-manual/layers:understanding and creating layers`"
   section in the Yocto Project Development Tasks Manual. For more
   information on BSP layers, see the ":ref:`bsp-guide/bsp:bsp layers`"
   section.
@@ -816,7 +816,7 @@ workflow.
   key configuration files are configured appropriately: the
   ``conf/local.conf`` and the ``conf/bblayers.conf`` file. You must
   make the OpenEmbedded build system aware of your new layer. See the
-   ":ref:`dev-manual/common-tasks:enabling your layer`"
+   ":ref:`dev-manual/layers:enabling your layer`"
   section in the Yocto Project Development Tasks Manual for information
   on how to let the build system know about your new layer.

@@ -845,7 +845,7 @@ Before looking at BSP requirements, you should consider the following:
   layer that can be added to the Yocto Project. For guidelines on
   creating a layer that meets these base requirements, see the
   ":ref:`bsp-guide/bsp:bsp layers`" section in this manual and the
-   ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+   ":ref:`dev-manual/layers:understanding and creating layers`"
   section in the Yocto Project Development Tasks Manual.

 -  The requirements in this section apply regardless of how you package
@@ -927,8 +927,8 @@ Yocto Project:
   -  The name and contact information for the BSP layer maintainer.
      This is the person to whom patches and questions should be sent.
      For information on how to find the right person, see the
-      ":ref:`dev-manual/common-tasks:submitting a change to the yocto project`"
-      section in the Yocto Project Development Tasks Manual.
+      :doc:`../contributor-guide/submit-changes` section in the Yocto Project and
+      OpenEmbedded Contributor Guide.

   -  Instructions on how to build the BSP using the BSP layer.

@@ -1013,7 +1013,7 @@ the following:

 -  Create a ``*.bbappend`` file for the modified recipe. For information on using
   append files, see the
-   ":ref:`dev-manual/common-tasks:appending other layers metadata with your layer`"
+   ":ref:`dev-manual/layers:appending other layers metadata with your layer`"
   section in the Yocto Project Development Tasks Manual.

 -  Ensure your directory structure in the BSP layer that supports your
@@ -1117,7 +1117,7 @@ list describes them in order of preference:
   Specifying the matching license string signifies that you agree to
   the license. Thus, the build system can build the corresponding
   recipe and include the component in the image. See the
-   ":ref:`dev-manual/common-tasks:enabling commercially licensed recipes`"
+   ":ref:`dev-manual/licenses:enabling commercially licensed recipes`"
   section in the Yocto Project Development Tasks Manual for details on
   how to use these variables.

@@ -1169,7 +1169,7 @@ Use these steps to create a BSP layer:
   ``create-layer`` subcommand to create a new general layer. For
   instructions on how to create a general layer using the
   ``bitbake-layers`` script, see the
-   ":ref:`dev-manual/common-tasks:creating a general layer using the \`\`bitbake-layers\`\` script`"
+   ":ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`"
   section in the Yocto Project Development Tasks Manual.

 -  *Create a Layer Configuration File:* Every layer needs a layer
@@ -1229,7 +1229,7 @@ configuration files is to examine various files for BSP from the
 :yocto_git:`Source Repositories <>`.

 For a detailed description of this particular layer configuration file,
-see ":ref:`step 3 <dev-manual/common-tasks:creating your own layer>`"
+see ":ref:`step 3 <dev-manual/layers:creating your own layer>`"
 in the discussion that describes how to create layers in the Yocto
 Project Development Tasks Manual.

--- a/documentation/contributor-guide/identify-component.rst
+++ b/documentation/contributor-guide/identify-component.rst
@@ -0,0 +1,31 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Identify the component
+**********************
+
+The Yocto Project and OpenEmbedded ecosystem is built of :term:`layers <Layer>`
+so the first step is to identify the component where the issue likely lies.
+For example, if you have a hardware issue, it is likely related to the BSP
+you are using and the best place to seek advice would be from the BSP provider
+or :term:`layer`. If the issue is a build/configuration one and a distro is in
+use, they would likely be the first place to ask questions. If the issue is a
+generic one and/or in the core classes or metadata, the core layer or BitBake
+might be the appropriate component.
+
+Each metadata layer being used should contain a ``README`` file and that should
+explain where to report issues, where to send changes and how to contact the
+maintainers.
+
+If the issue is in the core metadata layer (OpenEmbedded-Core) or in BitBake,
+issues can be reported in the :yocto_bugs:`Yocto Project Bugzilla <>`. The
+:yocto_lists:`yocto </g/yocto>` mailing list is a general “catch-all” location
+where questions can be sent if you can’t work out where something should go.
+
+:term:`Poky` is a commonly used “combination” repository where multiple
+components have been combined (:oe_git:`bitbake </bitbake>`,
+:oe_git:`openembedded-core </openembedded-core>`,
+:yocto_git:`meta-yocto </meta-yocto>` and
+:yocto_git:`yocto-docs </yocto-docs>`). Patches should be submitted against the
+appropriate individual component rather than :term:`Poky` itself as detailed in
+the appropriate ``README`` file.
+
--- a/documentation/contributor-guide/index.rst
+++ b/documentation/contributor-guide/index.rst
@@ -0,0 +1,26 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+================================================
+Yocto Project and OpenEmbedded Contributor Guide
+================================================
+
+The Yocto Project and OpenEmbedded are open-source, community-based projects so
+contributions are very welcome, it is how the code evolves and everyone can
+effect change. Contributions take different forms, if you have a fix for an
+issue you’ve run into, a patch is the most appropriate way to contribute it.
+If you run into an issue but don’t have a solution, opening a defect in
+:yocto_bugs:`Bugzilla <>` or asking questions on the mailing lists might be
+more appropriate. This guide intends to point you in the right direction to
+this.
+
+
+.. toctree::
+   :caption: Table of Contents
+   :numbered:
+
+   identify-component
+   report-defect
+   recipe-style-guide
+   submit-changes
+
+.. include:: /boilerplate.rst
--- a/documentation/contributor-guide/recipe-style-guide.rst
+++ b/documentation/contributor-guide/recipe-style-guide.rst
@@ -0,0 +1,338 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Recipe Style Guide
+******************
+
+Recipe Naming Conventions
+=========================
+
+In general, most recipes should follow the naming convention
+``recipes-category/package/packagename_version.bb``. Recipes for related
+projects may share the same package directory. ``packagename``, ``category``,
+and ``package`` may contain hyphens, but hyphens are not allowed in ``version``.
+
+If the recipe is tracking a Git revision that does not correspond to a released
+version of the software, ``version`` may be ``git`` (e.g. ``packagename_git.bb``)
+
+Version Policy
+==============
+
+Our versions follow the form ``<package epoch>:<package version>-<package revision>``
+or in BitBake variable terms ${:term:`PE`}:${:term:`PV`}-${:term:`PR`}. We
+generally follow the `Debian <https://www.debian.org/doc/debian-policy/ch-controlfields.html#version>`__
+version policy which defines these terms.
+
+In most cases the version :term:`PV` will be set automatically from the recipe
+file name. It is recommended to use released versions of software as these are
+revisions that upstream are expecting people to use.
+
+Package versions should always compare and sort correctly so that upgrades work
+as expected. With conventional versions such as ``1.4`` upgrading ``to 1.5``
+this happens naturally, but some versions don't sort. For example,
+``1.5 Release Candidate 2`` could be written as ``1.5rc2`` but this sorts after
+``1.5``, so upgrades from feeds won't happen correctly.
+
+Instead the tilde (``~``) operator can be used, which sorts before the empty
+string so ``1.5~rc2`` comes before ``1.5``. There is a historical syntax which
+may be found where :term:`PV` is set as a combination of the prior version
+``+`` the pre-release version, for example ``PV=1.4+1.5rc2``. This is a valid
+syntax but the tilde form is preferred.
+
+For version comparisons, the ``opkg-compare-versions`` program from
+``opkg-utils`` can be useful when attempting to determine how two version
+numbers compare to each other. Our definitive version comparison algorithm is
+the one within bitbake which aims to match those of the package managers and
+Debian policy closely.
+
+When a recipe references a git revision that does not correspond to a released
+version of software (e.g. is not a tagged version), the :term:`PV` variable
+should include the Git revision using the following to make the
+version clear::
+
+    PV = "<version>+git${SRCPV}"
+
+In this case, ``<version>`` should be the most recently released version of the
+software from the current source revision (``git describe`` can be useful for
+determining this). Whilst not recommended for published layers, this format is
+also useful when using :term:`AUTOREV` to set the recipe to increment source
+control revisions automatically, which can be useful during local development.
+
+Version Number Changes
+======================
+
+The :term:`PR` variable is used to indicate different revisions of a recipe
+that reference the same upstream source version. It can be used to force a
+new version of a package to be installed onto a device from a package feed.
+These once had to be set manually but in most cases these can now be set and
+incremented automatically by a PR Server connected with a package feed.
+
+When :term:`PV` increases, any existing :term:`PR` value can and should be
+removed.
+
+If :term:`PV` changes in such a way that it does not increase with respect to
+the previous value, you need to increase :term:`PE` to ensure package managers
+will upgrade it correctly. If unset you should set :term:`PE` to "1" since
+the default of empty is easily confused with "0" depending on the package
+manager. :term:`PE` can only have an integer value.
+
+Recipe formatting
+=================
+
+Variable Formatting
+-------------------
+
+-  Variable assignment should a space around each side of the operator, e.g.
+   ``FOO = "bar"``, not ``FOO="bar"``.
+
+-  Double quotes should be used on the right-hand side of the assignment,
+   e.g. ``FOO = "bar"`` not ``FOO = 'bar'``
+
+-  Spaces should be used for indenting variables, with 4 spaces per tab
+
+-  Long variables should be split over multiple lines when possible by using
+   the continuation character (``\``)
+
+-  When splitting a long variable over multiple lines, all continuation lines
+   should be indented (with spaces) to align with the start of the quote on the
+   first line::
+
+       FOO = "this line is \
+              long \
+              "
+
+   Instead of::
+
+       FOO = "this line is \
+       long \
+       "
+
+Python Function formatting
+--------------------------
+
+-  Spaces must be used for indenting Python code, with 4 spaces per tab
+
+Shell Function formatting
+-------------------------
+
+-  The formatting of shell functions should be consistent within layers.
+   Some use tabs, some use spaces.
+
+Recipe metadata
+===============
+
+Required Variables
+------------------
+
+The following variables should be included in all recipes:
+
+-  :term:`SUMMARY`: a one line description of the upstream project
+
+-  :term:`DESCRIPTION`: an extended description of the upstream project,
+   possibly with multiple lines. If no reasonable description can be written,
+   this may be omitted as it defaults to :term:`SUMMARY`.
+
+-  :term:`HOMEPAGE`: the URL to the upstream projects homepage.
+
+-  :term:`BUGTRACKER`: the URL upstream projects bug tracking website,
+   if applicable.
+
+Recipe Ordering
+---------------
+
+When a variable is defined in recipes and classes, variables should follow the
+general order when possible:
+
+-  :term:`SUMMARY`
+-  :term:`DESCRIPTION`
+-  :term:`HOMEPAGE`
+-  :term:`BUGTRACKER`
+-  :term:`SECTION`
+-  :term:`LICENSE`
+-  :term:`LIC_FILES_CHKSUM`
+-  :term:`DEPENDS`
+-  :term:`PROVIDES`
+-  :term:`PV`
+-  :term:`SRC_URI`
+-  :term:`SRCREV`
+-  :term:`S`
+-  ``inherit ...``
+-  :term:`PACKAGECONFIG`
+-  Build class specific variables such as ``EXTRA_QMAKEVARS_POST`` and :term:`EXTRA_OECONF`
+-  Tasks such as :ref:`ref-tasks-configure`
+-  :term:`PACKAGE_ARCH`
+-  :term:`PACKAGES`
+-  :term:`FILES`
+-  :term:`RDEPENDS`
+-  :term:`RRECOMMENDS`
+-  :term:`RSUGGESTS`
+-  :term:`RPROVIDES`
+-  :term:`RCONFLICTS`
+-  :term:`BBCLASSEXTEND`
+
+There are some cases where ordering is important and these cases would override
+this default order. Examples include:
+
+-  :term:`PACKAGE_ARCH` needing to be set before ``inherit packagegroup``
+
+Tasks should be ordered based on the order they generally execute. For commonly
+used tasks this would be:
+
+-  :ref:`ref-tasks-fetch`
+-  :ref:`ref-tasks-unpack`
+-  :ref:`ref-tasks-patch`
+-  :ref:`ref-tasks-prepare_recipe_sysroot`
+-  :ref:`ref-tasks-configure`
+-  :ref:`ref-tasks-compile`
+-  :ref:`ref-tasks-install`
+-  :ref:`ref-tasks-populate_sysroot`
+-  :ref:`ref-tasks-package`
+
+Custom tasks should be sorted similarly.
+
+Package specific variables are typically grouped together, e.g.::
+
+    RDEPENDS:${PN} = “foo”
+    RDEPENDS:${PN}-libs = “bar”
+
+    RRECOMMENDS:${PN} = “one”
+    RRECOMMENDS:${PN}-libs = “two”
+
+Recipe License Fields
+---------------------
+
+Recipes need to define both the :term:`LICENSE` and
+:term:`LIC_FILES_CHKSUM` variables:
+
+-  :term:`LICENSE`: This variable specifies the license for the software.
+   If you do not know the license under which the software you are
+   building is distributed, you should go to the source code and look
+   for that information. Typical files containing this information
+   include ``COPYING``, :term:`LICENSE`, and ``README`` files. You could
+   also find the information near the top of a source file. For example,
+   given a piece of software licensed under the GNU General Public
+   License version 2, you would set :term:`LICENSE` as follows::
+
+      LICENSE = "GPL-2.0-only"
+
+   The licenses you specify within :term:`LICENSE` can have any name as long
+   as you do not use spaces, since spaces are used as separators between
+   license names. For standard licenses, use the names of the files in
+   ``meta/files/common-licenses/`` or the :term:`SPDXLICENSEMAP` flag names
+   defined in ``meta/conf/licenses.conf``.
+
+-  :term:`LIC_FILES_CHKSUM`: The OpenEmbedded build system uses this
+   variable to make sure the license text has not changed. If it has,
+   the build produces an error and it affords you the chance to figure
+   it out and correct the problem.
+
+   You need to specify all applicable licensing files for the software.
+   At the end of the configuration step, the build process will compare
+   the checksums of the files to be sure the text has not changed. Any
+   differences result in an error with the message containing the
+   current checksum. For more explanation and examples of how to set the
+   :term:`LIC_FILES_CHKSUM` variable, see the
+   ":ref:`dev-manual/licenses:tracking license changes`" section.
+
+   To determine the correct checksum string, you can list the
+   appropriate files in the :term:`LIC_FILES_CHKSUM` variable with incorrect
+   md5 strings, attempt to build the software, and then note the
+   resulting error messages that will report the correct md5 strings.
+   See the ":ref:`dev-manual/new-recipe:fetching code`" section for
+   additional information.
+
+   Here is an example that assumes the software has a ``COPYING`` file::
+
+      LIC_FILES_CHKSUM = "file://COPYING;md5=xxx"
+
+   When you try to build the
+   software, the build system will produce an error and give you the
+   correct string that you can substitute into the recipe file for a
+   subsequent build.
+
+Tips and Guidelines for Writing Recipes
+---------------------------------------
+
+-  Use :term:`BBCLASSEXTEND` instead of creating separate recipes such as ``-native``
+   and ``-nativesdk`` ones, whenever possible. This avoids having to maintain multiple
+   recipe files at the same time.
+
+Patch Upstream Status
+=====================
+
+In order to keep track of patches applied by recipes and ultimately reduce the
+number of patches that need maintaining, the OpenEmbedded build system
+requires information about the upstream status of each patch.
+
+In its description, each patch should provide detailed information about the
+bug that it addresses, such as the URL in a bug tracking system and links
+to relevant mailing list archives.
+
+Then, you should also add an ``Upstream-Status:`` tag containing one of the
+following status strings:
+
+``Pending``
+   No determination has been made yet or not yet submitted to upstream.
+
+``Submitted [where]``
+   Submitted to upstream, waiting for approval. Optionally include where
+   it was submitted, such as the author, mailing list, etc.
+
+``Accepted``
+   Accepted in upstream, expect it to be removed at next update, include
+   expected version info.
+
+``Backport``
+   Backported from new upstream version, because we are at a fixed version,
+   include upstream version info.
+
+``Denied``
+   Not accepted by upstream, include reason in patch.
+
+``Inactive-Upstream [lastcommit: when (and/or) lastrelease: when]``
+   The upstream is no longer available. This typically means a defunct project
+   where no activity has happened for a long time --- measured in years. To make
+   that judgement, it is recommended to look at not only when the last release
+   happened, but also when the last commit happened, and whether newly made bug
+   reports and merge requests since that time receive no reaction. It is also
+   recommended to add to the patch description any relevant links where the
+   inactivity can be clearly seen.
+
+``Inappropriate [reason]``
+   The patch is not appropriate for upstream, include a brief reason on the
+   same line enclosed with ``[]``. The reason can be:
+
+   -  ``not author`` (you are not the author and do not intend to upstream this,
+      the source must be listed in the comments)
+   -  ``native``
+   -  ``licensing``
+   -  ``configuration``
+   -  ``enable feature``
+   -  ``disable feature``
+   -  ``bugfix`` (add bug URL here)
+   -  ``embedded specific``
+   -  ``other`` (give details in comments)
+
+The various ``Inappropriate [reason]`` status items are meant to indicate that
+the person responsible for adding this patch to the system does not intend to
+upstream the patch for a specific reason.
+
+Of course, if another person later takes care of submitting this patch upstream,
+the status should be changed to ``Submitted [where]``, and an additional
+``Signed-off-by:`` line should be added to the patch by the person claiming
+responsibility for upstreaming.
+
+For example, if the patch has been submitted upstream::
+
+   rpm: Adjusted the foo setting in bar
+
+   [RPM Ticket #65] -- http://rpm5.org/cvs/tktview?tn=65,5
+
+   The foo setting in bar was decreased from X to X-50% in order to
+   ensure we don't exhaust all system memory with foobar threads.
+
+   Upstream-Status: Submitted [rpm5-devel@rpm5.org]
+
+   Signed-off-by: Joe Developer <joe.developer@example.com>
+
+A future update can change the value to ``Accepted`` or ``Denied`` as
+appropriate.
--- a/documentation/contributor-guide/report-defect.rst
+++ b/documentation/contributor-guide/report-defect.rst
@@ -0,0 +1,67 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Reporting a Defect Against the Yocto Project and OpenEmbedded
+**************************************************************
+
+You can use the Yocto Project instance of
+`Bugzilla <https://www.bugzilla.org/about/>`__ to submit a defect (bug)
+against BitBake, OpenEmbedded-Core, against any other Yocto Project component
+or for tool issues. For additional information on this implementation of
+Bugzilla see the ":ref:`Yocto Project Bugzilla <resources-bugtracker>`" section
+in the Yocto Project Reference Manual. For more detail on any of the following
+steps, see the Yocto Project
+:yocto_wiki:`Bugzilla wiki page </Bugzilla_Configuration_and_Bug_Tracking>`.
+
+Use the following general steps to submit a bug:
+
+#.  Open the Yocto Project implementation of :yocto_bugs:`Bugzilla <>`.
+
+#.  Click "File a Bug" to enter a new bug.
+
+#.  Choose the appropriate "Classification", "Product", and "Component"
+    for which the bug was found. Bugs for the Yocto Project fall into
+    one of several classifications, which in turn break down into
+    several products and components. For example, for a bug against the
+    ``meta-intel`` layer, you would choose "Build System, Metadata &
+    Runtime", "BSPs", and "bsps-meta-intel", respectively.
+
+#.  Choose the "Version" of the Yocto Project for which you found the
+    bug (e.g. &DISTRO;).
+
+#.  Determine and select the "Severity" of the bug. The severity
+    indicates how the bug impacted your work.
+
+#.  Choose the "Hardware" that the bug impacts.
+
+#.  Choose the "Architecture" that the bug impacts.
+
+#.  Choose a "Documentation change" item for the bug. Fixing a bug might
+    or might not affect the Yocto Project documentation. If you are
+    unsure of the impact to the documentation, select "Don't Know".
+
+#.  Provide a brief "Summary" of the bug. Try to limit your summary to
+    just a line or two and be sure to capture the essence of the bug.
+
+#.  Provide a detailed "Description" of the bug. You should provide as
+    much detail as you can about the context, behavior, output, and so
+    forth that surrounds the bug. You can even attach supporting files
+    for output from logs by using the "Add an attachment" button.
+
+#.  Click the "Submit Bug" button submit the bug. A new Bugzilla number
+    is assigned to the bug and the defect is logged in the bug tracking
+    system.
+
+Once you file a bug, the bug is processed by the Yocto Project Bug
+Triage Team and further details concerning the bug are assigned (e.g.
+priority and owner). You are the "Submitter" of the bug and any further
+categorization, progress, or comments on the bug result in Bugzilla
+sending you an automated email concerning the particular change or
+progress to the bug.
+
+There are no guarantees about if or when a bug might be worked on since an
+open-source project has no dedicated engineering resources. However, the
+project does have a good track record of resolving common issues over the
+medium and long term. We do encourage people to file bugs so issues are
+at least known about. It helps other users when they find somebody having
+the same issue as they do, and an issue that is unknown is much less likely
+to ever be fixed!
--- a/documentation/contributor-guide/submit-changes.rst
+++ b/documentation/contributor-guide/submit-changes.rst
@@ -0,0 +1,754 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Contributing Changes to a Component
+************************************
+
+Contributions to the Yocto Project and OpenEmbedded are very welcome.
+Because the system is extremely configurable and flexible, we recognize
+that developers will want to extend, configure or optimize it for their
+specific uses.
+
+.. _ref-why-mailing-lists:
+
+Contributing through mailing lists --- Why not using web-based workflows?
+=========================================================================
+
+Both Yocto Project and OpenEmbedded have many key components that are
+maintained by patches being submitted on mailing lists. We appreciate this
+approach does look a little old fashioned when other workflows are available
+through web technology such as GitHub, GitLab and others. Since we are often
+asked this question, we’ve decided to document the reasons for using mailing
+lists.
+
+One significant factor is that we value peer review. When a change is proposed
+to many of the core pieces of the project, it helps to have many eyes of review
+go over them. Whilst there is ultimately one maintainer who needs to make the
+final call on accepting or rejecting a patch, the review is made by many eyes
+and the exact people reviewing it are likely unknown to the maintainer. It is
+often the surprise reviewer that catches the most interesting issues!
+
+This is in contrast to the "GitHub" style workflow where either just a
+maintainer makes that review, or review is specifically requested from
+nominated people. We believe there is significant value added to the codebase
+by this peer review and that moving away from mailing lists would be to the
+detriment of our code.
+
+We also need to acknowledge that many of our developers are used to this
+mailing list workflow and have worked with it for years, with tools and
+processes built around it. Changing away from this would result in a loss
+of key people from the project, which would again be to its detriment.
+
+The projects are acutely aware that potential new contributors find the
+mailing list approach off-putting and would prefer a web-based GUI.
+Since we don’t believe that can work for us, the project is aiming to ensure
+`patchwork <https://patchwork.yoctoproject.org/>`__ is available to help track
+patch status and also looking at how tooling can provide more feedback to users
+about patch status. We are looking at improving tools such as ``patchtest`` to
+test user contributions before they hit the mailing lists and also at better
+documenting how to use such workflows since we recognise that whilst this was
+common knowledge a decade ago, it might not be as familiar now.
+
+Preparing Changes for Submission
+================================
+
+Set up Git
+----------
+
+The first thing to do is to install Git packages. Here is an example
+on Debian and Ubuntu::
+
+   sudo aptitude install git-core git-email
+
+Then, you need to set a name and e-mail address that Git will
+use to identify your commits::
+
+   git config --global user.name "Ada Lovelace"
+   git config --global user.email "ada.lovelace@gmail.com"
+
+Clone the Git repository for the component to modify
+----------------------------------------------------
+
+After identifying the component to modify as described in the
+":doc:`../contributor-guide/identify-component`" section, clone the
+corresponding Git repository. Here is an example for OpenEmbedded-Core::
+
+  git clone https://git.openembedded.org/openembedded-core
+  cd openembedded-core
+
+Create a new branch
+-------------------
+
+Then, create a new branch in your local Git repository
+for your changes, starting from the reference branch in the upstream
+repository (often called ``master``)::
+
+   $ git checkout <ref-branch>
+   $ git checkout -b my-changes
+
+If you have completely unrelated sets of changes to submit, you should even
+create one branch for each set.
+
+Implement and commit changes
+----------------------------
+
+In each branch, you should group your changes into small, controlled and
+isolated ones. Keeping changes small and isolated aids review, makes
+merging/rebasing easier and keeps the change history clean should anyone need
+to refer to it in future.
+
+To this purpose, you should create *one Git commit per change*,
+corresponding to each of the patches you will eventually submit.
+See `further guidance <https://www.kernel.org/doc/html/latest/process/submitting-patches.html#separate-your-changes>`__
+in the Linux kernel documentation if needed.
+
+For example, when you intend to add multiple new recipes, each recipe
+should be added in a separate commit. For upgrades to existing recipes,
+the previous version should usually be deleted as part of the same commit
+to add the upgraded version.
+
+#. *Stage Your Changes:* Stage your changes by using the ``git add``
+   command on each file you modified. If you want to stage all the
+   files you modified, you can even use the ``git add -A`` command.
+
+#. *Commit Your Changes:* This is when you can create separate commits. For
+   each commit to create, use the ``git commit -s`` command with the files
+   or directories you want to include in the commit::
+
+      $ git commit -s file1 file2 dir1 dir2 ...
+
+   To include **a**\ ll staged files::
+
+      $ git commit -sa
+
+   -  The ``-s`` option of ``git commit`` adds a "Signed-off-by:" line
+      to your commit message. There is the same requirement for contributing
+      to the Linux kernel. Adding such a line signifies that you, the
+      submitter, have agreed to the `Developer's Certificate of Origin 1.1
+      <https://www.kernel.org/doc/html/latest/process/submitting-patches.html#sign-your-work-the-developer-s-certificate-of-origin>`__
+      as follows:
+
+      .. code-block:: none
+
+         Developer's Certificate of Origin 1.1
+
+         By making a contribution to this project, I certify that:
+
+         (a) The contribution was created in whole or in part by me and I
+             have the right to submit it under the open source license
+             indicated in the file; or
+
+         (b) The contribution is based upon previous work that, to the best
+             of my knowledge, is covered under an appropriate open source
+             license and I have the right under that license to submit that
+             work with modifications, whether created in whole or in part
+             by me, under the same open source license (unless I am
+             permitted to submit under a different license), as indicated
+             in the file; or
+
+         (c) The contribution was provided directly to me by some other
+             person who certified (a), (b) or (c) and I have not modified
+             it.
+
+         (d) I understand and agree that this project and the contribution
+             are public and that a record of the contribution (including all
+             personal information I submit with it, including my sign-off) is
+             maintained indefinitely and may be redistributed consistent with
+             this project or the open source license(s) involved.
+
+   -  Provide a single-line summary of the change and, if more
+      explanation is needed, provide more detail in the body of the
+      commit. This summary is typically viewable in the "shortlist" of
+      changes. Thus, providing something short and descriptive that
+      gives the reader a summary of the change is useful when viewing a
+      list of many commits. You should prefix this short description
+      with the recipe name (if changing a recipe), or else with the
+      short form path to the file being changed.
+
+      .. note::
+
+         To find a suitable prefix for the commit summary, a good idea
+         is to look for prefixes used in previous commits touching the
+         same files or directories::
+
+            git log --oneline <paths>
+
+   -  For the body of the commit message, provide detailed information
+      that describes what you changed, why you made the change, and the
+      approach you used. It might also be helpful if you mention how you
+      tested the change. Provide as much detail as you can in the body
+      of the commit message.
+
+      .. note::
+
+         If the single line summary is enough to describe a simple
+         change, the body of the commit message can be left empty.
+
+   -  If the change addresses a specific bug or issue that is associated
+      with a bug-tracking ID, include a reference to that ID in your
+      detailed description. For example, the Yocto Project uses a
+      specific convention for bug references --- any commit that addresses
+      a specific bug should use the following form for the detailed
+      description. Be sure to use the actual bug-tracking ID from
+      Bugzilla for bug-id::
+
+         Fixes [YOCTO #bug-id]
+
+         detailed description of change
+
+#. *Crediting contributors:* By using the ``git commit --amend`` command,
+   you can add some tags to the commit description to credit other contributors
+   to the change:
+
+   -  ``Reported-by``: name and email of a person reporting a bug
+      that your commit is trying to fix. This is a good practice
+      to encourage people to go on reporting bugs and let them
+      know that their reports are taken into account.
+
+   -  ``Suggested-by``: name and email of a person to credit for the
+      idea of making the change.
+
+   -  ``Tested-by``, ``Reviewed-by``: name and email for people having
+      tested your changes or reviewed their code. These fields are
+      usually added by the maintainer accepting a patch, or by
+      yourself if you submitted your patches to early reviewers,
+      or are submitting an unmodified patch again as part of a
+      new iteration of your patch series.
+
+   -  ``CC:`` Name and email of people you want to send a copy
+      of your changes to. This field will be used by ``git send-email``.
+
+   See `more guidance about using such tags
+   <https://www.kernel.org/doc/html/latest/process/submitting-patches.html#using-reported-by-tested-by-reviewed-by-suggested-by-and-fixes>`__
+   in the Linux kernel documentation.
+
+Creating Patches
+================
+
+Here is the general procedure on how to create patches to be sent through email:
+
+#. *Describe the Changes in your Branch:* If you have more than one commit
+   in your branch, it's recommended to provide a cover letter describing
+   the series of patches you are about to send.
+
+   For this purpose, a good solution is to store the cover letter contents
+   in the branch itself::
+
+      git branch --edit-description
+
+   This will open a text editor to fill in the description for your
+   changes. This description can be updated when necessary and will
+   be used by Git to create the cover letter together with the patches.
+
+   It is recommended to start this description with a title line which
+   will serve a the subject line for the cover letter.
+
+#. *Generate Patches for your Branch:* The ``git format-patch`` command will
+   generate patch files for each of the commits in your branch. You need
+   to pass the reference branch your branch starts from.
+
+   If you branch didn't need a description in the previous step::
+
+      $ git format-patch <ref-branch>
+
+   If you filled a description for your branch, you will want to generate
+   a cover letter too::
+
+      $ git format-patch --cover-letter --cover-from-description=auto <ref-branch>
+
+   After the command is run, the current directory contains numbered
+   ``.patch`` files for the commits in your branch. If you have a cover
+   letter, it will be in the ``0000-cover-letter.patch``.
+
+   .. note::
+
+      The ``--cover-from-description=auto`` option makes ``git format-patch``
+      use the first paragraph of the branch description as the cover
+      letter title. Another possibility, which is easier to remember, is to pass
+      only the ``--cover-letter`` option, but you will have to edit the
+      subject line manually every time you generate the patches.
+
+      See the `git format-patch manual page <https://git-scm.com/docs/git-format-patch>`__
+      for details.
+
+#. *Review each of the Patch Files:* This final review of the patches
+   before sending them often allows to view your changes from a different
+   perspective and discover defects such as typos, spacing issues or lines
+   or even files that you didn't intend to modify. This review should
+   include the cover letter patch too.
+
+   If necessary, rework your commits as described in
+   ":ref:`contributor-guide/submit-changes:taking patch review into account`".
+
+Sending the Patches via Email
+=============================
+
+Using Git to Send Patches
+-------------------------
+
+To submit patches through email, it is very important that you send them
+without any whitespace or HTML formatting that either you or your mailer
+introduces. The maintainer that receives your patches needs to be able
+to save and apply them directly from your emails, using the ``git am``
+command.
+
+Using the ``git send-email`` command is the only error-proof way of sending
+your patches using email since there is no risk of compromising whitespace
+in the body of the message, which can occur when you use your own mail
+client. It will also properly include your patches as *inline attachments*,
+which is not easy to do with standard e-mail clients without breaking lines.
+If you used your regular e-mail client and shared your patches as regular
+attachments, reviewers wouldn't be able to quote specific sections of your
+changes and make comments about them.
+
+Setting up Git to Send Email
+----------------------------
+
+The ``git send-email`` command can send email by using a local or remote
+Mail Transport Agent (MTA) such as ``msmtp``, ``sendmail``, or
+through a direct SMTP configuration in your Git ``~/.gitconfig`` file.
+
+Here are the settings for letting ``git send-email`` send e-mail through your
+regular STMP server, using a Google Mail account as an example::
+
+   git config --global sendemail.smtpserver smtp.gmail.com
+   git config --global sendemail.smtpserverport 587
+   git config --global sendemail.smtpencryption tls
+   git config --global sendemail.smtpuser ada.lovelace@gmail.com
+   git config --global sendemail.smtppass = XXXXXXXX
+
+These settings will appear in the ``.gitconfig`` file in your home directory.
+
+If you neither can use a local MTA nor SMTP,  make sure you use an email client
+that does not touch the message (turning spaces in tabs, wrapping lines, etc.).
+A good mail client to do so is Pine (or Alpine) or Mutt. For more
+information about suitable clients, see `Email clients info for Linux
+<https://www.kernel.org/doc/html/latest/process/email-clients.html>`__
+in the Linux kernel sources.
+
+If you use such clients, just include the patch in the body of your email.
+
+Finding a Suitable Mailing List
+-------------------------------
+
+You should send patches to the appropriate mailing list so that they can be
+reviewed by the right contributors and merged by the appropriate maintainer.
+The specific mailing list you need to use depends on the location of the code
+you are changing.
+
+If people have concerns with any of the patches, they will usually voice
+their concern over the mailing list. If patches do not receive any negative
+reviews, the maintainer of the affected layer typically takes them, tests them,
+and then based on successful testing, merges them.
+
+In general, each component (e.g. layer) should have a ``README`` file
+that indicates where to send the changes and which process to follow.
+
+The "poky" repository, which is the Yocto Project's reference build
+environment, is a hybrid repository that contains several individual
+pieces (e.g. BitBake, Metadata, documentation, and so forth) built using
+the combo-layer tool. The upstream location used for submitting changes
+varies by component:
+
+-  *Core Metadata:* Send your patches to the
+   :oe_lists:`openembedded-core </g/openembedded-core>`
+   mailing list. For example, a change to anything under the ``meta`` or
+   ``scripts`` directories should be sent to this mailing list.
+
+-  *BitBake:* For changes to BitBake (i.e. anything under the
+   ``bitbake`` directory), send your patches to the
+   :oe_lists:`bitbake-devel </g/bitbake-devel>`
+   mailing list.
+
+-  *"meta-\*" trees:* These trees contain Metadata. Use the
+   :yocto_lists:`poky </g/poky>` mailing list.
+
+-  *Documentation*: For changes to the Yocto Project documentation, use the
+   :yocto_lists:`docs </g/docs>` mailing list.
+
+For changes to other layers and tools hosted in the Yocto Project source
+repositories (i.e. :yocto_git:`git.yoctoproject.org <>`), use the
+:yocto_lists:`yocto </g/yocto/>` general mailing list.
+
+For changes to other layers hosted in the OpenEmbedded source
+repositories (i.e. :oe_git:`git.openembedded.org <>`), use
+the :oe_lists:`openembedded-devel </g/openembedded-devel>`
+mailing list, unless specified otherwise in the layer's ``README`` file.
+
+If you intend to submit a new recipe that neither fits into the core Metadata,
+nor into :oe_git:`meta-openembedded </meta-openembedded/>`, you should
+look for a suitable layer in https://layers.openembedded.org. If similar
+recipes can be expected, you may consider :ref:`dev-manual/layers:creating your own layer`.
+
+If in doubt, please ask on the :yocto_lists:`yocto </g/yocto/>` general mailing list
+or on the :oe_lists:`openembedded-devel </g/openembedded-devel>` mailing list.
+
+Subscribing to the Mailing List
+-------------------------------
+
+After identifying the right mailing list to use, you will have to subscribe to
+it if you haven't done it yet.
+
+If you attempt to send patches to a list you haven't subscribed to, your email
+will be returned as undelivered.
+
+However, if you don't want to be receive all the messages sent to a mailing list,
+you can set your subscription to "no email". You will still be a subscriber able
+to send messages, but you won't receive any e-mail. If people reply to your message,
+their e-mail clients will default to including your email address in the
+conversation anyway.
+
+Anyway, you'll also be able to access the new messages on mailing list archives,
+either through a web browser, or for the lists archived on https://lore.kernelorg,
+through an individual newsgroup feed or a git repository.
+
+Sending Patches via Email
+-------------------------
+
+At this stage, you are ready to send your patches via email. Here's the
+typical usage of ``git send-email``::
+
+   git send-email --to <mailing-list-address> *.patch
+
+Then, review each subject line and list of recipients carefully, and then
+and then allow the command to send each message.
+
+You will see that ``git send-email`` will automatically copy the people listed
+in any commit tags such as ``Signed-off-by`` or ``Reported-by``.
+
+In case you are sending patches for :oe_git:`meta-openembedded </meta-openembedded/>`
+or any layer other than :oe_git:`openembedded-core </openembedded-core/>`,
+please add the appropriate prefix so that it is clear which layer the patch is intended
+to be applied to::
+
+   git send-email --subject-prefix="meta-oe][PATCH" ...
+
+.. note::
+
+   It is actually possible to send patches without generating them
+   first. However, make sure you have reviewed your changes carefully
+   because ``git send-email`` will just show you the title lines of
+   each patch.
+
+   Here's a command you can use if you just have one patch in your
+   branch::
+
+      git send-email --to <mailing-list-address> -1
+
+   If you have multiple patches and a cover letter, you can send
+   patches for all the commits between the reference branch
+   and the tip of your branch::
+
+      git send-email --cover-letter --cover-from-description=auto --to <mailing-list-address> -M <ref-branch>
+
+See the `git send-email manual page <https://git-scm.com/docs/git-send-email>`__
+for details.
+
+Troubleshooting Email Issues
+----------------------------
+
+Fixing your From identity
+~~~~~~~~~~~~~~~~~~~~~~~~~
+
+We have a frequent issue with contributors whose patches are received through
+a ``From`` field which doesn't match the ``Signed-off-by`` information. Here is
+a typical example for people sending from a domain name with :wikipedia:`DMARC`::
+
+   From: "Linus Torvalds via lists.openembedded.org <linus.torvalds=kernel.org@lists.openembedded.org>"
+
+This ``From`` field is used by ``git am`` to recreate commits with the right
+author name. The following will ensure that your e-mails have an additional
+``From`` field at the beginning of the Email body, and therefore that
+maintainers accepting your patches don't have to fix commit author information
+manually::
+
+   git config --global sendemail.from "linus.torvalds@kernel.org"
+
+The ``sendemail.from`` should match your ``user.email`` setting,
+which appears in the ``Signed-off-by`` line of your commits.
+
+Streamlining git send-email usage
+---------------------------------
+
+If you want to save time and not be forced to remember the right options to use
+with ``git send-email``, you can use Git configuration settings.
+
+-  To set the right mailing list address for a given repository::
+
+      git config --local sendemail.to openembedded-devel@lists.openembedded.org
+
+-  If the mailing list requires a subject prefix for the layer
+   (this only works when the repository only contains one layer)::
+
+      git config --local format.subjectprefix "meta-something][PATCH"
+
+Using Scripts to Push a Change Upstream and Request a Pull
+==========================================================
+
+For larger patch series it is preferable to send a pull request which not
+only includes the patch but also a pointer to a branch that can be pulled
+from. This involves making a local branch for your changes, pushing this
+branch to an accessible repository and then using the ``create-pull-request``
+and ``send-pull-request`` scripts from openembedded-core to create and send a
+patch series with a link to the branch for review.
+
+Follow this procedure to push a change to an upstream "contrib" Git
+repository once the steps in
+":ref:`contributor-guide/submit-changes:preparing changes for submission`"
+have been followed:
+
+.. note::
+
+   You can find general Git information on how to push a change upstream
+   in the
+   `Git Community Book <https://git-scm.com/book/en/v2/Distributed-Git-Distributed-Workflows>`__.
+
+#. *Request Push Access to an "Upstream" Contrib Repository:* Send an email to
+   ``helpdesk@yoctoproject.org``:
+
+    -  Attach your SSH public key which usually named ``id_rsa.pub.``.
+       If you don't have one generate it by running ``ssh-keygen -t rsa -b 4096 -C "your_email@example.com"``.
+
+    -  List the repositories you're planning to contribute to.
+
+    -  Include your preferred branch prefix for ``-contrib`` repositories.
+
+#. *Push Your Commits to the "Contrib" Upstream:* Push your
+   changes to that repository::
+
+      $ git push upstream_remote_repo local_branch_name
+
+   For example, suppose you have permissions to push
+   into the upstream ``meta-intel-contrib`` repository and you are
+   working in a local branch named `your_name`\ ``/README``. The following
+   command pushes your local commits to the ``meta-intel-contrib``
+   upstream repository and puts the commit in a branch named
+   `your_name`\ ``/README``::
+
+      $ git push meta-intel-contrib your_name/README
+
+#. *Determine Who to Notify:* Determine the maintainer or the mailing
+   list that you need to notify for the change.
+
+   Before submitting any change, you need to be sure who the maintainer
+   is or what mailing list that you need to notify. Use either these
+   methods to find out:
+
+   -  *Maintenance File:* Examine the ``maintainers.inc`` file, which is
+      located in the :term:`Source Directory` at
+      ``meta/conf/distro/include``, to see who is responsible for code.
+
+   -  *Search by File:* Using :ref:`overview-manual/development-environment:git`, you can
+      enter the following command to bring up a short list of all
+      commits against a specific file::
+
+         git shortlog -- filename
+
+      Just provide the name of the file for which you are interested. The
+      information returned is not ordered by history but does include a
+      list of everyone who has committed grouped by name. From the list,
+      you can see who is responsible for the bulk of the changes against
+      the file.
+
+   -  *Find the Mailing List to Use:* See the
+      ":ref:`contributor-guide/submit-changes:finding a suitable mailing list`"
+      section above.
+
+#. *Make a Pull Request:* Notify the maintainer or the mailing list that
+   you have pushed a change by making a pull request.
+
+   The Yocto Project provides two scripts that conveniently let you
+   generate and send pull requests to the Yocto Project. These scripts
+   are ``create-pull-request`` and ``send-pull-request``. You can find
+   these scripts in the ``scripts`` directory within the
+   :term:`Source Directory` (e.g.
+   ``poky/scripts``).
+
+   Using these scripts correctly formats the requests without
+   introducing any whitespace or HTML formatting. The maintainer that
+   receives your patches either directly or through the mailing list
+   needs to be able to save and apply them directly from your emails.
+   Using these scripts is the preferred method for sending patches.
+
+   First, create the pull request. For example, the following command
+   runs the script, specifies the upstream repository in the contrib
+   directory into which you pushed the change, and provides a subject
+   line in the created patch files::
+
+      $ poky/scripts/create-pull-request -u meta-intel-contrib -s "Updated Manual Section Reference in README"
+
+   Running this script forms ``*.patch`` files in a folder named
+   ``pull-``\ `PID` in the current directory. One of the patch files is a
+   cover letter.
+
+   Before running the ``send-pull-request`` script, you must edit the
+   cover letter patch to insert information about your change. After
+   editing the cover letter, send the pull request. For example, the
+   following command runs the script and specifies the patch directory
+   and email address. In this example, the email address is a mailing
+   list::
+
+      $ poky/scripts/send-pull-request -p ~/meta-intel/pull-10565 -t meta-intel@lists.yoctoproject.org
+
+   You need to follow the prompts as the script is interactive.
+
+   .. note::
+
+      For help on using these scripts, simply provide the ``-h``
+      argument as follows::
+
+              $ poky/scripts/create-pull-request -h
+              $ poky/scripts/send-pull-request -h
+
+Submitting Changes to Stable Release Branches
+=============================================
+
+The process for proposing changes to a Yocto Project stable branch differs
+from the steps described above. Changes to a stable branch must address
+identified bugs or CVEs and should be made carefully in order to avoid the
+risk of introducing new bugs or breaking backwards compatibility. Typically
+bug fixes must already be accepted into the master branch before they can be
+backported to a stable branch unless the bug in question does not affect the
+master branch or the fix on the master branch is unsuitable for backporting.
+
+The list of stable branches along with the status and maintainer for each
+branch can be obtained from the
+:yocto_wiki:`Releases wiki page </Releases>`.
+
+.. note::
+
+   Changes will not typically be accepted for branches which are marked as
+   End-Of-Life (EOL).
+
+With this in mind, the steps to submit a change for a stable branch are as
+follows:
+
+#. *Identify the bug or CVE to be fixed:* This information should be
+   collected so that it can be included in your submission.
+
+   See :ref:`dev-manual/vulnerabilities:checking for vulnerabilities`
+   for details about CVE tracking.
+
+#. *Check if the fix is already present in the master branch:* This will
+   result in the most straightforward path into the stable branch for the
+   fix.
+
+   #. *If the fix is present in the master branch --- submit a backport request
+      by email:* You should send an email to the relevant stable branch
+      maintainer and the mailing list with details of the bug or CVE to be
+      fixed, the commit hash on the master branch that fixes the issue and
+      the stable branches which you would like this fix to be backported to.
+
+   #. *If the fix is not present in the master branch --- submit the fix to the
+      master branch first:* This will ensure that the fix passes through the
+      project's usual patch review and test processes before being accepted.
+      It will also ensure that bugs are not left unresolved in the master
+      branch itself. Once the fix is accepted in the master branch a backport
+      request can be submitted as above.
+
+   #. *If the fix is unsuitable for the master branch --- submit a patch
+      directly for the stable branch:* This method should be considered as a
+      last resort. It is typically necessary when the master branch is using
+      a newer version of the software which includes an upstream fix for the
+      issue or when the issue has been fixed on the master branch in a way
+      that introduces backwards incompatible changes. In this case follow the
+      steps in ":ref:`contributor-guide/submit-changes:preparing changes for submission`"
+      and in the following sections but modify the subject header of your patch
+      email to include the name of the stable branch which you are
+      targetting. This can be done using the ``--subject-prefix`` argument to
+      ``git format-patch``, for example to submit a patch to the
+      "&DISTRO_NAME_NO_CAP_MINUS_ONE;" branch use::
+
+         git format-patch --subject-prefix='&DISTRO_NAME_NO_CAP_MINUS_ONE;][PATCH' ...
+
+Taking Patch Review into Account
+================================
+
+You may get feedback on your submitted patches from other community members
+or from the automated patchtest service. If issues are identified in your
+patches then it is usually necessary to address these before the patches are
+accepted into the project. In this case you should your commits according
+to the feedback and submit an updated version to the relevant mailing list.
+
+In any case, never fix reported issues by fixing them in new commits
+on the tip of your branch. Always come up with a new series of commits
+without the reported issues.
+
+.. note::
+
+   It is a good idea to send a copy to the reviewers who provided feedback
+   to the previous version of the patch. You can make sure this happens
+   by adding a ``CC`` tag to the commit description::
+
+      CC: William Shakespeare <bill@yoctoproject.org>
+
+A single patch can be amended using ``git commit --amend``, and multiple
+patches can be easily reworked and reordered through an interactive Git rebase::
+
+   git rebase -i <ref-branch>
+
+See `this tutorial <https://hackernoon.com/beginners-guide-to-interactive-rebasing-346a3f9c3a6d>`__
+for practical guidance about using Git interactive rebasing.
+
+You should also modify the ``[PATCH]`` tag in the email subject line when
+sending the revised patch to mark the new iteration as ``[PATCH v2]``,
+``[PATCH v3]``, etc as appropriate. This can be done by passing the ``-v``
+argument to ``git format-patch`` with a version number::
+
+   git format-patch -v2 <ref-branch>
+
+Lastly please ensure that you also test your revised changes. In particular
+please don't just edit the patch file written out by ``git format-patch`` and
+resend it.
+
+Tracking the Status of Patches
+==============================
+
+The Yocto Project uses a `Patchwork instance <https://patchwork.yoctoproject.org/>`__
+to track the status of patches submitted to the various mailing lists and to
+support automated patch testing. Each submitted patch is checked for common
+mistakes and deviations from the expected patch format and submitters are
+notified by ``patchtest`` if such mistakes are found. This process helps to
+reduce the burden of patch review on maintainers.
+
+.. note::
+
+   This system is imperfect and changes can sometimes get lost in the flow.
+   Asking about the status of a patch or change is reasonable if the change
+   has been idle for a while with no feedback.
+
+If your patches have not had any feedback in a few days, they may have already
+been merged. You can run ``git pull``  branch to check this. Note that many if
+not most layer maintainers do not send out acknowledgement emails when they
+accept patches. Alternatively, if there is no response or merge after a few days
+the patch may have been missed or the appropriate reviewers may not currently be
+around. It is then perfectly fine to reply to it yourself with a reminder asking
+for feedback.
+
+.. note::
+
+      Patch reviews for feature and recipe upgrade patches are likely be delayed
+      during a feature freeze because these types of patches aren't merged during
+      at that time --- you may have to wait until after the freeze is lifted.
+
+Maintainers also commonly use ``-next`` branches to test submissions prior to
+merging patches. Thus, you can get an idea of the status of a patch based on
+whether the patch has been merged into one of these branches. The commonly
+used testing branches for OpenEmbedded-Core are as follows:
+
+-  *openembedded-core "master-next" branch:* This branch is part of the
+   :oe_git:`openembedded-core </openembedded-core/>` repository and contains
+   proposed changes to the core metadata.
+
+-  *poky "master-next" branch:* This branch is part of the
+   :yocto_git:`poky </poky/>` repository and combines proposed
+   changes to BitBake, the core metadata and the poky distro.
+
+Similarly, stable branches maintained by the project may have corresponding
+``-next`` branches which collect proposed changes. For example,
+``&DISTRO_NAME_NO_CAP;-next`` and ``&DISTRO_NAME_NO_CAP_MINUS_ONE;-next``
+branches in both the "openembdedded-core" and "poky" repositories.
+
+Other layers may have similar testing branches but there is no formal
+requirement or standard for these so please check the documentation for the
+layers you are contributing to.
+
--- a/documentation/dev-manual/bmaptool.rst
+++ b/documentation/dev-manual/bmaptool.rst
@@ -0,0 +1,59 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Flashing Images Using ``bmaptool``
+**********************************
+
+A fast and easy way to flash an image to a bootable device is to use
+Bmaptool, which is integrated into the OpenEmbedded build system.
+Bmaptool is a generic tool that creates a file's block map (bmap) and
+then uses that map to copy the file. As compared to traditional tools
+such as dd or cp, Bmaptool can copy (or flash) large files like raw
+system image files much faster.
+
+.. note::
+
+   -  If you are using Ubuntu or Debian distributions, you can install
+      the ``bmap-tools`` package using the following command and then
+      use the tool without specifying ``PATH`` even from the root
+      account::
+
+         $ sudo apt install bmap-tools
+
+   -  If you are unable to install the ``bmap-tools`` package, you will
+      need to build Bmaptool before using it. Use the following command::
+
+         $ bitbake bmap-tools-native
+
+Following, is an example that shows how to flash a Wic image. Realize
+that while this example uses a Wic image, you can use Bmaptool to flash
+any type of image. Use these steps to flash an image using Bmaptool:
+
+#. *Update your local.conf File:* You need to have the following set
+   in your ``local.conf`` file before building your image::
+
+      IMAGE_FSTYPES += "wic wic.bmap"
+
+#. *Get Your Image:* Either have your image ready (pre-built with the
+   :term:`IMAGE_FSTYPES`
+   setting previously mentioned) or take the step to build the image::
+
+      $ bitbake image
+
+#. *Flash the Device:* Flash the device with the image by using Bmaptool
+   depending on your particular setup. The following commands assume the
+   image resides in the :term:`Build Directory`'s ``deploy/images/`` area:
+
+   -  If you have write access to the media, use this command form::
+
+         $ oe-run-native bmap-tools-native bmaptool copy build-directory/tmp/deploy/images/machine/image.wic /dev/sdX
+
+   -  If you do not have write access to the media, set your permissions
+      first and then use the same command form::
+
+         $ sudo chmod 666 /dev/sdX
+         $ oe-run-native bmap-tools-native bmaptool copy build-directory/tmp/deploy/images/machine/image.wic /dev/sdX
+
+For help on the ``bmaptool`` command, use the following command::
+
+   $ bmaptool --help
+
--- a/documentation/dev-manual/build-quality.rst
+++ b/documentation/dev-manual/build-quality.rst
@@ -0,0 +1,409 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Maintaining Build Output Quality
+********************************
+
+Many factors can influence the quality of a build. For example, if you
+upgrade a recipe to use a new version of an upstream software package or
+you experiment with some new configuration options, subtle changes can
+occur that you might not detect until later. Consider the case where
+your recipe is using a newer version of an upstream package. In this
+case, a new version of a piece of software might introduce an optional
+dependency on another library, which is auto-detected. If that library
+has already been built when the software is building, the software will
+link to the built library and that library will be pulled into your
+image along with the new software even if you did not want the library.
+
+The :ref:`ref-classes-buildhistory` class helps you maintain the quality of
+your build output. You can use the class to highlight unexpected and possibly
+unwanted changes in the build output. When you enable build history, it records
+information about the contents of each package and image and then commits that
+information to a local Git repository where you can examine the information.
+
+The remainder of this section describes the following:
+
+-  :ref:`How you can enable and disable build history <dev-manual/build-quality:enabling and disabling build history>`
+
+-  :ref:`How to understand what the build history contains <dev-manual/build-quality:understanding what the build history contains>`
+
+-  :ref:`How to limit the information used for build history <dev-manual/build-quality:using build history to gather image information only>`
+
+-  :ref:`How to examine the build history from both a command-line and web interface <dev-manual/build-quality:examining build history information>`
+
+Enabling and Disabling Build History
+====================================
+
+Build history is disabled by default. To enable it, add the following
+:term:`INHERIT` statement and set the :term:`BUILDHISTORY_COMMIT` variable to
+"1" at the end of your ``conf/local.conf`` file found in the
+:term:`Build Directory`::
+
+   INHERIT += "buildhistory"
+   BUILDHISTORY_COMMIT = "1"
+
+Enabling build history as
+previously described causes the OpenEmbedded build system to collect
+build output information and commit it as a single commit to a local
+:ref:`overview-manual/development-environment:git` repository.
+
+.. note::
+
+   Enabling build history increases your build times slightly,
+   particularly for images, and increases the amount of disk space used
+   during the build.
+
+You can disable build history by removing the previous statements from
+your ``conf/local.conf`` file.
+
+Understanding What the Build History Contains
+=============================================
+
+Build history information is kept in ``${``\ :term:`TOPDIR`\ ``}/buildhistory``
+in the :term:`Build Directory` as defined by the :term:`BUILDHISTORY_DIR`
+variable. Here is an example abbreviated listing:
+
+.. image:: figures/buildhistory.png
+   :align: center
+   :width: 50%
+
+At the top level, there is a ``metadata-revs`` file that lists the
+revisions of the repositories for the enabled layers when the build was
+produced. The rest of the data splits into separate ``packages``,
+``images`` and ``sdk`` directories, the contents of which are described
+as follows.
+
+Build History Package Information
+---------------------------------
+
+The history for each package contains a text file that has name-value
+pairs with information about the package. For example,
+``buildhistory/packages/i586-poky-linux/busybox/busybox/latest``
+contains the following:
+
+.. code-block:: none
+
+   PV = 1.22.1
+   PR = r32
+   RPROVIDES =
+   RDEPENDS = glibc (>= 2.20) update-alternatives-opkg
+   RRECOMMENDS = busybox-syslog busybox-udhcpc update-rc.d
+   PKGSIZE = 540168
+   FILES = /usr/bin/* /usr/sbin/* /usr/lib/busybox/* /usr/lib/lib*.so.* \
+      /etc /com /var /bin/* /sbin/* /lib/*.so.* /lib/udev/rules.d \
+      /usr/lib/udev/rules.d /usr/share/busybox /usr/lib/busybox/* \
+      /usr/share/pixmaps /usr/share/applications /usr/share/idl \
+      /usr/share/omf /usr/share/sounds /usr/lib/bonobo/servers
+   FILELIST = /bin/busybox /bin/busybox.nosuid /bin/busybox.suid /bin/sh \
+      /etc/busybox.links.nosuid /etc/busybox.links.suid
+
+Most of these
+name-value pairs correspond to variables used to produce the package.
+The exceptions are ``FILELIST``, which is the actual list of files in
+the package, and ``PKGSIZE``, which is the total size of files in the
+package in bytes.
+
+There is also a file that corresponds to the recipe from which the package
+came (e.g. ``buildhistory/packages/i586-poky-linux/busybox/latest``):
+
+.. code-block:: none
+
+   PV = 1.22.1
+   PR = r32
+   DEPENDS = initscripts kern-tools-native update-rc.d-native \
+      virtual/i586-poky-linux-compilerlibs virtual/i586-poky-linux-gcc \
+      virtual/libc virtual/update-alternatives
+   PACKAGES = busybox-ptest busybox-httpd busybox-udhcpd busybox-udhcpc \
+      busybox-syslog busybox-mdev busybox-hwclock busybox-dbg \
+      busybox-staticdev busybox-dev busybox-doc busybox-locale busybox
+
+Finally, for those recipes fetched from a version control system (e.g.,
+Git), there is a file that lists source revisions that are specified in
+the recipe and the actual revisions used during the build. Listed
+and actual revisions might differ when
+:term:`SRCREV` is set to
+${:term:`AUTOREV`}. Here is an
+example assuming
+``buildhistory/packages/qemux86-poky-linux/linux-yocto/latest_srcrev``)::
+
+   # SRCREV_machine = "38cd560d5022ed2dbd1ab0dca9642e47c98a0aa1"
+   SRCREV_machine = "38cd560d5022ed2dbd1ab0dca9642e47c98a0aa1"
+   # SRCREV_meta = "a227f20eff056e511d504b2e490f3774ab260d6f"
+   SRCREV_meta ="a227f20eff056e511d504b2e490f3774ab260d6f"
+
+You can use the
+``buildhistory-collect-srcrevs`` command with the ``-a`` option to
+collect the stored :term:`SRCREV` values from build history and report them
+in a format suitable for use in global configuration (e.g.,
+``local.conf`` or a distro include file) to override floating
+:term:`AUTOREV` values to a fixed set of revisions. Here is some example
+output from this command::
+
+   $ buildhistory-collect-srcrevs -a
+   # all-poky-linux
+   SRCREV:pn-ca-certificates = "07de54fdcc5806bde549e1edf60738c6bccf50e8"
+   SRCREV:pn-update-rc.d = "8636cf478d426b568c1be11dbd9346f67e03adac"
+   # core2-64-poky-linux
+   SRCREV:pn-binutils = "87d4632d36323091e731eb07b8aa65f90293da66"
+   SRCREV:pn-btrfs-tools = "8ad326b2f28c044cb6ed9016d7c3285e23b673c8"
+   SRCREV_bzip2-tests:pn-bzip2 = "f9061c030a25de5b6829e1abf373057309c734c0"
+   SRCREV:pn-e2fsprogs = "02540dedd3ddc52c6ae8aaa8a95ce75c3f8be1c0"
+   SRCREV:pn-file = "504206e53a89fd6eed71aeaf878aa3512418eab1"
+   SRCREV_glibc:pn-glibc = "24962427071fa532c3c48c918e9d64d719cc8a6c"
+   SRCREV:pn-gnome-desktop-testing = "e346cd4ed2e2102c9b195b614f3c642d23f5f6e7"
+   SRCREV:pn-init-system-helpers = "dbd9197569c0935029acd5c9b02b84c68fd937ee"
+   SRCREV:pn-kmod = "b6ecfc916a17eab8f93be5b09f4e4f845aabd3d1"
+   SRCREV:pn-libnsl2 = "82245c0c58add79a8e34ab0917358217a70e5100"
+   SRCREV:pn-libseccomp = "57357d2741a3b3d3e8425889a6b79a130e0fa2f3"
+   SRCREV:pn-libxcrypt = "50cf2b6dd4fdf04309445f2eec8de7051d953abf"
+   SRCREV:pn-ncurses = "51d0fd9cc3edb975f04224f29f777f8f448e8ced"
+   SRCREV:pn-procps = "19a508ea121c0c4ac6d0224575a036de745eaaf8"
+   SRCREV:pn-psmisc = "5fab6b7ab385080f1db725d6803136ec1841a15f"
+   SRCREV:pn-ptest-runner = "bcb82804daa8f725b6add259dcef2067e61a75aa"
+   SRCREV:pn-shared-mime-info = "18e558fa1c8b90b86757ade09a4ba4d6a6cf8f70"
+   SRCREV:pn-zstd = "e47e674cd09583ff0503f0f6defd6d23d8b718d3"
+   # qemux86_64-poky-linux
+   SRCREV_machine:pn-linux-yocto = "20301aeb1a64164b72bc72af58802b315e025c9c"
+   SRCREV_meta:pn-linux-yocto = "2d38a472b21ae343707c8bd64ac68a9eaca066a0"
+   # x86_64-linux
+   SRCREV:pn-binutils-cross-x86_64 = "87d4632d36323091e731eb07b8aa65f90293da66"
+   SRCREV_glibc:pn-cross-localedef-native = "24962427071fa532c3c48c918e9d64d719cc8a6c"
+   SRCREV_localedef:pn-cross-localedef-native = "794da69788cbf9bf57b59a852f9f11307663fa87"
+   SRCREV:pn-debianutils-native = "de14223e5bffe15e374a441302c528ffc1cbed57"
+   SRCREV:pn-libmodulemd-native = "ee80309bc766d781a144e6879419b29f444d94eb"
+   SRCREV:pn-virglrenderer-native = "363915595e05fb252e70d6514be2f0c0b5ca312b"
+   SRCREV:pn-zstd-native = "e47e674cd09583ff0503f0f6defd6d23d8b718d3"
+
+.. note::
+
+   Here are some notes on using the ``buildhistory-collect-srcrevs`` command:
+
+   -  By default, only values where the :term:`SRCREV` was not hardcoded
+      (usually when :term:`AUTOREV` is used) are reported. Use the ``-a``
+      option to see all :term:`SRCREV` values.
+
+   -  The output statements might not have any effect if overrides are
+      applied elsewhere in the build system configuration. Use the
+      ``-f`` option to add the ``forcevariable`` override to each output
+      line if you need to work around this restriction.
+
+   -  The script does apply special handling when building for multiple
+      machines. However, the script does place a comment before each set
+      of values that specifies which triplet to which they belong as
+      previously shown (e.g., ``i586-poky-linux``).
+
+Build History Image Information
+-------------------------------
+
+The files produced for each image are as follows:
+
+-  ``image-files:`` A directory containing selected files from the root
+   filesystem. The files are defined by
+   :term:`BUILDHISTORY_IMAGE_FILES`.
+
+-  ``build-id.txt:`` Human-readable information about the build
+   configuration and metadata source revisions. This file contains the
+   full build header as printed by BitBake.
+
+-  ``*.dot:`` Dependency graphs for the image that are compatible with
+   ``graphviz``.
+
+-  ``files-in-image.txt:`` A list of files in the image with
+   permissions, owner, group, size, and symlink information.
+
+-  ``image-info.txt:`` A text file containing name-value pairs with
+   information about the image. See the following listing example for
+   more information.
+
+-  ``installed-package-names.txt:`` A list of installed packages by name
+   only.
+
+-  ``installed-package-sizes.txt:`` A list of installed packages ordered
+   by size.
+
+-  ``installed-packages.txt:`` A list of installed packages with full
+   package filenames.
+
+.. note::
+
+   Installed package information is able to be gathered and produced
+   even if package management is disabled for the final image.
+
+Here is an example of ``image-info.txt``:
+
+.. code-block:: none
+
+   DISTRO = poky
+   DISTRO_VERSION = 3.4+snapshot-a0245d7be08f3d24ea1875e9f8872aa6bbff93be
+   USER_CLASSES = buildstats
+   IMAGE_CLASSES = qemuboot qemuboot license_image
+   IMAGE_FEATURES = debug-tweaks
+   IMAGE_LINGUAS =
+   IMAGE_INSTALL = packagegroup-core-boot speex speexdsp
+   BAD_RECOMMENDATIONS =
+   NO_RECOMMENDATIONS =
+   PACKAGE_EXCLUDE =
+   ROOTFS_POSTPROCESS_COMMAND = write_package_manifest; license_create_manifest; cve_check_write_rootfs_manifest;   ssh_allow_empty_password;  ssh_allow_root_login;  postinst_enable_logging;  rootfs_update_timestamp;   write_image_test_data;   empty_var_volatile;   sort_passwd; rootfs_reproducible;
+   IMAGE_POSTPROCESS_COMMAND =  buildhistory_get_imageinfo ;
+   IMAGESIZE = 9265
+
+Other than ``IMAGESIZE``,
+which is the total size of the files in the image in Kbytes, the
+name-value pairs are variables that may have influenced the content of
+the image. This information is often useful when you are trying to
+determine why a change in the package or file listings has occurred.
+
+Using Build History to Gather Image Information Only
+----------------------------------------------------
+
+As you can see, build history produces image information, including
+dependency graphs, so you can see why something was pulled into the
+image. If you are just interested in this information and not interested
+in collecting specific package or SDK information, you can enable
+writing only image information without any history by adding the
+following to your ``conf/local.conf`` file found in the
+:term:`Build Directory`::
+
+   INHERIT += "buildhistory"
+   BUILDHISTORY_COMMIT = "0"
+   BUILDHISTORY_FEATURES = "image"
+
+Here, you set the
+:term:`BUILDHISTORY_FEATURES`
+variable to use the image feature only.
+
+Build History SDK Information
+-----------------------------
+
+Build history collects similar information on the contents of SDKs (e.g.
+``bitbake -c populate_sdk imagename``) as compared to information it
+collects for images. Furthermore, this information differs depending on
+whether an extensible or standard SDK is being produced.
+
+The following list shows the files produced for SDKs:
+
+-  ``files-in-sdk.txt:`` A list of files in the SDK with permissions,
+   owner, group, size, and symlink information. This list includes both
+   the host and target parts of the SDK.
+
+-  ``sdk-info.txt:`` A text file containing name-value pairs with
+   information about the SDK. See the following listing example for more
+   information.
+
+-  ``sstate-task-sizes.txt:`` A text file containing name-value pairs
+   with information about task group sizes (e.g. :ref:`ref-tasks-populate_sysroot`
+   tasks have a total size). The ``sstate-task-sizes.txt`` file exists
+   only when an extensible SDK is created.
+
+-  ``sstate-package-sizes.txt:`` A text file containing name-value pairs
+   with information for the shared-state packages and sizes in the SDK.
+   The ``sstate-package-sizes.txt`` file exists only when an extensible
+   SDK is created.
+
+-  ``sdk-files:`` A folder that contains copies of the files mentioned
+   in ``BUILDHISTORY_SDK_FILES`` if the files are present in the output.
+   Additionally, the default value of ``BUILDHISTORY_SDK_FILES`` is
+   specific to the extensible SDK although you can set it differently if
+   you would like to pull in specific files from the standard SDK.
+
+   The default files are ``conf/local.conf``, ``conf/bblayers.conf``,
+   ``conf/auto.conf``, ``conf/locked-sigs.inc``, and
+   ``conf/devtool.conf``. Thus, for an extensible SDK, these files get
+   copied into the ``sdk-files`` directory.
+
+-  The following information appears under each of the ``host`` and
+   ``target`` directories for the portions of the SDK that run on the
+   host and on the target, respectively:
+
+   .. note::
+
+      The following files for the most part are empty when producing an
+      extensible SDK because this type of SDK is not constructed from
+      packages as is the standard SDK.
+
+   -  ``depends.dot:`` Dependency graph for the SDK that is compatible
+      with ``graphviz``.
+
+   -  ``installed-package-names.txt:`` A list of installed packages by
+      name only.
+
+   -  ``installed-package-sizes.txt:`` A list of installed packages
+      ordered by size.
+
+   -  ``installed-packages.txt:`` A list of installed packages with full
+      package filenames.
+
+Here is an example of ``sdk-info.txt``:
+
+.. code-block:: none
+
+   DISTRO = poky
+   DISTRO_VERSION = 1.3+snapshot-20130327
+   SDK_NAME = poky-glibc-i686-arm
+   SDK_VERSION = 1.3+snapshot
+   SDKMACHINE =
+   SDKIMAGE_FEATURES = dev-pkgs dbg-pkgs
+   BAD_RECOMMENDATIONS =
+   SDKSIZE = 352712
+
+Other than ``SDKSIZE``, which is
+the total size of the files in the SDK in Kbytes, the name-value pairs
+are variables that might have influenced the content of the SDK. This
+information is often useful when you are trying to determine why a
+change in the package or file listings has occurred.
+
+Examining Build History Information
+-----------------------------------
+
+You can examine build history output from the command line or from a web
+interface.
+
+To see any changes that have occurred (assuming you have
+:term:`BUILDHISTORY_COMMIT` = "1"),
+you can simply use any Git command that allows you to view the history
+of a repository. Here is one method::
+
+   $ git log -p
+
+You need to realize,
+however, that this method does show changes that are not significant
+(e.g. a package's size changing by a few bytes).
+
+There is a command-line tool called ``buildhistory-diff``, though,
+that queries the Git repository and prints just the differences that
+might be significant in human-readable form. Here is an example::
+
+   $ poky/poky/scripts/buildhistory-diff . HEAD^
+   Changes to images/qemux86_64/glibc/core-image-minimal (files-in-image.txt):
+      /etc/anotherpkg.conf was added
+      /sbin/anotherpkg was added
+      * (installed-package-names.txt):
+      *   anotherpkg was added
+   Changes to images/qemux86_64/glibc/core-image-minimal (installed-package-names.txt):
+      anotherpkg was added
+   packages/qemux86_64-poky-linux/v86d: PACKAGES: added "v86d-extras"
+      * PR changed from "r0" to "r1"
+      * PV changed from "0.1.10" to "0.1.12"
+   packages/qemux86_64-poky-linux/v86d/v86d: PKGSIZE changed from 110579 to 144381 (+30%)
+      * PR changed from "r0" to "r1"
+      * PV changed from "0.1.10" to "0.1.12"
+
+.. note::
+
+   The ``buildhistory-diff`` tool requires the ``GitPython``
+   package. Be sure to install it using Pip3 as follows::
+
+         $ pip3 install GitPython --user
+
+
+   Alternatively, you can install ``python3-git`` using the appropriate
+   distribution package manager (e.g. ``apt``, ``dnf``, or ``zipper``).
+
+To see changes to the build history using a web interface, follow the
+instruction in the ``README`` file
+:yocto_git:`here </buildhistory-web/>`.
+
+Here is a sample screenshot of the interface:
+
+.. image:: figures/buildhistory-web.png
+   :width: 100%
+
--- a/documentation/dev-manual/building.rst
+++ b/documentation/dev-manual/building.rst
@@ -0,0 +1,939 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Building
+********
+
+This section describes various build procedures, such as the steps
+needed for a simple build, building a target for multiple configurations,
+generating an image for more than one machine, and so forth.
+
+Building a Simple Image
+=======================
+
+In the development environment, you need to build an image whenever you
+change hardware support, add or change system libraries, or add or
+change services that have dependencies. There are several methods that allow
+you to build an image within the Yocto Project. This section presents
+the basic steps you need to build a simple image using BitBake from a
+build host running Linux.
+
+.. note::
+
+   -  For information on how to build an image using
+      :term:`Toaster`, see the
+      :doc:`/toaster-manual/index`.
+
+   -  For information on how to use ``devtool`` to build images, see the
+      ":ref:`sdk-manual/extensible:using \`\`devtool\`\` in your sdk workflow`"
+      section in the Yocto Project Application Development and the
+      Extensible Software Development Kit (eSDK) manual.
+
+   -  For a quick example on how to build an image using the
+      OpenEmbedded build system, see the
+      :doc:`/brief-yoctoprojectqs/index` document.
+
+The build process creates an entire Linux distribution from source and
+places it in your :term:`Build Directory` under ``tmp/deploy/images``. For
+detailed information on the build process using BitBake, see the
+":ref:`overview-manual/concepts:images`" section in the Yocto Project Overview
+and Concepts Manual.
+
+The following figure and list overviews the build process:
+
+.. image:: figures/bitbake-build-flow.png
+   :width: 100%
+
+#. *Set up Your Host Development System to Support Development Using the
+   Yocto Project*: See the ":doc:`start`" section for options on how to get a
+   build host ready to use the Yocto Project.
+
+#. *Initialize the Build Environment:* Initialize the build environment
+   by sourcing the build environment script (i.e.
+   :ref:`structure-core-script`)::
+
+      $ source oe-init-build-env [build_dir]
+
+   When you use the initialization script, the OpenEmbedded build system
+   uses ``build`` as the default :term:`Build Directory` in your current work
+   directory. You can use a `build_dir` argument with the script to
+   specify a different :term:`Build Directory`.
+
+   .. note::
+
+      A common practice is to use a different :term:`Build Directory` for
+      different targets; for example, ``~/build/x86`` for a ``qemux86``
+      target, and ``~/build/arm`` for a ``qemuarm`` target. In any
+      event, it's typically cleaner to locate the :term:`Build Directory`
+      somewhere outside of your source directory.
+
+#. *Make Sure Your* ``local.conf`` *File is Correct*: Ensure the
+   ``conf/local.conf`` configuration file, which is found in the
+   :term:`Build Directory`, is set up how you want it. This file defines many
+   aspects of the build environment including the target machine architecture
+   through the :term:`MACHINE` variable, the packaging format used during
+   the build (:term:`PACKAGE_CLASSES`), and a centralized tarball download
+   directory through the :term:`DL_DIR` variable.
+
+#. *Build the Image:* Build the image using the ``bitbake`` command::
+
+      $ bitbake target
+
+   .. note::
+
+      For information on BitBake, see the :doc:`bitbake:index`.
+
+   The target is the name of the recipe you want to build. Common
+   targets are the images in ``meta/recipes-core/images``,
+   ``meta/recipes-sato/images``, and so forth all found in the
+   :term:`Source Directory`. Alternatively, the target
+   can be the name of a recipe for a specific piece of software such as
+   BusyBox. For more details about the images the OpenEmbedded build
+   system supports, see the
+   ":ref:`ref-manual/images:Images`" chapter in the Yocto
+   Project Reference Manual.
+
+   As an example, the following command builds the
+   ``core-image-minimal`` image::
+
+      $ bitbake core-image-minimal
+
+   Once an
+   image has been built, it often needs to be installed. The images and
+   kernels built by the OpenEmbedded build system are placed in the
+   :term:`Build Directory` in ``tmp/deploy/images``. For information on how to
+   run pre-built images such as ``qemux86`` and ``qemuarm``, see the
+   :doc:`/sdk-manual/index` manual. For
+   information about how to install these images, see the documentation
+   for your particular board or machine.
+
+Building Images for Multiple Targets Using Multiple Configurations
+==================================================================
+
+You can use a single ``bitbake`` command to build multiple images or
+packages for different targets where each image or package requires a
+different configuration (multiple configuration builds). The builds, in
+this scenario, are sometimes referred to as "multiconfigs", and this
+section uses that term throughout.
+
+This section describes how to set up for multiple configuration builds
+and how to account for cross-build dependencies between the
+multiconfigs.
+
+Setting Up and Running a Multiple Configuration Build
+-----------------------------------------------------
+
+To accomplish a multiple configuration build, you must define each
+target's configuration separately using a parallel configuration file in
+the :term:`Build Directory` or configuration directory within a layer, and you
+must follow a required file hierarchy. Additionally, you must enable the
+multiple configuration builds in your ``local.conf`` file.
+
+Follow these steps to set up and execute multiple configuration builds:
+
+-  *Create Separate Configuration Files*: You need to create a single
+   configuration file for each build target (each multiconfig).
+   The configuration definitions are implementation dependent but often
+   each configuration file will define the machine and the
+   temporary directory BitBake uses for the build. Whether the same
+   temporary directory (:term:`TMPDIR`) can be shared will depend on what is
+   similar and what is different between the configurations. Multiple MACHINE
+   targets can share the same (:term:`TMPDIR`) as long as the rest of the
+   configuration is the same, multiple :term:`DISTRO` settings would need separate
+   (:term:`TMPDIR`) directories.
+
+   For example, consider a scenario with two different multiconfigs for the same
+   :term:`MACHINE`: "qemux86" built
+   for two distributions such as "poky" and "poky-lsb". In this case,
+   you would need to use the different :term:`TMPDIR`.
+
+   Here is an example showing the minimal statements needed in a
+   configuration file for a "qemux86" target whose temporary build
+   directory is ``tmpmultix86``::
+
+      MACHINE = "qemux86"
+      TMPDIR = "${TOPDIR}/tmpmultix86"
+
+   The location for these multiconfig configuration files is specific.
+   They must reside in the current :term:`Build Directory` in a sub-directory of
+   ``conf`` named ``multiconfig`` or within a layer's ``conf`` directory
+   under a directory named ``multiconfig``. Following is an example that defines
+   two configuration files for the "x86" and "arm" multiconfigs:
+
+   .. image:: figures/multiconfig_files.png
+      :align: center
+      :width: 50%
+
+   The usual :term:`BBPATH` search path is used to locate multiconfig files in
+   a similar way to other conf files.
+
+-  *Add the BitBake Multi-configuration Variable to the Local
+   Configuration File*: Use the
+   :term:`BBMULTICONFIG`
+   variable in your ``conf/local.conf`` configuration file to specify
+   each multiconfig. Continuing with the example from the previous
+   figure, the :term:`BBMULTICONFIG` variable needs to enable two
+   multiconfigs: "x86" and "arm" by specifying each configuration file::
+
+      BBMULTICONFIG = "x86 arm"
+
+   .. note::
+
+      A "default" configuration already exists by definition. This
+      configuration is named: "" (i.e. empty string) and is defined by
+      the variables coming from your ``local.conf``
+      file. Consequently, the previous example actually adds two
+      additional configurations to your build: "arm" and "x86" along
+      with "".
+
+-  *Launch BitBake*: Use the following BitBake command form to launch
+   the multiple configuration build::
+
+      $ bitbake [mc:multiconfigname:]target [[[mc:multiconfigname:]target] ... ]
+
+   For the example in this section, the following command applies::
+
+      $ bitbake mc:x86:core-image-minimal mc:arm:core-image-sato mc::core-image-base
+
+   The previous BitBake command builds a ``core-image-minimal`` image
+   that is configured through the ``x86.conf`` configuration file, a
+   ``core-image-sato`` image that is configured through the ``arm.conf``
+   configuration file and a ``core-image-base`` that is configured
+   through your ``local.conf`` configuration file.
+
+.. note::
+
+   Support for multiple configuration builds in the Yocto Project &DISTRO;
+   (&DISTRO_NAME;) Release does not include Shared State (sstate)
+   optimizations. Consequently, if a build uses the same object twice
+   in, for example, two different :term:`TMPDIR`
+   directories, the build either loads from an existing sstate cache for
+   that build at the start or builds the object fresh.
+
+Enabling Multiple Configuration Build Dependencies
+--------------------------------------------------
+
+Sometimes dependencies can exist between targets (multiconfigs) in a
+multiple configuration build. For example, suppose that in order to
+build a ``core-image-sato`` image for an "x86" multiconfig, the root
+filesystem of an "arm" multiconfig must exist. This dependency is
+essentially that the
+:ref:`ref-tasks-image` task in the
+``core-image-sato`` recipe depends on the completion of the
+:ref:`ref-tasks-rootfs` task of the
+``core-image-minimal`` recipe.
+
+To enable dependencies in a multiple configuration build, you must
+declare the dependencies in the recipe using the following statement
+form::
+
+   task_or_package[mcdepends] = "mc:from_multiconfig:to_multiconfig:recipe_name:task_on_which_to_depend"
+
+To better show how to use this statement, consider the example scenario
+from the first paragraph of this section. The following statement needs
+to be added to the recipe that builds the ``core-image-sato`` image::
+
+   do_image[mcdepends] = "mc:x86:arm:core-image-minimal:do_rootfs"
+
+In this example, the `from_multiconfig` is "x86". The `to_multiconfig` is "arm". The
+task on which the :ref:`ref-tasks-image` task in the recipe depends is the
+:ref:`ref-tasks-rootfs` task from the ``core-image-minimal`` recipe associated
+with the "arm" multiconfig.
+
+Once you set up this dependency, you can build the "x86" multiconfig
+using a BitBake command as follows::
+
+   $ bitbake mc:x86:core-image-sato
+
+This command executes all the tasks needed to create the
+``core-image-sato`` image for the "x86" multiconfig. Because of the
+dependency, BitBake also executes through the :ref:`ref-tasks-rootfs` task for the
+"arm" multiconfig build.
+
+Having a recipe depend on the root filesystem of another build might not
+seem that useful. Consider this change to the statement in the
+``core-image-sato`` recipe::
+
+   do_image[mcdepends] = "mc:x86:arm:core-image-minimal:do_image"
+
+In this case, BitBake must
+create the ``core-image-minimal`` image for the "arm" build since the
+"x86" build depends on it.
+
+Because "x86" and "arm" are enabled for multiple configuration builds
+and have separate configuration files, BitBake places the artifacts for
+each build in the respective temporary build directories (i.e.
+:term:`TMPDIR`).
+
+Building an Initial RAM Filesystem (Initramfs) Image
+====================================================
+
+An initial RAM filesystem (:term:`Initramfs`) image provides a temporary root
+filesystem used for early system initialization, typically providing tools and
+loading modules needed to locate and mount the final root filesystem.
+
+Follow these steps to create an :term:`Initramfs` image:
+
+#. *Create the Initramfs Image Recipe:* You can reference the
+   ``core-image-minimal-initramfs.bb`` recipe found in the
+   ``meta/recipes-core`` directory of the :term:`Source Directory`
+   as an example from which to work.
+
+#. *Decide if You Need to Bundle the Initramfs Image Into the Kernel
+   Image:* If you want the :term:`Initramfs` image that is built to be bundled
+   in with the kernel image, set the :term:`INITRAMFS_IMAGE_BUNDLE`
+   variable to ``"1"`` in your ``local.conf`` configuration file and set the
+   :term:`INITRAMFS_IMAGE` variable in the recipe that builds the kernel image.
+
+   Setting the :term:`INITRAMFS_IMAGE_BUNDLE` flag causes the :term:`Initramfs`
+   image to be unpacked into the ``${B}/usr/`` directory. The unpacked
+   :term:`Initramfs` image is then passed to the kernel's ``Makefile`` using the
+   :term:`CONFIG_INITRAMFS_SOURCE` variable, allowing the :term:`Initramfs`
+   image to be built into the kernel normally.
+
+#. *Optionally Add Items to the Initramfs Image Through the Initramfs
+   Image Recipe:* If you add items to the :term:`Initramfs` image by way of its
+   recipe, you should use :term:`PACKAGE_INSTALL` rather than
+   :term:`IMAGE_INSTALL`. :term:`PACKAGE_INSTALL` gives more direct control of
+   what is added to the image as compared to the defaults you might not
+   necessarily want that are set by the :ref:`ref-classes-image`
+   or :ref:`ref-classes-core-image` classes.
+
+#. *Build the Kernel Image and the Initramfs Image:* Build your kernel
+   image using BitBake. Because the :term:`Initramfs` image recipe is a
+   dependency of the kernel image, the :term:`Initramfs` image is built as well
+   and bundled with the kernel image if you used the
+   :term:`INITRAMFS_IMAGE_BUNDLE` variable described earlier.
+
+Bundling an Initramfs Image From a Separate Multiconfig
+-------------------------------------------------------
+
+There may be a case where we want to build an :term:`Initramfs` image which does not
+inherit the same distro policy as our main image, for example, we may want
+our main image to use ``TCLIBC="glibc"``, but to use ``TCLIBC="musl"`` in our :term:`Initramfs`
+image to keep a smaller footprint. However, by performing the steps mentioned
+above the :term:`Initramfs` image will inherit ``TCLIBC="glibc"`` without allowing us
+to override it.
+
+To achieve this, you need to perform some additional steps:
+
+#. *Create a multiconfig for your Initramfs image:* You can perform the steps
+   on ":ref:`dev-manual/building:building images for multiple targets using multiple configurations`" to create a separate multiconfig.
+   For the sake of simplicity let's assume such multiconfig is called: ``initramfscfg.conf`` and
+   contains the variables::
+
+      TMPDIR="${TOPDIR}/tmp-initramfscfg"
+      TCLIBC="musl"
+
+#. *Set additional Initramfs variables on your main configuration:*
+   Additionally, on your main configuration (``local.conf``) you need to set the
+   variables::
+
+     INITRAMFS_MULTICONFIG = "initramfscfg"
+     INITRAMFS_DEPLOY_DIR_IMAGE = "${TOPDIR}/tmp-initramfscfg/deploy/images/${MACHINE}"
+
+   The variables :term:`INITRAMFS_MULTICONFIG` and :term:`INITRAMFS_DEPLOY_DIR_IMAGE`
+   are used to create a multiconfig dependency from the kernel to the :term:`INITRAMFS_IMAGE`
+   to be built coming from the ``initramfscfg`` multiconfig, and to let the
+   buildsystem know where the :term:`INITRAMFS_IMAGE` will be located.
+
+   Building a system with such configuration will build the kernel using the
+   main configuration but the :ref:`ref-tasks-bundle_initramfs` task will grab the
+   selected :term:`INITRAMFS_IMAGE` from :term:`INITRAMFS_DEPLOY_DIR_IMAGE`
+   instead, resulting in a musl based :term:`Initramfs` image bundled in the kernel
+   but a glibc based main image.
+
+   The same is applicable to avoid inheriting :term:`DISTRO_FEATURES` on :term:`INITRAMFS_IMAGE`
+   or to build a different :term:`DISTRO` for it such as ``poky-tiny``.
+
+
+Building a Tiny System
+======================
+
+Very small distributions have some significant advantages such as
+requiring less on-die or in-package memory (cheaper), better performance
+through efficient cache usage, lower power requirements due to less
+memory, faster boot times, and reduced development overhead. Some
+real-world examples where a very small distribution gives you distinct
+advantages are digital cameras, medical devices, and small headless
+systems.
+
+This section presents information that shows you how you can trim your
+distribution to even smaller sizes than the ``poky-tiny`` distribution,
+which is around 5 Mbytes, that can be built out-of-the-box using the
+Yocto Project.
+
+Tiny System Overview
+--------------------
+
+The following list presents the overall steps you need to consider and
+perform to create distributions with smaller root filesystems, achieve
+faster boot times, maintain your critical functionality, and avoid
+initial RAM disks:
+
+-  :ref:`Determine your goals and guiding principles
+   <dev-manual/building:goals and guiding principles>`
+
+-  :ref:`dev-manual/building:understand what contributes to your image size`
+
+-  :ref:`Reduce the size of the root filesystem
+   <dev-manual/building:trim the root filesystem>`
+
+-  :ref:`Reduce the size of the kernel <dev-manual/building:trim the kernel>`
+
+-  :ref:`dev-manual/building:remove package management requirements`
+
+-  :ref:`dev-manual/building:look for other ways to minimize size`
+
+-  :ref:`dev-manual/building:iterate on the process`
+
+Goals and Guiding Principles
+----------------------------
+
+Before you can reach your destination, you need to know where you are
+going. Here is an example list that you can use as a guide when creating
+very small distributions:
+
+-  Determine how much space you need (e.g. a kernel that is 1 Mbyte or
+   less and a root filesystem that is 3 Mbytes or less).
+
+-  Find the areas that are currently taking 90% of the space and
+   concentrate on reducing those areas.
+
+-  Do not create any difficult "hacks" to achieve your goals.
+
+-  Leverage the device-specific options.
+
+-  Work in a separate layer so that you keep changes isolated. For
+   information on how to create layers, see the
+   ":ref:`dev-manual/layers:understanding and creating layers`" section.
+
+Understand What Contributes to Your Image Size
+----------------------------------------------
+
+It is easiest to have something to start with when creating your own
+distribution. You can use the Yocto Project out-of-the-box to create the
+``poky-tiny`` distribution. Ultimately, you will want to make changes in
+your own distribution that are likely modeled after ``poky-tiny``.
+
+.. note::
+
+   To use ``poky-tiny`` in your build, set the :term:`DISTRO` variable in your
+   ``local.conf`` file to "poky-tiny" as described in the
+   ":ref:`dev-manual/custom-distribution:creating your own distribution`"
+   section.
+
+Understanding some memory concepts will help you reduce the system size.
+Memory consists of static, dynamic, and temporary memory. Static memory
+is the TEXT (code), DATA (initialized data in the code), and BSS
+(uninitialized data) sections. Dynamic memory represents memory that is
+allocated at runtime: stacks, hash tables, and so forth. Temporary
+memory is recovered after the boot process. This memory consists of
+memory used for decompressing the kernel and for the ``__init__``
+functions.
+
+To help you see where you currently are with kernel and root filesystem
+sizes, you can use two tools found in the :term:`Source Directory`
+in the
+``scripts/tiny/`` directory:
+
+-  ``ksize.py``: Reports component sizes for the kernel build objects.
+
+-  ``dirsize.py``: Reports component sizes for the root filesystem.
+
+This next tool and command help you organize configuration fragments and
+view file dependencies in a human-readable form:
+
+-  ``merge_config.sh``: Helps you manage configuration files and
+   fragments within the kernel. With this tool, you can merge individual
+   configuration fragments together. The tool allows you to make
+   overrides and warns you of any missing configuration options. The
+   tool is ideal for allowing you to iterate on configurations, create
+   minimal configurations, and create configuration files for different
+   machines without having to duplicate your process.
+
+   The ``merge_config.sh`` script is part of the Linux Yocto kernel Git
+   repositories (i.e. ``linux-yocto-3.14``, ``linux-yocto-3.10``,
+   ``linux-yocto-3.8``, and so forth) in the ``scripts/kconfig``
+   directory.
+
+   For more information on configuration fragments, see the
+   ":ref:`kernel-dev/common:creating configuration fragments`"
+   section in the Yocto Project Linux Kernel Development Manual.
+
+-  ``bitbake -u taskexp -g bitbake_target``: Using the BitBake command
+   with these options brings up a Dependency Explorer from which you can
+   view file dependencies. Understanding these dependencies allows you
+   to make informed decisions when cutting out various pieces of the
+   kernel and root filesystem.
+
+Trim the Root Filesystem
+------------------------
+
+The root filesystem is made up of packages for booting, libraries, and
+applications. To change things, you can configure how the packaging
+happens, which changes the way you build them. You can also modify the
+filesystem itself or select a different filesystem.
+
+First, find out what is hogging your root filesystem by running the
+``dirsize.py`` script from your root directory::
+
+   $ cd root-directory-of-image
+   $ dirsize.py 100000 > dirsize-100k.log
+   $ cat dirsize-100k.log
+
+You can apply a filter to the script to ignore files
+under a certain size. The previous example filters out any files below
+100 Kbytes. The sizes reported by the tool are uncompressed, and thus
+will be smaller by a relatively constant factor in a compressed root
+filesystem. When you examine your log file, you can focus on areas of
+the root filesystem that take up large amounts of memory.
+
+You need to be sure that what you eliminate does not cripple the
+functionality you need. One way to see how packages relate to each other
+is by using the Dependency Explorer UI with the BitBake command::
+
+   $ cd image-directory
+   $ bitbake -u taskexp -g image
+
+Use the interface to
+select potential packages you wish to eliminate and see their dependency
+relationships.
+
+When deciding how to reduce the size, get rid of packages that result in
+minimal impact on the feature set. For example, you might not need a VGA
+display. Or, you might be able to get by with ``devtmpfs`` and ``mdev``
+instead of ``udev``.
+
+Use your ``local.conf`` file to make changes. For example, to eliminate
+``udev`` and ``glib``, set the following in the local configuration
+file::
+
+   VIRTUAL-RUNTIME_dev_manager = ""
+
+Finally, you should consider exactly the type of root filesystem you
+need to meet your needs while also reducing its size. For example,
+consider ``cramfs``, ``squashfs``, ``ubifs``, ``ext2``, or an
+:term:`Initramfs` using ``initramfs``. Be aware that ``ext3`` requires a 1
+Mbyte journal. If you are okay with running read-only, you do not need
+this journal.
+
+.. note::
+
+   After each round of elimination, you need to rebuild your system and
+   then use the tools to see the effects of your reductions.
+
+Trim the Kernel
+---------------
+
+The kernel is built by including policies for hardware-independent
+aspects. What subsystems do you enable? For what architecture are you
+building? Which drivers do you build by default?
+
+.. note::
+
+   You can modify the kernel source if you want to help with boot time.
+
+Run the ``ksize.py`` script from the top-level Linux build directory to
+get an idea of what is making up the kernel::
+
+   $ cd top-level-linux-build-directory
+   $ ksize.py > ksize.log
+   $ cat ksize.log
+
+When you examine the log, you will see how much space is taken up with
+the built-in ``.o`` files for drivers, networking, core kernel files,
+filesystem, sound, and so forth. The sizes reported by the tool are
+uncompressed, and thus will be smaller by a relatively constant factor
+in a compressed kernel image. Look to reduce the areas that are large
+and taking up around the "90% rule."
+
+To examine, or drill down, into any particular area, use the ``-d``
+option with the script::
+
+   $ ksize.py -d > ksize.log
+
+Using this option
+breaks out the individual file information for each area of the kernel
+(e.g. drivers, networking, and so forth).
+
+Use your log file to see what you can eliminate from the kernel based on
+features you can let go. For example, if you are not going to need
+sound, you do not need any drivers that support sound.
+
+After figuring out what to eliminate, you need to reconfigure the kernel
+to reflect those changes during the next build. You could run
+``menuconfig`` and make all your changes at once. However, that makes it
+difficult to see the effects of your individual eliminations and also
+makes it difficult to replicate the changes for perhaps another target
+device. A better method is to start with no configurations using
+``allnoconfig``, create configuration fragments for individual changes,
+and then manage the fragments into a single configuration file using
+``merge_config.sh``. The tool makes it easy for you to iterate using the
+configuration change and build cycle.
+
+Each time you make configuration changes, you need to rebuild the kernel
+and check to see what impact your changes had on the overall size.
+
+Remove Package Management Requirements
+--------------------------------------
+
+Packaging requirements add size to the image. One way to reduce the size
+of the image is to remove all the packaging requirements from the image.
+This reduction includes both removing the package manager and its unique
+dependencies as well as removing the package management data itself.
+
+To eliminate all the packaging requirements for an image, be sure that
+"package-management" is not part of your
+:term:`IMAGE_FEATURES`
+statement for the image. When you remove this feature, you are removing
+the package manager as well as its dependencies from the root
+filesystem.
+
+Look for Other Ways to Minimize Size
+------------------------------------
+
+Depending on your particular circumstances, other areas that you can
+trim likely exist. The key to finding these areas is through tools and
+methods described here combined with experimentation and iteration. Here
+are a couple of areas to experiment with:
+
+-  ``glibc``: In general, follow this process:
+
+   #. Remove ``glibc`` features from
+      :term:`DISTRO_FEATURES`
+      that you think you do not need.
+
+   #. Build your distribution.
+
+   #. If the build fails due to missing symbols in a package, determine
+      if you can reconfigure the package to not need those features. For
+      example, change the configuration to not support wide character
+      support as is done for ``ncurses``. Or, if support for those
+      characters is needed, determine what ``glibc`` features provide
+      the support and restore the configuration.
+
+   4. Rebuild and repeat the process.
+
+-  ``busybox``: For BusyBox, use a process similar as described for
+   ``glibc``. A difference is you will need to boot the resulting system
+   to see if you are able to do everything you expect from the running
+   system. You need to be sure to integrate configuration fragments into
+   Busybox because BusyBox handles its own core features and then allows
+   you to add configuration fragments on top.
+
+Iterate on the Process
+----------------------
+
+If you have not reached your goals on system size, you need to iterate
+on the process. The process is the same. Use the tools and see just what
+is taking up 90% of the root filesystem and the kernel. Decide what you
+can eliminate without limiting your device beyond what you need.
+
+Depending on your system, a good place to look might be Busybox, which
+provides a stripped down version of Unix tools in a single, executable
+file. You might be able to drop virtual terminal services or perhaps
+ipv6.
+
+Building Images for More than One Machine
+=========================================
+
+A common scenario developers face is creating images for several
+different machines that use the same software environment. In this
+situation, it is tempting to set the tunings and optimization flags for
+each build specifically for the targeted hardware (i.e. "maxing out" the
+tunings). Doing so can considerably add to build times and package feed
+maintenance collectively for the machines. For example, selecting tunes
+that are extremely specific to a CPU core used in a system might enable
+some micro optimizations in GCC for that particular system but would
+otherwise not gain you much of a performance difference across the other
+systems as compared to using a more general tuning across all the builds
+(e.g. setting :term:`DEFAULTTUNE`
+specifically for each machine's build). Rather than "max out" each
+build's tunings, you can take steps that cause the OpenEmbedded build
+system to reuse software across the various machines where it makes
+sense.
+
+If build speed and package feed maintenance are considerations, you
+should consider the points in this section that can help you optimize
+your tunings to best consider build times and package feed maintenance.
+
+-  *Share the :term:`Build Directory`:* If at all possible, share the
+   :term:`TMPDIR` across builds. The Yocto Project supports switching between
+   different :term:`MACHINE` values in the same :term:`TMPDIR`. This practice
+   is well supported and regularly used by developers when building for
+   multiple machines. When you use the same :term:`TMPDIR` for multiple
+   machine builds, the OpenEmbedded build system can reuse the existing native
+   and often cross-recipes for multiple machines. Thus, build time decreases.
+
+   .. note::
+
+      If :term:`DISTRO` settings change or fundamental configuration settings
+      such as the filesystem layout, you need to work with a clean :term:`TMPDIR`.
+      Sharing :term:`TMPDIR` under these circumstances might work but since it is
+      not guaranteed, you should use a clean :term:`TMPDIR`.
+
+-  *Enable the Appropriate Package Architecture:* By default, the
+   OpenEmbedded build system enables three levels of package
+   architectures: "all", "tune" or "package", and "machine". Any given
+   recipe usually selects one of these package architectures (types) for
+   its output. Depending for what a given recipe creates packages,
+   making sure you enable the appropriate package architecture can
+   directly impact the build time.
+
+   A recipe that just generates scripts can enable "all" architecture
+   because there are no binaries to build. To specifically enable "all"
+   architecture, be sure your recipe inherits the
+   :ref:`ref-classes-allarch` class.
+   This class is useful for "all" architectures because it configures
+   many variables so packages can be used across multiple architectures.
+
+   If your recipe needs to generate packages that are machine-specific
+   or when one of the build or runtime dependencies is already
+   machine-architecture dependent, which makes your recipe also
+   machine-architecture dependent, make sure your recipe enables the
+   "machine" package architecture through the
+   :term:`MACHINE_ARCH`
+   variable::
+
+      PACKAGE_ARCH = "${MACHINE_ARCH}"
+
+   When you do not
+   specifically enable a package architecture through the
+   :term:`PACKAGE_ARCH`, The
+   OpenEmbedded build system defaults to the
+   :term:`TUNE_PKGARCH` setting::
+
+      PACKAGE_ARCH = "${TUNE_PKGARCH}"
+
+-  *Choose a Generic Tuning File if Possible:* Some tunes are more
+   generic and can run on multiple targets (e.g. an ``armv5`` set of
+   packages could run on ``armv6`` and ``armv7`` processors in most
+   cases). Similarly, ``i486`` binaries could work on ``i586`` and
+   higher processors. You should realize, however, that advances on
+   newer processor versions would not be used.
+
+   If you select the same tune for several different machines, the
+   OpenEmbedded build system reuses software previously built, thus
+   speeding up the overall build time. Realize that even though a new
+   sysroot for each machine is generated, the software is not recompiled
+   and only one package feed exists.
+
+-  *Manage Granular Level Packaging:* Sometimes there are cases where
+   injecting another level of package architecture beyond the three
+   higher levels noted earlier can be useful. For example, consider how
+   NXP (formerly Freescale) allows for the easy reuse of binary packages
+   in their layer
+   :yocto_git:`meta-freescale </meta-freescale/>`.
+   In this example, the
+   :yocto_git:`fsl-dynamic-packagearch </meta-freescale/tree/classes/fsl-dynamic-packagearch.bbclass>`
+   class shares GPU packages for i.MX53 boards because all boards share
+   the AMD GPU. The i.MX6-based boards can do the same because all
+   boards share the Vivante GPU. This class inspects the BitBake
+   datastore to identify if the package provides or depends on one of
+   the sub-architecture values. If so, the class sets the
+   :term:`PACKAGE_ARCH` value
+   based on the ``MACHINE_SUBARCH`` value. If the package does not
+   provide or depend on one of the sub-architecture values but it
+   matches a value in the machine-specific filter, it sets
+   :term:`MACHINE_ARCH`. This
+   behavior reduces the number of packages built and saves build time by
+   reusing binaries.
+
+-  *Use Tools to Debug Issues:* Sometimes you can run into situations
+   where software is being rebuilt when you think it should not be. For
+   example, the OpenEmbedded build system might not be using shared
+   state between machines when you think it should be. These types of
+   situations are usually due to references to machine-specific
+   variables such as :term:`MACHINE`,
+   :term:`SERIAL_CONSOLES`,
+   :term:`XSERVER`,
+   :term:`MACHINE_FEATURES`,
+   and so forth in code that is supposed to only be tune-specific or
+   when the recipe depends
+   (:term:`DEPENDS`,
+   :term:`RDEPENDS`,
+   :term:`RRECOMMENDS`,
+   :term:`RSUGGESTS`, and so forth)
+   on some other recipe that already has
+   :term:`PACKAGE_ARCH` defined
+   as "${MACHINE_ARCH}".
+
+   .. note::
+
+      Patches to fix any issues identified are most welcome as these
+      issues occasionally do occur.
+
+   For such cases, you can use some tools to help you sort out the
+   situation:
+
+   -  ``state-diff-machines.sh``*:* You can find this tool in the
+      ``scripts`` directory of the Source Repositories. See the comments
+      in the script for information on how to use the tool.
+
+   -  *BitBake's "-S printdiff" Option:* Using this option causes
+      BitBake to try to establish the closest signature match it can
+      (e.g. in the shared state cache) and then run ``bitbake-diffsigs``
+      over the matches to determine the stamps and delta where these two
+      stamp trees diverge.
+
+Building Software from an External Source
+=========================================
+
+By default, the OpenEmbedded build system uses the :term:`Build Directory`
+when building source code. The build process involves fetching the source
+files, unpacking them, and then patching them if necessary before the build
+takes place.
+
+There are situations where you might want to build software from source
+files that are external to and thus outside of the OpenEmbedded build
+system. For example, suppose you have a project that includes a new BSP
+with a heavily customized kernel. And, you want to minimize exposing the
+build system to the development team so that they can focus on their
+project and maintain everyone's workflow as much as possible. In this
+case, you want a kernel source directory on the development machine
+where the development occurs. You want the recipe's
+:term:`SRC_URI` variable to point to
+the external directory and use it as is, not copy it.
+
+To build from software that comes from an external source, all you need to do
+is inherit the :ref:`ref-classes-externalsrc` class and then set
+the :term:`EXTERNALSRC` variable to point to your external source code. Here
+are the statements to put in your ``local.conf`` file::
+
+   INHERIT += "externalsrc"
+   EXTERNALSRC:pn-myrecipe = "path-to-your-source-tree"
+
+This next example shows how to accomplish the same thing by setting
+:term:`EXTERNALSRC` in the recipe itself or in the recipe's append file::
+
+   EXTERNALSRC = "path"
+   EXTERNALSRC_BUILD = "path"
+
+.. note::
+
+   In order for these settings to take effect, you must globally or
+   locally inherit the :ref:`ref-classes-externalsrc` class.
+
+By default, :ref:`ref-classes-externalsrc` builds the source code in a
+directory separate from the external source directory as specified by
+:term:`EXTERNALSRC`. If you need
+to have the source built in the same directory in which it resides, or
+some other nominated directory, you can set
+:term:`EXTERNALSRC_BUILD`
+to point to that directory::
+
+   EXTERNALSRC_BUILD:pn-myrecipe = "path-to-your-source-tree"
+
+Replicating a Build Offline
+===========================
+
+It can be useful to take a "snapshot" of upstream sources used in a
+build and then use that "snapshot" later to replicate the build offline.
+To do so, you need to first prepare and populate your downloads
+directory your "snapshot" of files. Once your downloads directory is
+ready, you can use it at any time and from any machine to replicate your
+build.
+
+Follow these steps to populate your Downloads directory:
+
+#. *Create a Clean Downloads Directory:* Start with an empty downloads
+   directory (:term:`DL_DIR`). You
+   start with an empty downloads directory by either removing the files
+   in the existing directory or by setting :term:`DL_DIR` to point to either
+   an empty location or one that does not yet exist.
+
+#. *Generate Tarballs of the Source Git Repositories:* Edit your
+   ``local.conf`` configuration file as follows::
+
+      DL_DIR = "/home/your-download-dir/"
+      BB_GENERATE_MIRROR_TARBALLS = "1"
+
+   During
+   the fetch process in the next step, BitBake gathers the source files
+   and creates tarballs in the directory pointed to by :term:`DL_DIR`. See
+   the
+   :term:`BB_GENERATE_MIRROR_TARBALLS`
+   variable for more information.
+
+#. *Populate Your Downloads Directory Without Building:* Use BitBake to
+   fetch your sources but inhibit the build::
+
+      $ bitbake target --runonly=fetch
+
+   The downloads directory (i.e. ``${DL_DIR}``) now has
+   a "snapshot" of the source files in the form of tarballs, which can
+   be used for the build.
+
+#. *Optionally Remove Any Git or other SCM Subdirectories From the
+   Downloads Directory:* If you want, you can clean up your downloads
+   directory by removing any Git or other Source Control Management
+   (SCM) subdirectories such as ``${DL_DIR}/git2/*``. The tarballs
+   already contain these subdirectories.
+
+Once your downloads directory has everything it needs regarding source
+files, you can create your "own-mirror" and build your target.
+Understand that you can use the files to build the target offline from
+any machine and at any time.
+
+Follow these steps to build your target using the files in the downloads
+directory:
+
+#. *Using Local Files Only:* Inside your ``local.conf`` file, add the
+   :term:`SOURCE_MIRROR_URL` variable, inherit the
+   :ref:`ref-classes-own-mirrors` class, and use the
+   :term:`BB_NO_NETWORK` variable to your ``local.conf``::
+
+      SOURCE_MIRROR_URL ?= "file:///home/your-download-dir/"
+      INHERIT += "own-mirrors"
+      BB_NO_NETWORK = "1"
+
+   The :term:`SOURCE_MIRROR_URL` and :ref:`ref-classes-own-mirrors`
+   class set up the system to use the downloads directory as your "own
+   mirror". Using the :term:`BB_NO_NETWORK` variable makes sure that
+   BitBake's fetching process in step 3 stays local, which means files
+   from your "own-mirror" are used.
+
+#. *Start With a Clean Build:* You can start with a clean build by
+   removing the ``${``\ :term:`TMPDIR`\ ``}`` directory or using a new
+   :term:`Build Directory`.
+
+#. *Build Your Target:* Use BitBake to build your target::
+
+      $ bitbake target
+
+   The build completes using the known local "snapshot" of source
+   files from your mirror. The resulting tarballs for your "snapshot" of
+   source files are in the downloads directory.
+
+   .. note::
+
+      The offline build does not work if recipes attempt to find the
+      latest version of software by setting
+      :term:`SRCREV` to
+      ``${``\ :term:`AUTOREV`\ ``}``::
+
+         SRCREV = "${AUTOREV}"
+
+      When a recipe sets :term:`SRCREV` to
+      ``${``\ :term:`AUTOREV`\ ``}``, the build system accesses the network in an
+      attempt to determine the latest version of software from the SCM.
+      Typically, recipes that use :term:`AUTOREV` are custom or modified
+      recipes. Recipes that reside in public repositories usually do not
+      use :term:`AUTOREV`.
+
+      If you do have recipes that use :term:`AUTOREV`, you can take steps to
+      still use the recipes in an offline build. Do the following:
+
+      #. Use a configuration generated by enabling :ref:`build
+         history <dev-manual/build-quality:maintaining build output quality>`.
+
+      #. Use the ``buildhistory-collect-srcrevs`` command to collect the
+         stored :term:`SRCREV` values from the build's history. For more
+         information on collecting these values, see the
+         ":ref:`dev-manual/build-quality:build history package information`"
+         section.
+
+      #. Once you have the correct source revisions, you can modify
+         those recipes to set :term:`SRCREV` to specific versions of the
+         software.
+
--- a/documentation/dev-manual/common-tasks.rst
+++ b/documentation/dev-manual/common-tasks.rst
--- a/documentation/dev-manual/custom-distribution.rst
+++ b/documentation/dev-manual/custom-distribution.rst
@@ -0,0 +1,109 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Creating Your Own Distribution
+******************************
+
+When you build an image using the Yocto Project and do not alter any
+distribution :term:`Metadata`, you are
+creating a Poky distribution. If you wish to gain more control over
+package alternative selections, compile-time options, and other
+low-level configurations, you can create your own distribution.
+
+To create your own distribution, the basic steps consist of creating
+your own distribution layer, creating your own distribution
+configuration file, and then adding any needed code and Metadata to the
+layer. The following steps provide some more detail:
+
+-  *Create a layer for your new distro:* Create your distribution layer
+   so that you can keep your Metadata and code for the distribution
+   separate. It is strongly recommended that you create and use your own
+   layer for configuration and code. Using your own layer as compared to
+   just placing configurations in a ``local.conf`` configuration file
+   makes it easier to reproduce the same build configuration when using
+   multiple build machines. See the
+   ":ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`"
+   section for information on how to quickly set up a layer.
+
+-  *Create the distribution configuration file:* The distribution
+   configuration file needs to be created in the ``conf/distro``
+   directory of your layer. You need to name it using your distribution
+   name (e.g. ``mydistro.conf``).
+
+   .. note::
+
+      The :term:`DISTRO` variable in your ``local.conf`` file determines the
+      name of your distribution.
+
+   You can split out parts of your configuration file into include files
+   and then "require" them from within your distribution configuration
+   file. Be sure to place the include files in the
+   ``conf/distro/include`` directory of your layer. A common example
+   usage of include files would be to separate out the selection of
+   desired version and revisions for individual recipes.
+
+   Your configuration file needs to set the following required
+   variables:
+
+   - :term:`DISTRO_NAME`
+
+   - :term:`DISTRO_VERSION`
+
+   These following variables are optional and you typically set them
+   from the distribution configuration file:
+
+   - :term:`DISTRO_FEATURES`
+
+   - :term:`DISTRO_EXTRA_RDEPENDS`
+
+   - :term:`DISTRO_EXTRA_RRECOMMENDS`
+
+   - :term:`TCLIBC`
+
+   .. tip::
+
+      If you want to base your distribution configuration file on the
+      very basic configuration from OE-Core, you can use
+      ``conf/distro/defaultsetup.conf`` as a reference and just include
+      variables that differ as compared to ``defaultsetup.conf``.
+      Alternatively, you can create a distribution configuration file
+      from scratch using the ``defaultsetup.conf`` file or configuration files
+      from another distribution such as Poky as a reference.
+
+-  *Provide miscellaneous variables:* Be sure to define any other
+   variables for which you want to create a default or enforce as part
+   of the distribution configuration. You can include nearly any
+   variable from the ``local.conf`` file. The variables you use are not
+   limited to the list in the previous bulleted item.
+
+-  *Point to Your distribution configuration file:* In your ``local.conf``
+   file in the :term:`Build Directory`, set your :term:`DISTRO` variable to
+   point to your distribution's configuration file. For example, if your
+   distribution's configuration file is named ``mydistro.conf``, then
+   you point to it as follows::
+
+      DISTRO = "mydistro"
+
+-  *Add more to the layer if necessary:* Use your layer to hold other
+   information needed for the distribution:
+
+   -  Add recipes for installing distro-specific configuration files
+      that are not already installed by another recipe. If you have
+      distro-specific configuration files that are included by an
+      existing recipe, you should add an append file (``.bbappend``) for
+      those. For general information and recommendations on how to add
+      recipes to your layer, see the
+      ":ref:`dev-manual/layers:creating your own layer`" and
+      ":ref:`dev-manual/layers:following best practices when creating layers`"
+      sections.
+
+   -  Add any image recipes that are specific to your distribution.
+
+   -  Add a ``psplash`` append file for a branded splash screen, using
+      the :term:`SPLASH_IMAGES` variable.
+
+   -  Add any other append files to make custom changes that are
+      specific to individual recipes.
+
+   For information on append files, see the
+   ":ref:`dev-manual/layers:appending other layers metadata with your layer`"
+   section.
--- a/documentation/dev-manual/custom-template-configuration-directory.rst
+++ b/documentation/dev-manual/custom-template-configuration-directory.rst
@@ -0,0 +1,72 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Creating a Custom Template Configuration Directory
+**************************************************
+
+If you are producing your own customized version of the build system for
+use by other users, you might want to customize the message shown by the
+setup script or you might want to change the template configuration
+files (i.e. ``local.conf`` and ``bblayers.conf``) that are created in a
+new build directory.
+
+The OpenEmbedded build system uses the environment variable
+``TEMPLATECONF`` to locate the directory from which it gathers
+configuration information that ultimately ends up in the
+:term:`Build Directory` ``conf`` directory.
+By default, ``TEMPLATECONF`` is set as follows in the ``poky``
+repository::
+
+   TEMPLATECONF=${TEMPLATECONF:-meta-poky/conf}
+
+This is the
+directory used by the build system to find templates from which to build
+some key configuration files. If you look at this directory, you will
+see the ``bblayers.conf.sample``, ``local.conf.sample``, and
+``conf-notes.txt`` files. The build system uses these files to form the
+respective ``bblayers.conf`` file, ``local.conf`` file, and display the
+list of BitBake targets when running the setup script.
+
+To override these default configuration files with configurations you
+want used within every new Build Directory, simply set the
+``TEMPLATECONF`` variable to your directory. The ``TEMPLATECONF``
+variable is set in the ``.templateconf`` file, which is in the top-level
+:term:`Source Directory` folder
+(e.g. ``poky``). Edit the ``.templateconf`` so that it can locate your
+directory.
+
+Best practices dictate that you should keep your template configuration
+directory in your custom distribution layer. For example, suppose you
+have a layer named ``meta-mylayer`` located in your home directory and
+you want your template configuration directory named ``myconf``.
+Changing the ``.templateconf`` as follows causes the OpenEmbedded build
+system to look in your directory and base its configuration files on the
+``*.sample`` configuration files it finds. The final configuration files
+(i.e. ``local.conf`` and ``bblayers.conf`` ultimately still end up in
+your Build Directory, but they are based on your ``*.sample`` files.
+::
+
+   TEMPLATECONF=${TEMPLATECONF:-meta-mylayer/myconf}
+
+Aside from the ``*.sample`` configuration files, the ``conf-notes.txt``
+also resides in the default ``meta-poky/conf`` directory. The script
+that sets up the build environment (i.e.
+:ref:`structure-core-script`) uses this file to
+display BitBake targets as part of the script output. Customizing this
+``conf-notes.txt`` file is a good way to make sure your list of custom
+targets appears as part of the script's output.
+
+Here is the default list of targets displayed as a result of running
+either of the setup scripts::
+
+   You can now run 'bitbake <target>'
+
+   Common targets are:
+       core-image-minimal
+       core-image-sato
+       meta-toolchain
+       meta-ide-support
+
+Changing the listed common targets is as easy as editing your version of
+``conf-notes.txt`` in your custom template configuration directory and
+making sure you have ``TEMPLATECONF`` set to your directory.
+
--- a/documentation/dev-manual/customizing-images.rst
+++ b/documentation/dev-manual/customizing-images.rst
@@ -0,0 +1,223 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Customizing Images
+******************
+
+You can customize images to satisfy particular requirements. This
+section describes several methods and provides guidelines for each.
+
+Customizing Images Using ``local.conf``
+=======================================
+
+Probably the easiest way to customize an image is to add a package by
+way of the ``local.conf`` configuration file. Because it is limited to
+local use, this method generally only allows you to add packages and is
+not as flexible as creating your own customized image. When you add
+packages using local variables this way, you need to realize that these
+variable changes are in effect for every build and consequently affect
+all images, which might not be what you require.
+
+To add a package to your image using the local configuration file, use
+the :term:`IMAGE_INSTALL` variable with the ``:append`` operator::
+
+   IMAGE_INSTALL:append = " strace"
+
+Use of the syntax is important; specifically, the leading space
+after the opening quote and before the package name, which is
+``strace`` in this example. This space is required since the ``:append``
+operator does not add the space.
+
+Furthermore, you must use ``:append`` instead of the ``+=`` operator if
+you want to avoid ordering issues. The reason for this is because doing
+so unconditionally appends to the variable and avoids ordering problems
+due to the variable being set in image recipes and ``.bbclass`` files
+with operators like ``?=``. Using ``:append`` ensures the operation
+takes effect.
+
+As shown in its simplest use, ``IMAGE_INSTALL:append`` affects all
+images. It is possible to extend the syntax so that the variable applies
+to a specific image only. Here is an example::
+
+   IMAGE_INSTALL:append:pn-core-image-minimal = " strace"
+
+This example adds ``strace`` to the ``core-image-minimal`` image only.
+
+You can add packages using a similar approach through the
+:term:`CORE_IMAGE_EXTRA_INSTALL` variable. If you use this variable, only
+``core-image-*`` images are affected.
+
+Customizing Images Using Custom ``IMAGE_FEATURES`` and ``EXTRA_IMAGE_FEATURES``
+===============================================================================
+
+Another method for customizing your image is to enable or disable
+high-level image features by using the
+:term:`IMAGE_FEATURES` and
+:term:`EXTRA_IMAGE_FEATURES`
+variables. Although the functions for both variables are nearly
+equivalent, best practices dictate using :term:`IMAGE_FEATURES` from within
+a recipe and using :term:`EXTRA_IMAGE_FEATURES` from within your
+``local.conf`` file, which is found in the :term:`Build Directory`.
+
+To understand how these features work, the best reference is
+:ref:`meta/classes/image.bbclass <ref-classes-image>`.
+This class lists out the available
+:term:`IMAGE_FEATURES` of which most map to package groups while some, such
+as ``debug-tweaks`` and ``read-only-rootfs``, resolve as general
+configuration settings.
+
+In summary, the file looks at the contents of the :term:`IMAGE_FEATURES`
+variable and then maps or configures the feature accordingly. Based on
+this information, the build system automatically adds the appropriate
+packages or configurations to the
+:term:`IMAGE_INSTALL` variable.
+Effectively, you are enabling extra features by extending the class or
+creating a custom class for use with specialized image ``.bb`` files.
+
+Use the :term:`EXTRA_IMAGE_FEATURES` variable from within your local
+configuration file. Using a separate area from which to enable features
+with this variable helps you avoid overwriting the features in the image
+recipe that are enabled with :term:`IMAGE_FEATURES`. The value of
+:term:`EXTRA_IMAGE_FEATURES` is added to :term:`IMAGE_FEATURES` within
+``meta/conf/bitbake.conf``.
+
+To illustrate how you can use these variables to modify your image,
+consider an example that selects the SSH server. The Yocto Project ships
+with two SSH servers you can use with your images: Dropbear and OpenSSH.
+Dropbear is a minimal SSH server appropriate for resource-constrained
+environments, while OpenSSH is a well-known standard SSH server
+implementation. By default, the ``core-image-sato`` image is configured
+to use Dropbear. The ``core-image-full-cmdline`` and ``core-image-lsb``
+images both include OpenSSH. The ``core-image-minimal`` image does not
+contain an SSH server.
+
+You can customize your image and change these defaults. Edit the
+:term:`IMAGE_FEATURES` variable in your recipe or use the
+:term:`EXTRA_IMAGE_FEATURES` in your ``local.conf`` file so that it
+configures the image you are working with to include
+``ssh-server-dropbear`` or ``ssh-server-openssh``.
+
+.. note::
+
+   See the ":ref:`ref-manual/features:image features`" section in the Yocto
+   Project Reference Manual for a complete list of image features that ship
+   with the Yocto Project.
+
+Customizing Images Using Custom .bb Files
+=========================================
+
+You can also customize an image by creating a custom recipe that defines
+additional software as part of the image. The following example shows
+the form for the two lines you need::
+
+   IMAGE_INSTALL = "packagegroup-core-x11-base package1 package2"
+   inherit core-image
+
+Defining the software using a custom recipe gives you total control over
+the contents of the image. It is important to use the correct names of
+packages in the :term:`IMAGE_INSTALL` variable. You must use the
+OpenEmbedded notation and not the Debian notation for the names (e.g.
+``glibc-dev`` instead of ``libc6-dev``).
+
+The other method for creating a custom image is to base it on an
+existing image. For example, if you want to create an image based on
+``core-image-sato`` but add the additional package ``strace`` to the
+image, copy the ``meta/recipes-sato/images/core-image-sato.bb`` to a new
+``.bb`` and add the following line to the end of the copy::
+
+   IMAGE_INSTALL += "strace"
+
+Customizing Images Using Custom Package Groups
+==============================================
+
+For complex custom images, the best approach for customizing an image is
+to create a custom package group recipe that is used to build the image
+or images. A good example of a package group recipe is
+``meta/recipes-core/packagegroups/packagegroup-base.bb``.
+
+If you examine that recipe, you see that the :term:`PACKAGES` variable lists
+the package group packages to produce. The ``inherit packagegroup``
+statement sets appropriate default values and automatically adds
+``-dev``, ``-dbg``, and ``-ptest`` complementary packages for each
+package specified in the :term:`PACKAGES` statement.
+
+.. note::
+
+   The ``inherit packagegroup`` line should be located near the top of the
+   recipe, certainly before the :term:`PACKAGES` statement.
+
+For each package you specify in :term:`PACKAGES`, you can use :term:`RDEPENDS`
+and :term:`RRECOMMENDS` entries to provide a list of packages the parent
+task package should contain. You can see examples of these further down
+in the ``packagegroup-base.bb`` recipe.
+
+Here is a short, fabricated example showing the same basic pieces for a
+hypothetical packagegroup defined in ``packagegroup-custom.bb``, where
+the variable :term:`PN` is the standard way to abbreviate the reference to
+the full packagegroup name ``packagegroup-custom``::
+
+   DESCRIPTION = "My Custom Package Groups"
+
+   inherit packagegroup
+
+   PACKAGES = "\
+       ${PN}-apps \
+       ${PN}-tools \
+       "
+
+   RDEPENDS:${PN}-apps = "\
+       dropbear \
+       portmap \
+       psplash"
+
+   RDEPENDS:${PN}-tools = "\
+       oprofile \
+       oprofileui-server \
+       lttng-tools"
+
+   RRECOMMENDS:${PN}-tools = "\
+       kernel-module-oprofile"
+
+In the previous example, two package group packages are created with
+their dependencies and their recommended package dependencies listed:
+``packagegroup-custom-apps``, and ``packagegroup-custom-tools``. To
+build an image using these package group packages, you need to add
+``packagegroup-custom-apps`` and/or ``packagegroup-custom-tools`` to
+:term:`IMAGE_INSTALL`. For other forms of image dependencies see the other
+areas of this section.
+
+Customizing an Image Hostname
+=============================
+
+By default, the configured hostname (i.e. ``/etc/hostname``) in an image
+is the same as the machine name. For example, if
+:term:`MACHINE` equals "qemux86", the
+configured hostname written to ``/etc/hostname`` is "qemux86".
+
+You can customize this name by altering the value of the "hostname"
+variable in the ``base-files`` recipe using either an append file or a
+configuration file. Use the following in an append file::
+
+   hostname = "myhostname"
+
+Use the following in a configuration file::
+
+   hostname:pn-base-files = "myhostname"
+
+Changing the default value of the variable "hostname" can be useful in
+certain situations. For example, suppose you need to do extensive
+testing on an image and you would like to easily identify the image
+under test from existing images with typical default hostnames. In this
+situation, you could change the default hostname to "testme", which
+results in all the images using the name "testme". Once testing is
+complete and you do not need to rebuild the image for test any longer,
+you can easily reset the default hostname.
+
+Another point of interest is that if you unset the variable, the image
+will have no default hostname in the filesystem. Here is an example that
+unsets the variable in a configuration file::
+
+  hostname:pn-base-files = ""
+
+Having no default hostname in the filesystem is suitable for
+environments that use dynamic hostnames such as virtual machines.
+
--- a/documentation/dev-manual/debugging.rst
+++ b/documentation/dev-manual/debugging.rst
--- a/documentation/dev-manual/development-shell.rst
+++ b/documentation/dev-manual/development-shell.rst
@@ -0,0 +1,82 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using a Development Shell
+*************************
+
+When debugging certain commands or even when just editing packages,
+``devshell`` can be a useful tool. When you invoke ``devshell``, all
+tasks up to and including
+:ref:`ref-tasks-patch` are run for the
+specified target. Then, a new terminal is opened and you are placed in
+``${``\ :term:`S`\ ``}``, the source
+directory. In the new terminal, all the OpenEmbedded build-related
+environment variables are still defined so you can use commands such as
+``configure`` and ``make``. The commands execute just as if the
+OpenEmbedded build system were executing them. Consequently, working
+this way can be helpful when debugging a build or preparing software to
+be used with the OpenEmbedded build system.
+
+Following is an example that uses ``devshell`` on a target named
+``matchbox-desktop``::
+
+  $ bitbake matchbox-desktop -c devshell
+
+This command spawns a terminal with a shell prompt within the
+OpenEmbedded build environment. The
+:term:`OE_TERMINAL` variable
+controls what type of shell is opened.
+
+For spawned terminals, the following occurs:
+
+-  The ``PATH`` variable includes the cross-toolchain.
+
+-  The ``pkgconfig`` variables find the correct ``.pc`` files.
+
+-  The ``configure`` command finds the Yocto Project site files as well
+   as any other necessary files.
+
+Within this environment, you can run configure or compile commands as if
+they were being run by the OpenEmbedded build system itself. As noted
+earlier, the working directory also automatically changes to the Source
+Directory (:term:`S`).
+
+To manually run a specific task using ``devshell``, run the
+corresponding ``run.*`` script in the
+``${``\ :term:`WORKDIR`\ ``}/temp``
+directory (e.g., ``run.do_configure.``\ `pid`). If a task's script does
+not exist, which would be the case if the task was skipped by way of the
+sstate cache, you can create the task by first running it outside of the
+``devshell``::
+
+   $ bitbake -c task
+
+.. note::
+
+   -  Execution of a task's ``run.*`` script and BitBake's execution of
+      a task are identical. In other words, running the script re-runs
+      the task just as it would be run using the ``bitbake -c`` command.
+
+   -  Any ``run.*`` file that does not have a ``.pid`` extension is a
+      symbolic link (symlink) to the most recent version of that file.
+
+Remember, that the ``devshell`` is a mechanism that allows you to get
+into the BitBake task execution environment. And as such, all commands
+must be called just as BitBake would call them. That means you need to
+provide the appropriate options for cross-compilation and so forth as
+applicable.
+
+When you are finished using ``devshell``, exit the shell or close the
+terminal window.
+
+.. note::
+
+   -  It is worth remembering that when using ``devshell`` you need to
+      use the full compiler name such as ``arm-poky-linux-gnueabi-gcc``
+      instead of just using ``gcc``. The same applies to other
+      applications such as ``binutils``, ``libtool`` and so forth.
+      BitBake sets up environment variables such as :term:`CC` to assist
+      applications, such as ``make`` to find the correct tools.
+
+   -  It is also worth noting that ``devshell`` still works over X11
+      forwarding and similar situations.
+
--- a/documentation/dev-manual/device-manager.rst
+++ b/documentation/dev-manual/device-manager.rst
@@ -0,0 +1,74 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+.. _device-manager:
+
+Selecting a Device Manager
+**************************
+
+The Yocto Project provides multiple ways to manage the device manager
+(``/dev``):
+
+-  Persistent and Pre-Populated ``/dev``: For this case, the ``/dev``
+   directory is persistent and the required device nodes are created
+   during the build.
+
+-  Use ``devtmpfs`` with a Device Manager: For this case, the ``/dev``
+   directory is provided by the kernel as an in-memory file system and
+   is automatically populated by the kernel at runtime. Additional
+   configuration of device nodes is done in user space by a device
+   manager like ``udev`` or ``busybox-mdev``.
+
+Using Persistent and Pre-Populated ``/dev``
+===========================================
+
+To use the static method for device population, you need to set the
+:term:`USE_DEVFS` variable to "0"
+as follows::
+
+   USE_DEVFS = "0"
+
+The content of the resulting ``/dev`` directory is defined in a Device
+Table file. The
+:term:`IMAGE_DEVICE_TABLES`
+variable defines the Device Table to use and should be set in the
+machine or distro configuration file. Alternatively, you can set this
+variable in your ``local.conf`` configuration file.
+
+If you do not define the :term:`IMAGE_DEVICE_TABLES` variable, the default
+``device_table-minimal.txt`` is used::
+
+   IMAGE_DEVICE_TABLES = "device_table-mymachine.txt"
+
+The population is handled by the ``makedevs`` utility during image
+creation:
+
+Using ``devtmpfs`` and a Device Manager
+=======================================
+
+To use the dynamic method for device population, you need to use (or be
+sure to set) the :term:`USE_DEVFS`
+variable to "1", which is the default::
+
+   USE_DEVFS = "1"
+
+With this
+setting, the resulting ``/dev`` directory is populated by the kernel
+using ``devtmpfs``. Make sure the corresponding kernel configuration
+variable ``CONFIG_DEVTMPFS`` is set when building you build a Linux
+kernel.
+
+All devices created by ``devtmpfs`` will be owned by ``root`` and have
+permissions ``0600``.
+
+To have more control over the device nodes, you can use a device manager
+like ``udev`` or ``busybox-mdev``. You choose the device manager by
+defining the ``VIRTUAL-RUNTIME_dev_manager`` variable in your machine or
+distro configuration file. Alternatively, you can set this variable in
+your ``local.conf`` configuration file::
+
+   VIRTUAL-RUNTIME_dev_manager = "udev"
+
+   # Some alternative values
+   # VIRTUAL-RUNTIME_dev_manager = "busybox-mdev"
+   # VIRTUAL-RUNTIME_dev_manager = "systemd"
+
--- a/documentation/dev-manual/disk-space.rst
+++ b/documentation/dev-manual/disk-space.rst
@@ -0,0 +1,61 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Conserving Disk Space
+*********************
+
+Conserving Disk Space During Builds
+===================================
+
+To help conserve disk space during builds, you can add the following
+statement to your project's ``local.conf`` configuration file found in
+the :term:`Build Directory`::
+
+   INHERIT += "rm_work"
+
+Adding this statement deletes the work directory used for
+building a recipe once the recipe is built. For more information on
+"rm_work", see the :ref:`ref-classes-rm-work` class in the
+Yocto Project Reference Manual.
+
+When you inherit this class and build a ``core-image-sato`` image for a
+``qemux86-64`` machine from an Ubuntu 22.04 x86-64 system, you end up with a
+final disk usage of 22 Gbytes instead of &MIN_DISK_SPACE; Gbytes. However,
+&MIN_DISK_SPACE_RM_WORK; Gbytes of initial free disk space are still needed to
+create temporary files before they can be deleted.
+
+Purging Obsolete Shared State Cache Files
+=========================================
+
+After multiple build iterations, the Shared State (sstate) cache can contain
+multiple cache files for a given package, consuming a substantial amount of
+disk space. However, only the most recent ones are likely to be reused.
+
+The following command is a quick way to purge all the cache files which
+haven't been used for a least a specified number of days::
+
+   find build/sstate-cache -type f -mtime +$DAYS -delete
+
+The above command relies on the fact that BitBake touches the sstate cache
+files as it accesses them, when it has write access to the cache.
+
+You could use ``-atime`` instead of ``-mtime`` if the partition isn't mounted
+with the ``noatime`` option for a read only cache.
+
+For more advanced needs, OpenEmbedded-Core also offers a more elaborate
+command. It has the ability to purge all but the newest cache files on each
+architecture, and also to remove files that it considers unreachable by
+exploring a set of build configurations. However, this command
+requires a full build environment to be available and doesn't work well
+covering multiple releases. It won't work either on limited environments
+such as BSD based NAS::
+
+   sstate-cache-management.sh --remove-duplicated --cache-dir=build/sstate-cache
+
+This command will ask you to confirm the deletions it identifies.
+Run ``sstate-cache-management.sh`` for more details about this script.
+
+.. note::
+
+   As this command is much more cautious and selective, removing only cache files,
+   it will execute much slower than the simple ``find`` command described above.
+   Therefore, it may not be your best option to trim huge cache directories.
--- a/documentation/dev-manual/efficiently-fetching-sources.rst
+++ b/documentation/dev-manual/efficiently-fetching-sources.rst
@@ -0,0 +1,68 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Efficiently Fetching Source Files During a Build
+================================================
+
+The OpenEmbedded build system works with source files located through
+the :term:`SRC_URI` variable. When
+you build something using BitBake, a big part of the operation is
+locating and downloading all the source tarballs. For images,
+downloading all the source for various packages can take a significant
+amount of time.
+
+This section shows you how you can use mirrors to speed up fetching
+source files and how you can pre-fetch files all of which leads to more
+efficient use of resources and time.
+
+Setting up Effective Mirrors
+----------------------------
+
+A good deal that goes into a Yocto Project build is simply downloading
+all of the source tarballs. Maybe you have been working with another
+build system for which you have built up a
+sizable directory of source tarballs. Or, perhaps someone else has such
+a directory for which you have read access. If so, you can save time by
+adding statements to your configuration file so that the build process
+checks local directories first for existing tarballs before checking the
+Internet.
+
+Here is an efficient way to set it up in your ``local.conf`` file::
+
+   SOURCE_MIRROR_URL ?= "file:///home/you/your-download-dir/"
+   INHERIT += "own-mirrors"
+   BB_GENERATE_MIRROR_TARBALLS = "1"
+   # BB_NO_NETWORK = "1"
+
+In the previous example, the
+:term:`BB_GENERATE_MIRROR_TARBALLS`
+variable causes the OpenEmbedded build system to generate tarballs of
+the Git repositories and store them in the
+:term:`DL_DIR` directory. Due to
+performance reasons, generating and storing these tarballs is not the
+build system's default behavior.
+
+You can also use the
+:term:`PREMIRRORS` variable. For
+an example, see the variable's glossary entry in the Yocto Project
+Reference Manual.
+
+Getting Source Files and Suppressing the Build
+----------------------------------------------
+
+Another technique you can use to ready yourself for a successive string
+of build operations, is to pre-fetch all the source files without
+actually starting a build. This technique lets you work through any
+download issues and ultimately gathers all the source files into your
+download directory :ref:`structure-build-downloads`,
+which is located with :term:`DL_DIR`.
+
+Use the following BitBake command form to fetch all the necessary
+sources without starting the build::
+
+   $ bitbake target --runall=fetch
+
+This
+variation of the BitBake command guarantees that you have all the
+sources for that BitBake target should you disconnect from the Internet
+and want to do the build later offline.
+
--- a/documentation/dev-manual/error-reporting-tool.rst
+++ b/documentation/dev-manual/error-reporting-tool.rst
@@ -0,0 +1,84 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using the Error Reporting Tool
+******************************
+
+The error reporting tool allows you to submit errors encountered during
+builds to a central database. Outside of the build environment, you can
+use a web interface to browse errors, view statistics, and query for
+errors. The tool works using a client-server system where the client
+portion is integrated with the installed Yocto Project
+:term:`Source Directory` (e.g. ``poky``).
+The server receives the information collected and saves it in a
+database.
+
+There is a live instance of the error reporting server at
+https://errors.yoctoproject.org.
+When you want to get help with build failures, you can submit all of the
+information on the failure easily and then point to the URL in your bug
+report or send an email to the mailing list.
+
+.. note::
+
+   If you send error reports to this server, the reports become publicly
+   visible.
+
+Enabling and Using the Tool
+===========================
+
+By default, the error reporting tool is disabled. You can enable it by
+inheriting the :ref:`ref-classes-report-error` class by adding the
+following statement to the end of your ``local.conf`` file in your
+:term:`Build Directory`::
+
+   INHERIT += "report-error"
+
+By default, the error reporting feature stores information in
+``${``\ :term:`LOG_DIR`\ ``}/error-report``.
+However, you can specify a directory to use by adding the following to
+your ``local.conf`` file::
+
+   ERR_REPORT_DIR = "path"
+
+Enabling error
+reporting causes the build process to collect the errors and store them
+in a file as previously described. When the build system encounters an
+error, it includes a command as part of the console output. You can run
+the command to send the error file to the server. For example, the
+following command sends the errors to an upstream server::
+
+   $ send-error-report /home/brandusa/project/poky/build/tmp/log/error-report/error_report_201403141617.txt
+
+In the previous example, the errors are sent to a public database
+available at https://errors.yoctoproject.org, which is used by the
+entire community. If you specify a particular server, you can send the
+errors to a different database. Use the following command for more
+information on available options::
+
+   $ send-error-report --help
+
+When sending the error file, you are prompted to review the data being
+sent as well as to provide a name and optional email address. Once you
+satisfy these prompts, the command returns a link from the server that
+corresponds to your entry in the database. For example, here is a
+typical link: https://errors.yoctoproject.org/Errors/Details/9522/
+
+Following the link takes you to a web interface where you can browse,
+query the errors, and view statistics.
+
+Disabling the Tool
+==================
+
+To disable the error reporting feature, simply remove or comment out the
+following statement from the end of your ``local.conf`` file in your
+:term:`Build Directory`::
+
+   INHERIT += "report-error"
+
+Setting Up Your Own Error Reporting Server
+==========================================
+
+If you want to set up your own error reporting server, you can obtain
+the code from the Git repository at :yocto_git:`/error-report-web/`.
+Instructions on how to set it up are in the README document.
+
--- a/documentation/dev-manual/external-scm.rst
+++ b/documentation/dev-manual/external-scm.rst
@@ -0,0 +1,67 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using an External SCM
+*********************
+
+If you're working on a recipe that pulls from an external Source Code
+Manager (SCM), it is possible to have the OpenEmbedded build system
+notice new recipe changes added to the SCM and then build the resulting
+packages that depend on the new recipes by using the latest versions.
+This only works for SCMs from which it is possible to get a sensible
+revision number for changes. Currently, you can do this with Apache
+Subversion (SVN), Git, and Bazaar (BZR) repositories.
+
+To enable this behavior, the :term:`PV` of
+the recipe needs to reference
+:term:`SRCPV`. Here is an example::
+
+   PV = "1.2.3+git${SRCPV}"
+
+Then, you can add the following to your
+``local.conf``::
+
+   SRCREV:pn-PN = "${AUTOREV}"
+
+:term:`PN` is the name of the recipe for
+which you want to enable automatic source revision updating.
+
+If you do not want to update your local configuration file, you can add
+the following directly to the recipe to finish enabling the feature::
+
+   SRCREV = "${AUTOREV}"
+
+The Yocto Project provides a distribution named ``poky-bleeding``, whose
+configuration file contains the line::
+
+   require conf/distro/include/poky-floating-revisions.inc
+
+This line pulls in the
+listed include file that contains numerous lines of exactly that form::
+
+   #SRCREV:pn-opkg-native ?= "${AUTOREV}"
+   #SRCREV:pn-opkg-sdk ?= "${AUTOREV}"
+   #SRCREV:pn-opkg ?= "${AUTOREV}"
+   #SRCREV:pn-opkg-utils-native ?= "${AUTOREV}"
+   #SRCREV:pn-opkg-utils ?= "${AUTOREV}"
+   SRCREV:pn-gconf-dbus ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-common ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-config-gtk ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-desktop ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-keyboard ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-panel-2 ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-themes-extra ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-terminal ?= "${AUTOREV}"
+   SRCREV:pn-matchbox-wm ?= "${AUTOREV}"
+   SRCREV:pn-settings-daemon ?= "${AUTOREV}"
+   SRCREV:pn-screenshot ?= "${AUTOREV}"
+   . . .
+
+These lines allow you to
+experiment with building a distribution that tracks the latest
+development source for numerous packages.
+
+.. note::
+
+   The ``poky-bleeding`` distribution is not tested on a regular basis. Keep
+   this in mind if you use it.
+
--- a/documentation/dev-manual/external-toolchain.rst
+++ b/documentation/dev-manual/external-toolchain.rst
@@ -0,0 +1,40 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Optionally Using an External Toolchain
+**************************************
+
+You might want to use an external toolchain as part of your development.
+If this is the case, the fundamental steps you need to accomplish are as
+follows:
+
+-  Understand where the installed toolchain resides. For cases where you
+   need to build the external toolchain, you would need to take separate
+   steps to build and install the toolchain.
+
+-  Make sure you add the layer that contains the toolchain to your
+   ``bblayers.conf`` file through the
+   :term:`BBLAYERS` variable.
+
+-  Set the :term:`EXTERNAL_TOOLCHAIN` variable in your ``local.conf`` file
+   to the location in which you installed the toolchain.
+
+The toolchain configuration is very flexible and customizable. It
+is primarily controlled with the :term:`TCMODE` variable. This variable
+controls which ``tcmode-*.inc`` file to include from the
+``meta/conf/distro/include`` directory within the :term:`Source Directory`.
+
+The default value of :term:`TCMODE` is "default", which tells the
+OpenEmbedded build system to use its internally built toolchain (i.e.
+``tcmode-default.inc``). However, other patterns are accepted. In
+particular, "external-\*" refers to external toolchains. One example is
+the Mentor Graphics Sourcery G++ Toolchain. Support for this toolchain resides
+in the separate ``meta-sourcery`` layer at
+https://github.com/MentorEmbedded/meta-sourcery/.
+See its ``README`` file for details about how to use this layer.
+
+Another example of external toolchain layer is
+:yocto_git:`meta-arm-toolchain </meta-arm/tree/meta-arm-toolchain/>`
+supporting GNU toolchains released by ARM.
+
+You can find further information by reading about the :term:`TCMODE` variable
+in the Yocto Project Reference Manual's variable glossary.
--- a/documentation/dev-manual/gobject-introspection.rst
+++ b/documentation/dev-manual/gobject-introspection.rst
@@ -0,0 +1,155 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Enabling GObject Introspection Support
+**************************************
+
+`GObject introspection <https://gi.readthedocs.io/en/latest/>`__
+is the standard mechanism for accessing GObject-based software from
+runtime environments. GObject is a feature of the GLib library that
+provides an object framework for the GNOME desktop and related software.
+GObject Introspection adds information to GObject that allows objects
+created within it to be represented across different programming
+languages. If you want to construct GStreamer pipelines using Python, or
+control UPnP infrastructure using Javascript and GUPnP, GObject
+introspection is the only way to do it.
+
+This section describes the Yocto Project support for generating and
+packaging GObject introspection data. GObject introspection data is a
+description of the API provided by libraries built on top of the GLib
+framework, and, in particular, that framework's GObject mechanism.
+GObject Introspection Repository (GIR) files go to ``-dev`` packages,
+``typelib`` files go to main packages as they are packaged together with
+libraries that are introspected.
+
+The data is generated when building such a library, by linking the
+library with a small executable binary that asks the library to describe
+itself, and then executing the binary and processing its output.
+
+Generating this data in a cross-compilation environment is difficult
+because the library is produced for the target architecture, but its
+code needs to be executed on the build host. This problem is solved with
+the OpenEmbedded build system by running the code through QEMU, which
+allows precisely that. Unfortunately, QEMU does not always work
+perfectly as mentioned in the ":ref:`dev-manual/gobject-introspection:known issues`"
+section.
+
+Enabling the Generation of Introspection Data
+=============================================
+
+Enabling the generation of introspection data (GIR files) in your
+library package involves the following:
+
+#. Inherit the :ref:`ref-classes-gobject-introspection` class.
+
+#. Make sure introspection is not disabled anywhere in the recipe or
+   from anything the recipe includes. Also, make sure that
+   "gobject-introspection-data" is not in
+   :term:`DISTRO_FEATURES_BACKFILL_CONSIDERED`
+   and that "qemu-usermode" is not in
+   :term:`MACHINE_FEATURES_BACKFILL_CONSIDERED`.
+   In either of these conditions, nothing will happen.
+
+#. Try to build the recipe. If you encounter build errors that look like
+   something is unable to find ``.so`` libraries, check where these
+   libraries are located in the source tree and add the following to the
+   recipe::
+
+      GIR_EXTRA_LIBS_PATH = "${B}/something/.libs"
+
+   .. note::
+
+      See recipes in the ``oe-core`` repository that use that
+      :term:`GIR_EXTRA_LIBS_PATH` variable as an example.
+
+#. Look for any other errors, which probably mean that introspection
+   support in a package is not entirely standard, and thus breaks down
+   in a cross-compilation environment. For such cases, custom-made fixes
+   are needed. A good place to ask and receive help in these cases is
+   the :ref:`Yocto Project mailing
+   lists <resources-mailinglist>`.
+
+.. note::
+
+   Using a library that no longer builds against the latest Yocto
+   Project release and prints introspection related errors is a good
+   candidate for the previous procedure.
+
+Disabling the Generation of Introspection Data
+==============================================
+
+You might find that you do not want to generate introspection data. Or,
+perhaps QEMU does not work on your build host and target architecture
+combination. If so, you can use either of the following methods to
+disable GIR file generations:
+
+-  Add the following to your distro configuration::
+
+      DISTRO_FEATURES_BACKFILL_CONSIDERED = "gobject-introspection-data"
+
+   Adding this statement disables generating introspection data using
+   QEMU but will still enable building introspection tools and libraries
+   (i.e. building them does not require the use of QEMU).
+
+-  Add the following to your machine configuration::
+
+      MACHINE_FEATURES_BACKFILL_CONSIDERED = "qemu-usermode"
+
+   Adding this statement disables the use of QEMU when building packages for your
+   machine. Currently, this feature is used only by introspection
+   recipes and has the same effect as the previously described option.
+
+   .. note::
+
+      Future releases of the Yocto Project might have other features
+      affected by this option.
+
+If you disable introspection data, you can still obtain it through other
+means such as copying the data from a suitable sysroot, or by generating
+it on the target hardware. The OpenEmbedded build system does not
+currently provide specific support for these techniques.
+
+Testing that Introspection Works in an Image
+============================================
+
+Use the following procedure to test if generating introspection data is
+working in an image:
+
+#. Make sure that "gobject-introspection-data" is not in
+   :term:`DISTRO_FEATURES_BACKFILL_CONSIDERED`
+   and that "qemu-usermode" is not in
+   :term:`MACHINE_FEATURES_BACKFILL_CONSIDERED`.
+
+#. Build ``core-image-sato``.
+
+#. Launch a Terminal and then start Python in the terminal.
+
+#. Enter the following in the terminal::
+
+      >>> from gi.repository import GLib
+      >>> GLib.get_host_name()
+
+#. For something a little more advanced, enter the following see:
+   https://python-gtk-3-tutorial.readthedocs.io/en/latest/introduction.html
+
+Known Issues
+============
+
+Here are know issues in GObject Introspection Support:
+
+-  ``qemu-ppc64`` immediately crashes. Consequently, you cannot build
+   introspection data on that architecture.
+
+-  x32 is not supported by QEMU. Consequently, introspection data is
+   disabled.
+
+-  musl causes transient GLib binaries to crash on assertion failures.
+   Consequently, generating introspection data is disabled.
+
+-  Because QEMU is not able to run the binaries correctly, introspection
+   is disabled for some specific packages under specific architectures
+   (e.g. ``gcr``, ``libsecret``, and ``webkit``).
+
+-  QEMU usermode might not work properly when running 64-bit binaries
+   under 32-bit host machines. In particular, "qemumips64" is known to
+   not work under i686.
+
--- a/documentation/dev-manual/index.rst
+++ b/documentation/dev-manual/index.rst
@@ -4,15 +4,48 @@
 Yocto Project Development Tasks Manual
 ======================================

-|
-
 .. toctree::
   :caption: Table of Contents
   :numbered:

   intro
   start
-   common-tasks
+   layers
+   customizing-images
+   new-recipe
+   new-machine
+   upgrading-recipes
+   temporary-source-code
+   quilt.rst
+   development-shell
+   python-development-shell
+   building
+   speeding-up-build
+   libraries
+   prebuilt-libraries
+   x32-psabi
+   gobject-introspection
+   external-toolchain
+   wic
+   bmaptool
+   securing-images
+   custom-distribution
+   custom-template-configuration-directory
+   disk-space
+   packages
+   efficiently-fetching-sources
+   init-manager
+   device-manager
+   external-scm
+   read-only-rootfs
+   build-quality
+   runtime-testing
+   debugging
+   licenses
+   vulnerabilities
+   sbom
+   error-reporting-tool
+   wayland
   qemu

 .. include:: /boilerplate.rst
--- a/documentation/dev-manual/init-manager.rst
+++ b/documentation/dev-manual/init-manager.rst
@@ -0,0 +1,162 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+.. _init-manager:
+
+Selecting an Initialization Manager
+***********************************
+
+By default, the Yocto Project uses :wikipedia:`SysVinit <Init#SysV-style>` as
+the initialization manager. There is also support for BusyBox init, a simpler
+implementation, as well as support for :wikipedia:`systemd <Systemd>`, which
+is a full replacement for init with parallel starting of services, reduced
+shell overhead, increased security and resource limits for services, and other
+features that are used by many distributions.
+
+Within the system, SysVinit and BusyBox init treat system components as
+services. These services are maintained as shell scripts stored in the
+``/etc/init.d/`` directory.
+
+SysVinit is more elaborate than BusyBox init and organizes services in
+different run levels. This organization is maintained by putting links
+to the services in the ``/etc/rcN.d/`` directories, where `N/` is one
+of the following options: "S", "0", "1", "2", "3", "4", "5", or "6".
+
+.. note::
+
+   Each runlevel has a dependency on the previous runlevel. This
+   dependency allows the services to work properly.
+
+Both SysVinit and BusyBox init are configured through the ``/etc/inittab``
+file, with a very similar syntax, though of course BusyBox init features
+are more limited.
+
+In comparison, systemd treats components as units. Using units is a
+broader concept as compared to using a service. A unit includes several
+different types of entities. ``Service`` is one of the types of entities.
+The runlevel concept in SysVinit corresponds to the concept of a target
+in systemd, where target is also a type of supported unit.
+
+In systems with SysVinit or BusyBox init, services load sequentially (i.e. one
+by one) during init and parallelization is not supported. With systemd, services
+start in parallel. This method can have an impact on the startup performance
+of a given service, though systemd will also provide more services by default,
+therefore increasing the total system boot time. systemd also substantially
+increases system size because of its multiple components and the extra
+dependencies it pulls.
+
+On the contrary, BusyBox init is the simplest and the lightest solution and
+also comes with BusyBox mdev as device manager, a lighter replacement to
+:wikipedia:`udev <Udev>`, which SysVinit and systemd both use.
+
+The ":ref:`device-manager`" chapter has more details about device managers.
+
+Using SysVinit with udev
+=========================
+
+SysVinit with the udev device manager corresponds to the
+default setting in Poky. This corresponds to setting::
+
+   INIT_MANAGER = "sysvinit"
+
+Using BusyBox init with BusyBox mdev
+====================================
+
+BusyBox init with BusyBox mdev is the simplest and lightest solution
+for small root filesystems. All you need is BusyBox, which most systems
+have anyway::
+
+   INIT_MANAGER = "mdev-busybox"
+
+Using systemd
+=============
+
+The last option is to use systemd together with the udev device
+manager. This is the most powerful and versatile solution, especially
+for more complex systems::
+
+   INIT_MANAGER = "systemd"
+
+This will enable systemd and remove sysvinit components from the image.
+See :yocto_git:`meta/conf/distro/include/init-manager-systemd.inc
+</poky/tree/meta/conf/distro/include/init-manager-systemd.inc>` for exact
+details on what this does.
+
+Controling systemd from the target command line
+-----------------------------------------------
+
+Here is a quick reference for controling systemd from the command line on the
+target. Instead of opening and sometimes modifying files, most interaction
+happens through the ``systemctl`` and ``journalctl`` commands:
+
+-  ``systemctl status``: show the status of all services
+-  ``systemctl status <service>``: show the status of one service
+-  ``systemctl [start|stop] <service>``: start or stop a service
+-  ``systemctl [enable|disable] <service>``: enable or disable a service at boot time
+-  ``systemctl list-units``: list all available units
+-  ``journalctl -a``: show all logs for all services
+-  ``journalctl -f``: show only the last log entries, and keep printing updates as they arrive
+-  ``journalctl -u``: show only logs from a particular service
+
+Using systemd-journald without a traditional syslog daemon
+----------------------------------------------------------
+
+Counter-intuitively, ``systemd-journald`` is not a syslog runtime or provider,
+and the proper way to use ``systemd-journald`` as your sole logging mechanism is to
+effectively disable syslog entirely by setting these variables in your distribution
+configuration file::
+
+   VIRTUAL-RUNTIME_syslog = ""
+   VIRTUAL-RUNTIME_base-utils-syslog = ""
+
+Doing so will prevent ``rsyslog`` / ``busybox-syslog`` from being pulled in by
+default, leaving only ``systemd-journald``.
+
+Summary
+-------
+
+The Yocto Project supports three different initialization managers, offering
+increasing levels of complexity and functionality:
+
+.. list-table::
+   :widths: 40 20 20 20
+   :header-rows: 1
+
+   * - 
+     - BusyBox init
+     - SysVinit
+     - systemd
+   * - Size
+     - Small
+     - Small
+     - Big [#footnote-systemd-size]_
+   * - Complexity
+     - Small
+     - Medium
+     - High
+   * - Support for boot profiles
+     - No
+     - Yes ("runlevels")
+     - Yes ("targets")
+   * - Services defined as
+     - Shell scripts
+     - Shell scripts
+     - Description files
+   * - Starting services in parallel
+     - No
+     - No
+     - Yes
+   * - Setting service resource limits
+     - No
+     - No
+     - Yes
+   * - Support service isolation
+     - No
+     - No
+     - Yes
+   * - Integrated logging
+     - No
+     - No
+     - Yes
+
+.. [#footnote-systemd-size] Using systemd increases the ``core-image-minimal``
+   image size by 160\% for ``qemux86-64`` on Mickledore (4.2), compared to SysVinit.
--- a/documentation/dev-manual/layers.rst
+++ b/documentation/dev-manual/layers.rst
@@ -0,0 +1,839 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Understanding and Creating Layers
+*********************************
+
+The OpenEmbedded build system supports organizing
+:term:`Metadata` into multiple layers.
+Layers allow you to isolate different types of customizations from each
+other. For introductory information on the Yocto Project Layer Model,
+see the
+":ref:`overview-manual/yp-intro:the yocto project layer model`"
+section in the Yocto Project Overview and Concepts Manual.
+
+Creating Your Own Layer
+=======================
+
+.. note::
+
+   It is very easy to create your own layers to use with the OpenEmbedded
+   build system, as the Yocto Project ships with tools that speed up creating
+   layers. This section describes the steps you perform by hand to create
+   layers so that you can better understand them. For information about the
+   layer-creation tools, see the
+   ":ref:`bsp-guide/bsp:creating a new bsp layer using the \`\`bitbake-layers\`\` script`"
+   section in the Yocto Project Board Support Package (BSP) Developer's
+   Guide and the ":ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`"
+   section further down in this manual.
+
+Follow these general steps to create your layer without using tools:
+
+#. *Check Existing Layers:* Before creating a new layer, you should be
+   sure someone has not already created a layer containing the Metadata
+   you need. You can see the :oe_layerindex:`OpenEmbedded Metadata Index <>`
+   for a list of layers from the OpenEmbedded community that can be used in
+   the Yocto Project. You could find a layer that is identical or close
+   to what you need.
+
+#. *Create a Directory:* Create the directory for your layer. When you
+   create the layer, be sure to create the directory in an area not
+   associated with the Yocto Project :term:`Source Directory`
+   (e.g. the cloned ``poky`` repository).
+
+   While not strictly required, prepend the name of the directory with
+   the string "meta-". For example::
+
+      meta-mylayer
+      meta-GUI_xyz
+      meta-mymachine
+
+   With rare exceptions, a layer's name follows this form::
+
+      meta-root_name
+
+   Following this layer naming convention can save
+   you trouble later when tools, components, or variables "assume" your
+   layer name begins with "meta-". A notable example is in configuration
+   files as shown in the following step where layer names without the
+   "meta-" string are appended to several variables used in the
+   configuration.
+
+#. *Create a Layer Configuration File:* Inside your new layer folder,
+   you need to create a ``conf/layer.conf`` file. It is easiest to take
+   an existing layer configuration file and copy that to your layer's
+   ``conf`` directory and then modify the file as needed.
+
+   The ``meta-yocto-bsp/conf/layer.conf`` file in the Yocto Project
+   :yocto_git:`Source Repositories </poky/tree/meta-yocto-bsp/conf>`
+   demonstrates the required syntax. For your layer, you need to replace
+   "yoctobsp" with a unique identifier for your layer (e.g. "machinexyz"
+   for a layer named "meta-machinexyz")::
+
+      # We have a conf and classes directory, add to BBPATH
+      BBPATH .= ":${LAYERDIR}"
+
+      # We have recipes-* directories, add to BBFILES
+      BBFILES += "${LAYERDIR}/recipes-*/*/*.bb \
+                  ${LAYERDIR}/recipes-*/*/*.bbappend"
+
+      BBFILE_COLLECTIONS += "yoctobsp"
+      BBFILE_PATTERN_yoctobsp = "^${LAYERDIR}/"
+      BBFILE_PRIORITY_yoctobsp = "5"
+      LAYERVERSION_yoctobsp = "4"
+      LAYERSERIES_COMPAT_yoctobsp = "dunfell"
+
+   Following is an explanation of the layer configuration file:
+
+   -  :term:`BBPATH`: Adds the layer's
+      root directory to BitBake's search path. Through the use of the
+      :term:`BBPATH` variable, BitBake locates class files (``.bbclass``),
+      configuration files, and files that are included with ``include``
+      and ``require`` statements. For these cases, BitBake uses the
+      first file that matches the name found in :term:`BBPATH`. This is
+      similar to the way the ``PATH`` variable is used for binaries. It
+      is recommended, therefore, that you use unique class and
+      configuration filenames in your custom layer.
+
+   -  :term:`BBFILES`: Defines the
+      location for all recipes in the layer.
+
+   -  :term:`BBFILE_COLLECTIONS`:
+      Establishes the current layer through a unique identifier that is
+      used throughout the OpenEmbedded build system to refer to the
+      layer. In this example, the identifier "yoctobsp" is the
+      representation for the container layer named "meta-yocto-bsp".
+
+   -  :term:`BBFILE_PATTERN`:
+      Expands immediately during parsing to provide the directory of the
+      layer.
+
+   -  :term:`BBFILE_PRIORITY`:
+      Establishes a priority to use for recipes in the layer when the
+      OpenEmbedded build finds recipes of the same name in different
+      layers.
+
+   -  :term:`LAYERVERSION`:
+      Establishes a version number for the layer. You can use this
+      version number to specify this exact version of the layer as a
+      dependency when using the
+      :term:`LAYERDEPENDS`
+      variable.
+
+   -  :term:`LAYERDEPENDS`:
+      Lists all layers on which this layer depends (if any).
+
+   -  :term:`LAYERSERIES_COMPAT`:
+      Lists the :yocto_wiki:`Yocto Project </Releases>`
+      releases for which the current version is compatible. This
+      variable is a good way to indicate if your particular layer is
+      current.
+
+#. *Add Content:* Depending on the type of layer, add the content. If
+   the layer adds support for a machine, add the machine configuration
+   in a ``conf/machine/`` file within the layer. If the layer adds
+   distro policy, add the distro configuration in a ``conf/distro/``
+   file within the layer. If the layer introduces new recipes, put the
+   recipes you need in ``recipes-*`` subdirectories within the layer.
+
+   .. note::
+
+      For an explanation of layer hierarchy that is compliant with the
+      Yocto Project, see the ":ref:`bsp-guide/bsp:example filesystem layout`"
+      section in the Yocto Project Board Support Package (BSP) Developer's Guide.
+
+#. *Optionally Test for Compatibility:* If you want permission to use
+   the Yocto Project Compatibility logo with your layer or application
+   that uses your layer, perform the steps to apply for compatibility.
+   See the
+   ":ref:`dev-manual/layers:making sure your layer is compatible with yocto project`"
+   section for more information.
+
+Following Best Practices When Creating Layers
+=============================================
+
+To create layers that are easier to maintain and that will not impact
+builds for other machines, you should consider the information in the
+following list:
+
+-  *Avoid "Overlaying" Entire Recipes from Other Layers in Your
+   Configuration:* In other words, do not copy an entire recipe into
+   your layer and then modify it. Rather, use an append file
+   (``.bbappend``) to override only those parts of the original recipe
+   you need to modify.
+
+-  *Avoid Duplicating Include Files:* Use append files (``.bbappend``)
+   for each recipe that uses an include file. Or, if you are introducing
+   a new recipe that requires the included file, use the path relative
+   to the original layer directory to refer to the file. For example,
+   use ``require recipes-core/``\ `package`\ ``/``\ `file`\ ``.inc`` instead
+   of ``require`` `file`\ ``.inc``. If you're finding you have to overlay
+   the include file, it could indicate a deficiency in the include file
+   in the layer to which it originally belongs. If this is the case, you
+   should try to address that deficiency instead of overlaying the
+   include file. For example, you could address this by getting the
+   maintainer of the include file to add a variable or variables to make
+   it easy to override the parts needing to be overridden.
+
+-  *Structure Your Layers:* Proper use of overrides within append files
+   and placement of machine-specific files within your layer can ensure
+   that a build is not using the wrong Metadata and negatively impacting
+   a build for a different machine. Following are some examples:
+
+   -  *Modify Variables to Support a Different Machine:* Suppose you
+      have a layer named ``meta-one`` that adds support for building
+      machine "one". To do so, you use an append file named
+      ``base-files.bbappend`` and create a dependency on "foo" by
+      altering the :term:`DEPENDS`
+      variable::
+
+         DEPENDS = "foo"
+
+      The dependency is created during any
+      build that includes the layer ``meta-one``. However, you might not
+      want this dependency for all machines. For example, suppose you
+      are building for machine "two" but your ``bblayers.conf`` file has
+      the ``meta-one`` layer included. During the build, the
+      ``base-files`` for machine "two" will also have the dependency on
+      ``foo``.
+
+      To make sure your changes apply only when building machine "one",
+      use a machine override with the :term:`DEPENDS` statement::
+
+         DEPENDS:one = "foo"
+
+      You should follow the same strategy when using ``:append``
+      and ``:prepend`` operations::
+
+         DEPENDS:append:one = " foo"
+         DEPENDS:prepend:one = "foo "
+
+      As an actual example, here's a
+      snippet from the generic kernel include file ``linux-yocto.inc``,
+      wherein the kernel compile and link options are adjusted in the
+      case of a subset of the supported architectures::
+
+         DEPENDS:append:aarch64 = " libgcc"
+         KERNEL_CC:append:aarch64 = " ${TOOLCHAIN_OPTIONS}"
+         KERNEL_LD:append:aarch64 = " ${TOOLCHAIN_OPTIONS}"
+
+         DEPENDS:append:nios2 = " libgcc"
+         KERNEL_CC:append:nios2 = " ${TOOLCHAIN_OPTIONS}"
+         KERNEL_LD:append:nios2 = " ${TOOLCHAIN_OPTIONS}"
+
+         DEPENDS:append:arc = " libgcc"
+         KERNEL_CC:append:arc = " ${TOOLCHAIN_OPTIONS}"
+         KERNEL_LD:append:arc = " ${TOOLCHAIN_OPTIONS}"
+
+         KERNEL_FEATURES:append:qemuall=" features/debug/printk.scc"
+
+   -  *Place Machine-Specific Files in Machine-Specific Locations:* When
+      you have a base recipe, such as ``base-files.bb``, that contains a
+      :term:`SRC_URI` statement to a
+      file, you can use an append file to cause the build to use your
+      own version of the file. For example, an append file in your layer
+      at ``meta-one/recipes-core/base-files/base-files.bbappend`` could
+      extend :term:`FILESPATH` using :term:`FILESEXTRAPATHS` as follows::
+
+         FILESEXTRAPATHS:prepend := "${THISDIR}/${BPN}:"
+
+      The build for machine "one" will pick up your machine-specific file as
+      long as you have the file in
+      ``meta-one/recipes-core/base-files/base-files/``. However, if you
+      are building for a different machine and the ``bblayers.conf``
+      file includes the ``meta-one`` layer and the location of your
+      machine-specific file is the first location where that file is
+      found according to :term:`FILESPATH`, builds for all machines will
+      also use that machine-specific file.
+
+      You can make sure that a machine-specific file is used for a
+      particular machine by putting the file in a subdirectory specific
+      to the machine. For example, rather than placing the file in
+      ``meta-one/recipes-core/base-files/base-files/`` as shown above,
+      put it in ``meta-one/recipes-core/base-files/base-files/one/``.
+      Not only does this make sure the file is used only when building
+      for machine "one", but the build process locates the file more
+      quickly.
+
+      In summary, you need to place all files referenced from
+      :term:`SRC_URI` in a machine-specific subdirectory within the layer in
+      order to restrict those files to machine-specific builds.
+
+-  *Perform Steps to Apply for Yocto Project Compatibility:* If you want
+   permission to use the Yocto Project Compatibility logo with your
+   layer or application that uses your layer, perform the steps to apply
+   for compatibility. See the
+   ":ref:`dev-manual/layers:making sure your layer is compatible with yocto project`"
+   section for more information.
+
+-  *Follow the Layer Naming Convention:* Store custom layers in a Git
+   repository that use the ``meta-layer_name`` format.
+
+-  *Group Your Layers Locally:* Clone your repository alongside other
+   cloned ``meta`` directories from the :term:`Source Directory`.
+
+Making Sure Your Layer is Compatible With Yocto Project
+=======================================================
+
+When you create a layer used with the Yocto Project, it is advantageous
+to make sure that the layer interacts well with existing Yocto Project
+layers (i.e. the layer is compatible with the Yocto Project). Ensuring
+compatibility makes the layer easy to be consumed by others in the Yocto
+Project community and could allow you permission to use the Yocto
+Project Compatible Logo.
+
+.. note::
+
+   Only Yocto Project member organizations are permitted to use the
+   Yocto Project Compatible Logo. The logo is not available for general
+   use. For information on how to become a Yocto Project member
+   organization, see the :yocto_home:`Yocto Project Website <>`.
+
+The Yocto Project Compatibility Program consists of a layer application
+process that requests permission to use the Yocto Project Compatibility
+Logo for your layer and application. The process consists of two parts:
+
+#. Successfully passing a script (``yocto-check-layer``) that when run
+   against your layer, tests it against constraints based on experiences
+   of how layers have worked in the real world and where pitfalls have
+   been found. Getting a "PASS" result from the script is required for
+   successful compatibility registration.
+
+#. Completion of an application acceptance form, which you can find at
+   :yocto_home:`/webform/yocto-project-compatible-registration`.
+
+To be granted permission to use the logo, you need to satisfy the
+following:
+
+-  Be able to check the box indicating that you got a "PASS" when
+   running the script against your layer.
+
+-  Answer "Yes" to the questions on the form or have an acceptable
+   explanation for any questions answered "No".
+
+-  Be a Yocto Project Member Organization.
+
+The remainder of this section presents information on the registration
+form and on the ``yocto-check-layer`` script.
+
+Yocto Project Compatible Program Application
+--------------------------------------------
+
+Use the form to apply for your layer's approval. Upon successful
+application, you can use the Yocto Project Compatibility Logo with your
+layer and the application that uses your layer.
+
+To access the form, use this link:
+:yocto_home:`/webform/yocto-project-compatible-registration`.
+Follow the instructions on the form to complete your application.
+
+The application consists of the following sections:
+
+-  *Contact Information:* Provide your contact information as the fields
+   require. Along with your information, provide the released versions
+   of the Yocto Project for which your layer is compatible.
+
+-  *Acceptance Criteria:* Provide "Yes" or "No" answers for each of the
+   items in the checklist. There is space at the bottom of the form for
+   any explanations for items for which you answered "No".
+
+-  *Recommendations:* Provide answers for the questions regarding Linux
+   kernel use and build success.
+
+``yocto-check-layer`` Script
+----------------------------
+
+The ``yocto-check-layer`` script provides you a way to assess how
+compatible your layer is with the Yocto Project. You should run this
+script prior to using the form to apply for compatibility as described
+in the previous section. You need to achieve a "PASS" result in order to
+have your application form successfully processed.
+
+The script divides tests into three areas: COMMON, BSP, and DISTRO. For
+example, given a distribution layer (DISTRO), the layer must pass both
+the COMMON and DISTRO related tests. Furthermore, if your layer is a BSP
+layer, the layer must pass the COMMON and BSP set of tests.
+
+To execute the script, enter the following commands from your build
+directory::
+
+   $ source oe-init-build-env
+   $ yocto-check-layer your_layer_directory
+
+Be sure to provide the actual directory for your
+layer as part of the command.
+
+Entering the command causes the script to determine the type of layer
+and then to execute a set of specific tests against the layer. The
+following list overviews the test:
+
+-  ``common.test_readme``: Tests if a ``README`` file exists in the
+   layer and the file is not empty.
+
+-  ``common.test_parse``: Tests to make sure that BitBake can parse the
+   files without error (i.e. ``bitbake -p``).
+
+-  ``common.test_show_environment``: Tests that the global or per-recipe
+   environment is in order without errors (i.e. ``bitbake -e``).
+
+-  ``common.test_world``: Verifies that ``bitbake world`` works.
+
+-  ``common.test_signatures``: Tests to be sure that BSP and DISTRO
+   layers do not come with recipes that change signatures.
+
+-  ``common.test_layerseries_compat``: Verifies layer compatibility is
+   set properly.
+
+-  ``bsp.test_bsp_defines_machines``: Tests if a BSP layer has machine
+   configurations.
+
+-  ``bsp.test_bsp_no_set_machine``: Tests to ensure a BSP layer does not
+   set the machine when the layer is added.
+
+-  ``bsp.test_machine_world``: Verifies that ``bitbake world`` works
+   regardless of which machine is selected.
+
+-  ``bsp.test_machine_signatures``: Verifies that building for a
+   particular machine affects only the signature of tasks specific to
+   that machine.
+
+-  ``distro.test_distro_defines_distros``: Tests if a DISTRO layer has
+   distro configurations.
+
+-  ``distro.test_distro_no_set_distros``: Tests to ensure a DISTRO layer
+   does not set the distribution when the layer is added.
+
+Enabling Your Layer
+===================
+
+Before the OpenEmbedded build system can use your new layer, you need to
+enable it. To enable your layer, simply add your layer's path to the
+:term:`BBLAYERS` variable in your ``conf/bblayers.conf`` file, which is
+found in the :term:`Build Directory`. The following example shows how to
+enable your new ``meta-mylayer`` layer (note how your new layer exists
+outside of the official ``poky`` repository which you would have checked
+out earlier)::
+
+   # POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf
+   # changes incompatibly
+   POKY_BBLAYERS_CONF_VERSION = "2"
+   BBPATH = "${TOPDIR}"
+   BBFILES ?= ""
+   BBLAYERS ?= " \
+       /home/user/poky/meta \
+       /home/user/poky/meta-poky \
+       /home/user/poky/meta-yocto-bsp \
+       /home/user/mystuff/meta-mylayer \
+       "
+
+BitBake parses each ``conf/layer.conf`` file from the top down as
+specified in the :term:`BBLAYERS` variable within the ``conf/bblayers.conf``
+file. During the processing of each ``conf/layer.conf`` file, BitBake
+adds the recipes, classes and configurations contained within the
+particular layer to the source directory.
+
+Appending Other Layers Metadata With Your Layer
+===============================================
+
+A recipe that appends Metadata to another recipe is called a BitBake
+append file. A BitBake append file uses the ``.bbappend`` file type
+suffix, while the corresponding recipe to which Metadata is being
+appended uses the ``.bb`` file type suffix.
+
+You can use a ``.bbappend`` file in your layer to make additions or
+changes to the content of another layer's recipe without having to copy
+the other layer's recipe into your layer. Your ``.bbappend`` file
+resides in your layer, while the main ``.bb`` recipe file to which you
+are appending Metadata resides in a different layer.
+
+Being able to append information to an existing recipe not only avoids
+duplication, but also automatically applies recipe changes from a
+different layer into your layer. If you were copying recipes, you would
+have to manually merge changes as they occur.
+
+When you create an append file, you must use the same root name as the
+corresponding recipe file. For example, the append file
+``someapp_3.1.bbappend`` must apply to ``someapp_3.1.bb``. This
+means the original recipe and append filenames are version
+number-specific. If the corresponding recipe is renamed to update to a
+newer version, you must also rename and possibly update the
+corresponding ``.bbappend`` as well. During the build process, BitBake
+displays an error on starting if it detects a ``.bbappend`` file that
+does not have a corresponding recipe with a matching name. See the
+:term:`BB_DANGLINGAPPENDS_WARNONLY`
+variable for information on how to handle this error.
+
+Overlaying a File Using Your Layer
+----------------------------------
+
+As an example, consider the main formfactor recipe and a corresponding
+formfactor append file both from the :term:`Source Directory`.
+Here is the main
+formfactor recipe, which is named ``formfactor_0.0.bb`` and located in
+the "meta" layer at ``meta/recipes-bsp/formfactor``::
+
+   SUMMARY = "Device formfactor information"
+   DESCRIPTION = "A formfactor configuration file provides information about the \
+   target hardware for which the image is being built and information that the \
+   build system cannot obtain from other sources such as the kernel."
+   SECTION = "base"
+   LICENSE = "MIT"
+   LIC_FILES_CHKSUM = "file://${COREBASE}/meta/COPYING.MIT;md5=3da9cfbcb788c80a0384361b4de20420"
+   PR = "r45"
+
+   SRC_URI = "file://config file://machconfig"
+   S = "${WORKDIR}"
+
+   PACKAGE_ARCH = "${MACHINE_ARCH}"
+   INHIBIT_DEFAULT_DEPS = "1"
+
+   do_install() {
+	   # Install file only if it has contents
+           install -d ${D}${sysconfdir}/formfactor/
+           install -m 0644 ${S}/config ${D}${sysconfdir}/formfactor/
+	   if [ -s "${S}/machconfig" ]; then
+	           install -m 0644 ${S}/machconfig ${D}${sysconfdir}/formfactor/
+	   fi
+   }
+
+In the main recipe, note the :term:`SRC_URI`
+variable, which tells the OpenEmbedded build system where to find files
+during the build.
+
+Following is the append file, which is named ``formfactor_0.0.bbappend``
+and is from the Raspberry Pi BSP Layer named ``meta-raspberrypi``. The
+file is in the layer at ``recipes-bsp/formfactor``::
+
+   FILESEXTRAPATHS:prepend := "${THISDIR}/${PN}:"
+
+By default, the build system uses the
+:term:`FILESPATH` variable to
+locate files. This append file extends the locations by setting the
+:term:`FILESEXTRAPATHS`
+variable. Setting this variable in the ``.bbappend`` file is the most
+reliable and recommended method for adding directories to the search
+path used by the build system to find files.
+
+The statement in this example extends the directories to include
+``${``\ :term:`THISDIR`\ ``}/${``\ :term:`PN`\ ``}``,
+which resolves to a directory named ``formfactor`` in the same directory
+in which the append file resides (i.e.
+``meta-raspberrypi/recipes-bsp/formfactor``. This implies that you must
+have the supporting directory structure set up that will contain any
+files or patches you will be including from the layer.
+
+Using the immediate expansion assignment operator ``:=`` is important
+because of the reference to :term:`THISDIR`. The trailing colon character is
+important as it ensures that items in the list remain colon-separated.
+
+.. note::
+
+   BitBake automatically defines the :term:`THISDIR` variable. You should
+   never set this variable yourself. Using ":prepend" as part of the
+   :term:`FILESEXTRAPATHS` ensures your path will be searched prior to other
+   paths in the final list.
+
+   Also, not all append files add extra files. Many append files simply
+   allow to add build options (e.g. ``systemd``). For these cases, your
+   append file would not even use the :term:`FILESEXTRAPATHS` statement.
+
+The end result of this ``.bbappend`` file is that on a Raspberry Pi, where
+``rpi`` will exist in the list of :term:`OVERRIDES`, the file
+``meta-raspberrypi/recipes-bsp/formfactor/formfactor/rpi/machconfig`` will be
+used during :ref:`ref-tasks-fetch` and the test for a non-zero file size in
+:ref:`ref-tasks-install` will return true, and the file will be installed.
+
+Installing Additional Files Using Your Layer
+--------------------------------------------
+
+As another example, consider the main ``xserver-xf86-config`` recipe and a
+corresponding ``xserver-xf86-config`` append file both from the :term:`Source
+Directory`.  Here is the main ``xserver-xf86-config`` recipe, which is named
+``xserver-xf86-config_0.1.bb`` and located in the "meta" layer at
+``meta/recipes-graphics/xorg-xserver``::
+
+   SUMMARY = "X.Org X server configuration file"
+   HOMEPAGE = "http://www.x.org"
+   SECTION = "x11/base"
+   LICENSE = "MIT"
+   LIC_FILES_CHKSUM = "file://${COREBASE}/meta/COPYING.MIT;md5=3da9cfbcb788c80a0384361b4de20420"
+   PR = "r33"
+
+   SRC_URI = "file://xorg.conf"
+
+   S = "${WORKDIR}"
+
+   CONFFILES:${PN} = "${sysconfdir}/X11/xorg.conf"
+
+   PACKAGE_ARCH = "${MACHINE_ARCH}"
+   ALLOW_EMPTY:${PN} = "1"
+
+   do_install () {
+	if test -s ${WORKDIR}/xorg.conf; then
+		install -d ${D}/${sysconfdir}/X11
+		install -m 0644 ${WORKDIR}/xorg.conf ${D}/${sysconfdir}/X11/
+	fi
+   }
+
+Following is the append file, which is named ``xserver-xf86-config_%.bbappend``
+and is from the Raspberry Pi BSP Layer named ``meta-raspberrypi``. The
+file is in the layer at ``recipes-graphics/xorg-xserver``::
+
+   FILESEXTRAPATHS:prepend := "${THISDIR}/${PN}:"
+
+   SRC_URI:append:rpi = " \
+       file://xorg.conf.d/98-pitft.conf \
+       file://xorg.conf.d/99-calibration.conf \
+   "
+   do_install:append:rpi () {
+       PITFT="${@bb.utils.contains("MACHINE_FEATURES", "pitft", "1", "0", d)}"
+       if [ "${PITFT}" = "1" ]; then
+           install -d ${D}/${sysconfdir}/X11/xorg.conf.d/
+           install -m 0644 ${WORKDIR}/xorg.conf.d/98-pitft.conf ${D}/${sysconfdir}/X11/xorg.conf.d/
+           install -m 0644 ${WORKDIR}/xorg.conf.d/99-calibration.conf ${D}/${sysconfdir}/X11/xorg.conf.d/
+       fi
+   }
+
+   FILES:${PN}:append:rpi = " ${sysconfdir}/X11/xorg.conf.d/*"
+
+Building off of the previous example, we once again are setting the
+:term:`FILESEXTRAPATHS` variable.  In this case we are also using
+:term:`SRC_URI` to list additional source files to use when ``rpi`` is found in
+the list of :term:`OVERRIDES`.  The :ref:`ref-tasks-install` task will then perform a
+check for an additional :term:`MACHINE_FEATURES` that if set will cause these
+additional files to be installed.  These additional files are listed in
+:term:`FILES` so that they will be packaged.
+
+Prioritizing Your Layer
+=======================
+
+Each layer is assigned a priority value. Priority values control which
+layer takes precedence if there are recipe files with the same name in
+multiple layers. For these cases, the recipe file from the layer with a
+higher priority number takes precedence. Priority values also affect the
+order in which multiple ``.bbappend`` files for the same recipe are
+applied. You can either specify the priority manually, or allow the
+build system to calculate it based on the layer's dependencies.
+
+To specify the layer's priority manually, use the
+:term:`BBFILE_PRIORITY`
+variable and append the layer's root name::
+
+   BBFILE_PRIORITY_mylayer = "1"
+
+.. note::
+
+   It is possible for a recipe with a lower version number
+   :term:`PV` in a layer that has a higher
+   priority to take precedence.
+
+   Also, the layer priority does not currently affect the precedence
+   order of ``.conf`` or ``.bbclass`` files. Future versions of BitBake
+   might address this.
+
+Managing Layers
+===============
+
+You can use the BitBake layer management tool ``bitbake-layers`` to
+provide a view into the structure of recipes across a multi-layer
+project. Being able to generate output that reports on configured layers
+with their paths and priorities and on ``.bbappend`` files and their
+applicable recipes can help to reveal potential problems.
+
+For help on the BitBake layer management tool, use the following
+command::
+
+   $ bitbake-layers --help
+
+The following list describes the available commands:
+
+-  ``help:`` Displays general help or help on a specified command.
+
+-  ``show-layers:`` Shows the current configured layers.
+
+-  ``show-overlayed:`` Lists overlayed recipes. A recipe is overlayed
+   when a recipe with the same name exists in another layer that has a
+   higher layer priority.
+
+-  ``show-recipes:`` Lists available recipes and the layers that
+   provide them.
+
+-  ``show-appends:`` Lists ``.bbappend`` files and the recipe files to
+   which they apply.
+
+-  ``show-cross-depends:`` Lists dependency relationships between
+   recipes that cross layer boundaries.
+
+-  ``add-layer:`` Adds a layer to ``bblayers.conf``.
+
+-  ``remove-layer:`` Removes a layer from ``bblayers.conf``
+
+-  ``flatten:`` Flattens the layer configuration into a separate
+   output directory. Flattening your layer configuration builds a
+   "flattened" directory that contains the contents of all layers, with
+   any overlayed recipes removed and any ``.bbappend`` files appended to
+   the corresponding recipes. You might have to perform some manual
+   cleanup of the flattened layer as follows:
+
+   -  Non-recipe files (such as patches) are overwritten. The flatten
+      command shows a warning for these files.
+
+   -  Anything beyond the normal layer setup has been added to the
+      ``layer.conf`` file. Only the lowest priority layer's
+      ``layer.conf`` is used.
+
+   -  Overridden and appended items from ``.bbappend`` files need to be
+      cleaned up. The contents of each ``.bbappend`` end up in the
+      flattened recipe. However, if there are appended or changed
+      variable values, you need to tidy these up yourself. Consider the
+      following example. Here, the ``bitbake-layers`` command adds the
+      line ``#### bbappended ...`` so that you know where the following
+      lines originate::
+
+         ...
+         DESCRIPTION = "A useful utility"
+         ...
+         EXTRA_OECONF = "--enable-something"
+         ...
+
+         #### bbappended from meta-anotherlayer ####
+
+         DESCRIPTION = "Customized utility"
+         EXTRA_OECONF += "--enable-somethingelse"
+
+
+      Ideally, you would tidy up these utilities as follows::
+
+         ...
+         DESCRIPTION = "Customized utility"
+         ...
+         EXTRA_OECONF = "--enable-something --enable-somethingelse"
+         ...
+
+-  ``layerindex-fetch``: Fetches a layer from a layer index, along
+   with its dependent layers, and adds the layers to the
+   ``conf/bblayers.conf`` file.
+
+-  ``layerindex-show-depends``: Finds layer dependencies from the
+   layer index.
+
+-  ``create-layer``: Creates a basic layer.
+
+Creating a General Layer Using the ``bitbake-layers`` Script
+============================================================
+
+The ``bitbake-layers`` script with the ``create-layer`` subcommand
+simplifies creating a new general layer.
+
+.. note::
+
+   -  For information on BSP layers, see the ":ref:`bsp-guide/bsp:bsp layers`"
+      section in the Yocto
+      Project Board Specific (BSP) Developer's Guide.
+
+   -  In order to use a layer with the OpenEmbedded build system, you
+      need to add the layer to your ``bblayers.conf`` configuration
+      file. See the ":ref:`dev-manual/layers:adding a layer using the \`\`bitbake-layers\`\` script`"
+      section for more information.
+
+The default mode of the script's operation with this subcommand is to
+create a layer with the following:
+
+-  A layer priority of 6.
+
+-  A ``conf`` subdirectory that contains a ``layer.conf`` file.
+
+-  A ``recipes-example`` subdirectory that contains a further
+   subdirectory named ``example``, which contains an ``example.bb``
+   recipe file.
+
+-  A ``COPYING.MIT``, which is the license statement for the layer. The
+   script assumes you want to use the MIT license, which is typical for
+   most layers, for the contents of the layer itself.
+
+-  A ``README`` file, which is a file describing the contents of your
+   new layer.
+
+In its simplest form, you can use the following command form to create a
+layer. The command creates a layer whose name corresponds to
+"your_layer_name" in the current directory::
+
+   $ bitbake-layers create-layer your_layer_name
+
+As an example, the following command creates a layer named ``meta-scottrif``
+in your home directory::
+
+   $ cd /usr/home
+   $ bitbake-layers create-layer meta-scottrif
+   NOTE: Starting bitbake server...
+   Add your new layer with 'bitbake-layers add-layer meta-scottrif'
+
+If you want to set the priority of the layer to other than the default
+value of "6", you can either use the ``--priority`` option or you
+can edit the
+:term:`BBFILE_PRIORITY` value
+in the ``conf/layer.conf`` after the script creates it. Furthermore, if
+you want to give the example recipe file some name other than the
+default, you can use the ``--example-recipe-name`` option.
+
+The easiest way to see how the ``bitbake-layers create-layer`` command
+works is to experiment with the script. You can also read the usage
+information by entering the following::
+
+   $ bitbake-layers create-layer --help
+   NOTE: Starting bitbake server...
+   usage: bitbake-layers create-layer [-h] [--priority PRIORITY]
+                                      [--example-recipe-name EXAMPLERECIPE]
+                                      layerdir
+
+   Create a basic layer
+
+   positional arguments:
+     layerdir              Layer directory to create
+
+   optional arguments:
+     -h, --help            show this help message and exit
+     --priority PRIORITY, -p PRIORITY
+                           Layer directory to create
+     --example-recipe-name EXAMPLERECIPE, -e EXAMPLERECIPE
+                           Filename of the example recipe
+
+Adding a Layer Using the ``bitbake-layers`` Script
+==================================================
+
+Once you create your general layer, you must add it to your
+``bblayers.conf`` file. Adding the layer to this configuration file
+makes the OpenEmbedded build system aware of your layer so that it can
+search it for metadata.
+
+Add your layer by using the ``bitbake-layers add-layer`` command::
+
+   $ bitbake-layers add-layer your_layer_name
+
+Here is an example that adds a
+layer named ``meta-scottrif`` to the configuration file. Following the
+command that adds the layer is another ``bitbake-layers`` command that
+shows the layers that are in your ``bblayers.conf`` file::
+
+   $ bitbake-layers add-layer meta-scottrif
+   NOTE: Starting bitbake server...
+   Parsing recipes: 100% |##########################################################| Time: 0:00:49
+   Parsing of 1441 .bb files complete (0 cached, 1441 parsed). 2055 targets, 56 skipped, 0 masked, 0 errors.
+   $ bitbake-layers show-layers
+   NOTE: Starting bitbake server...
+   layer                 path                                      priority
+   ==========================================================================
+   meta                  /home/scottrif/poky/meta                  5
+   meta-poky             /home/scottrif/poky/meta-poky             5
+   meta-yocto-bsp        /home/scottrif/poky/meta-yocto-bsp        5
+   workspace             /home/scottrif/poky/build/workspace       99
+   meta-scottrif         /home/scottrif/poky/build/meta-scottrif   6
+
+
+Adding the layer to this file
+enables the build system to locate the layer during the build.
+
+.. note::
+
+   During a build, the OpenEmbedded build system looks in the layers
+   from the top of the list down to the bottom in that order.
+
--- a/documentation/dev-manual/libraries.rst
+++ b/documentation/dev-manual/libraries.rst
@@ -0,0 +1,267 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Working With Libraries
+**********************
+
+Libraries are an integral part of your system. This section describes
+some common practices you might find helpful when working with libraries
+to build your system:
+
+-  :ref:`How to include static library files
+   <dev-manual/libraries:including static library files>`
+
+-  :ref:`How to use the Multilib feature to combine multiple versions of
+   library files into a single image
+   <dev-manual/libraries:combining multiple versions of library files into one image>`
+
+-  :ref:`How to install multiple versions of the same library in parallel on
+   the same system
+   <dev-manual/libraries:installing multiple versions of the same library>`
+
+Including Static Library Files
+==============================
+
+If you are building a library and the library offers static linking, you
+can control which static library files (``*.a`` files) get included in
+the built library.
+
+The :term:`PACKAGES` and
+:term:`FILES:* <FILES>` variables in the
+``meta/conf/bitbake.conf`` configuration file define how files installed
+by the :ref:`ref-tasks-install` task are packaged. By default, the :term:`PACKAGES`
+variable includes ``${PN}-staticdev``, which represents all static
+library files.
+
+.. note::
+
+   Some previously released versions of the Yocto Project defined the
+   static library files through ``${PN}-dev``.
+
+Following is part of the BitBake configuration file, where you can see
+how the static library files are defined::
+
+   PACKAGE_BEFORE_PN ?= ""
+   PACKAGES = "${PN}-src ${PN}-dbg ${PN}-staticdev ${PN}-dev ${PN}-doc ${PN}-locale ${PACKAGE_BEFORE_PN} ${PN}"
+   PACKAGES_DYNAMIC = "^${PN}-locale-.*"
+   FILES = ""
+
+   FILES:${PN} = "${bindir}/* ${sbindir}/* ${libexecdir}/* ${libdir}/lib*${SOLIBS} \
+               ${sysconfdir} ${sharedstatedir} ${localstatedir} \
+               ${base_bindir}/* ${base_sbindir}/* \
+               ${base_libdir}/*${SOLIBS} \
+               ${base_prefix}/lib/udev ${prefix}/lib/udev \
+               ${base_libdir}/udev ${libdir}/udev \
+               ${datadir}/${BPN} ${libdir}/${BPN}/* \
+               ${datadir}/pixmaps ${datadir}/applications \
+               ${datadir}/idl ${datadir}/omf ${datadir}/sounds \
+               ${libdir}/bonobo/servers"
+
+   FILES:${PN}-bin = "${bindir}/* ${sbindir}/*"
+
+   FILES:${PN}-doc = "${docdir} ${mandir} ${infodir} ${datadir}/gtk-doc \
+               ${datadir}/gnome/help"
+   SECTION:${PN}-doc = "doc"
+
+   FILES_SOLIBSDEV ?= "${base_libdir}/lib*${SOLIBSDEV} ${libdir}/lib*${SOLIBSDEV}"
+   FILES:${PN}-dev = "${includedir} ${FILES_SOLIBSDEV} ${libdir}/*.la \
+                   ${libdir}/*.o ${libdir}/pkgconfig ${datadir}/pkgconfig \
+                   ${datadir}/aclocal ${base_libdir}/*.o \
+                   ${libdir}/${BPN}/*.la ${base_libdir}/*.la \
+                   ${libdir}/cmake ${datadir}/cmake"
+   SECTION:${PN}-dev = "devel"
+   ALLOW_EMPTY:${PN}-dev = "1"
+   RDEPENDS:${PN}-dev = "${PN} (= ${EXTENDPKGV})"
+
+   FILES:${PN}-staticdev = "${libdir}/*.a ${base_libdir}/*.a ${libdir}/${BPN}/*.a"
+   SECTION:${PN}-staticdev = "devel"
+   RDEPENDS:${PN}-staticdev = "${PN}-dev (= ${EXTENDPKGV})"
+
+Combining Multiple Versions of Library Files into One Image
+===========================================================
+
+The build system offers the ability to build libraries with different
+target optimizations or architecture formats and combine these together
+into one system image. You can link different binaries in the image
+against the different libraries as needed for specific use cases. This
+feature is called "Multilib".
+
+An example would be where you have most of a system compiled in 32-bit
+mode using 32-bit libraries, but you have something large, like a
+database engine, that needs to be a 64-bit application and uses 64-bit
+libraries. Multilib allows you to get the best of both 32-bit and 64-bit
+libraries.
+
+While the Multilib feature is most commonly used for 32 and 64-bit
+differences, the approach the build system uses facilitates different
+target optimizations. You could compile some binaries to use one set of
+libraries and other binaries to use a different set of libraries. The
+libraries could differ in architecture, compiler options, or other
+optimizations.
+
+There are several examples in the ``meta-skeleton`` layer found in the
+:term:`Source Directory`:
+
+-  :oe_git:`conf/multilib-example.conf </openembedded-core/tree/meta-skeleton/conf/multilib-example.conf>`
+   configuration file.
+
+-  :oe_git:`conf/multilib-example2.conf </openembedded-core/tree/meta-skeleton/conf/multilib-example2.conf>`
+   configuration file.
+
+-  :oe_git:`recipes-multilib/images/core-image-multilib-example.bb </openembedded-core/tree/meta-skeleton/recipes-multilib/images/core-image-multilib-example.bb>`
+   recipe
+
+Preparing to Use Multilib
+-------------------------
+
+User-specific requirements drive the Multilib feature. Consequently,
+there is no one "out-of-the-box" configuration that would
+meet your needs.
+
+In order to enable Multilib, you first need to ensure your recipe is
+extended to support multiple libraries. Many standard recipes are
+already extended and support multiple libraries. You can check in the
+``meta/conf/multilib.conf`` configuration file in the
+:term:`Source Directory` to see how this is
+done using the
+:term:`BBCLASSEXTEND` variable.
+Eventually, all recipes will be covered and this list will not be
+needed.
+
+For the most part, the :ref:`Multilib <ref-classes-multilib*>`
+class extension works automatically to
+extend the package name from ``${PN}`` to ``${MLPREFIX}${PN}``, where
+:term:`MLPREFIX` is the particular multilib (e.g. "lib32-" or "lib64-").
+Standard variables such as
+:term:`DEPENDS`,
+:term:`RDEPENDS`,
+:term:`RPROVIDES`,
+:term:`RRECOMMENDS`,
+:term:`PACKAGES`, and
+:term:`PACKAGES_DYNAMIC` are
+automatically extended by the system. If you are extending any manual
+code in the recipe, you can use the ``${MLPREFIX}`` variable to ensure
+those names are extended correctly.
+
+Using Multilib
+--------------
+
+After you have set up the recipes, you need to define the actual
+combination of multiple libraries you want to build. You accomplish this
+through your ``local.conf`` configuration file in the
+:term:`Build Directory`. An example configuration would be as follows::
+
+   MACHINE = "qemux86-64"
+   require conf/multilib.conf
+   MULTILIBS = "multilib:lib32"
+   DEFAULTTUNE:virtclass-multilib-lib32 = "x86"
+   IMAGE_INSTALL:append = " lib32-glib-2.0"
+
+This example enables an additional library named
+``lib32`` alongside the normal target packages. When combining these
+"lib32" alternatives, the example uses "x86" for tuning. For information
+on this particular tuning, see
+``meta/conf/machine/include/ia32/arch-ia32.inc``.
+
+The example then includes ``lib32-glib-2.0`` in all the images, which
+illustrates one method of including a multiple library dependency. You
+can use a normal image build to include this dependency, for example::
+
+   $ bitbake core-image-sato
+
+You can also build Multilib packages
+specifically with a command like this::
+
+   $ bitbake lib32-glib-2.0
+
+Additional Implementation Details
+---------------------------------
+
+There are generic implementation details as well as details that are specific to
+package management systems. Following are implementation details
+that exist regardless of the package management system:
+
+-  The typical convention used for the class extension code as used by
+   Multilib assumes that all package names specified in
+   :term:`PACKAGES` that contain
+   ``${PN}`` have ``${PN}`` at the start of the name. When that
+   convention is not followed and ``${PN}`` appears at the middle or the
+   end of a name, problems occur.
+
+-  The :term:`TARGET_VENDOR`
+   value under Multilib will be extended to "-vendormlmultilib" (e.g.
+   "-pokymllib32" for a "lib32" Multilib with Poky). The reason for this
+   slightly unwieldy contraction is that any "-" characters in the
+   vendor string presently break Autoconf's ``config.sub``, and other
+   separators are problematic for different reasons.
+
+Here are the implementation details for the RPM Package Management System:
+
+-  A unique architecture is defined for the Multilib packages, along
+   with creating a unique deploy folder under ``tmp/deploy/rpm`` in the
+   :term:`Build Directory`. For example, consider ``lib32`` in a
+   ``qemux86-64`` image. The possible architectures in the system are "all",
+   "qemux86_64", "lib32:qemux86_64", and "lib32:x86".
+
+-  The ``${MLPREFIX}`` variable is stripped from ``${PN}`` during RPM
+   packaging. The naming for a normal RPM package and a Multilib RPM
+   package in a ``qemux86-64`` system resolves to something similar to
+   ``bash-4.1-r2.x86_64.rpm`` and ``bash-4.1.r2.lib32_x86.rpm``,
+   respectively.
+
+-  When installing a Multilib image, the RPM backend first installs the
+   base image and then installs the Multilib libraries.
+
+-  The build system relies on RPM to resolve the identical files in the
+   two (or more) Multilib packages.
+
+Here are the implementation details for the IPK Package Management System:
+
+-  The ``${MLPREFIX}`` is not stripped from ``${PN}`` during IPK
+   packaging. The naming for a normal RPM package and a Multilib IPK
+   package in a ``qemux86-64`` system resolves to something like
+   ``bash_4.1-r2.x86_64.ipk`` and ``lib32-bash_4.1-rw:x86.ipk``,
+   respectively.
+
+-  The IPK deploy folder is not modified with ``${MLPREFIX}`` because
+   packages with and without the Multilib feature can exist in the same
+   folder due to the ``${PN}`` differences.
+
+-  IPK defines a sanity check for Multilib installation using certain
+   rules for file comparison, overridden, etc.
+
+Installing Multiple Versions of the Same Library
+================================================
+
+There are be situations where you need to install and use multiple versions
+of the same library on the same system at the same time. This
+almost always happens when a library API changes and you have
+multiple pieces of software that depend on the separate versions of the
+library. To accommodate these situations, you can install multiple
+versions of the same library in parallel on the same system.
+
+The process is straightforward as long as the libraries use proper
+versioning. With properly versioned libraries, all you need to do to
+individually specify the libraries is create separate, appropriately
+named recipes where the :term:`PN` part of
+the name includes a portion that differentiates each library version
+(e.g. the major part of the version number). Thus, instead of having a
+single recipe that loads one version of a library (e.g. ``clutter``),
+you provide multiple recipes that result in different versions of the
+libraries you want. As an example, the following two recipes would allow
+the two separate versions of the ``clutter`` library to co-exist on the
+same system:
+
+.. code-block:: none
+
+   clutter-1.6_1.6.20.bb
+   clutter-1.8_1.8.4.bb
+
+Additionally, if
+you have other recipes that depend on a given library, you need to use
+the :term:`DEPENDS` variable to
+create the dependency. Continuing with the same example, if you want to
+have a recipe depend on the 1.8 version of the ``clutter`` library, use
+the following in your recipe::
+
+   DEPENDS = "clutter-1.8"
+
--- a/documentation/dev-manual/licenses.rst
+++ b/documentation/dev-manual/licenses.rst
@@ -0,0 +1,539 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Working With Licenses
+*********************
+
+As mentioned in the ":ref:`overview-manual/development-environment:licensing`"
+section in the Yocto Project Overview and Concepts Manual, open source
+projects are open to the public and they consequently have different
+licensing structures in place. This section describes the mechanism by
+which the :term:`OpenEmbedded Build System`
+tracks changes to
+licensing text and covers how to maintain open source license compliance
+during your project's lifecycle. The section also describes how to
+enable commercially licensed recipes, which by default are disabled.
+
+Tracking License Changes
+========================
+
+The license of an upstream project might change in the future. In order
+to prevent these changes going unnoticed, the
+:term:`LIC_FILES_CHKSUM`
+variable tracks changes to the license text. The checksums are validated
+at the end of the configure step, and if the checksums do not match, the
+build will fail.
+
+Specifying the ``LIC_FILES_CHKSUM`` Variable
+--------------------------------------------
+
+The :term:`LIC_FILES_CHKSUM` variable contains checksums of the license text
+in the source code for the recipe. Following is an example of how to
+specify :term:`LIC_FILES_CHKSUM`::
+
+   LIC_FILES_CHKSUM = "file://COPYING;md5=xxxx \
+                       file://licfile1.txt;beginline=5;endline=29;md5=yyyy \
+                       file://licfile2.txt;endline=50;md5=zzzz \
+                       ..."
+
+.. note::
+
+   -  When using "beginline" and "endline", realize that line numbering
+      begins with one and not zero. Also, the included lines are
+      inclusive (i.e. lines five through and including 29 in the
+      previous example for ``licfile1.txt``).
+
+   -  When a license check fails, the selected license text is included
+      as part of the QA message. Using this output, you can determine
+      the exact start and finish for the needed license text.
+
+The build system uses the :term:`S`
+variable as the default directory when searching files listed in
+:term:`LIC_FILES_CHKSUM`. The previous example employs the default
+directory.
+
+Consider this next example::
+
+   LIC_FILES_CHKSUM = "file://src/ls.c;beginline=5;endline=16;\
+                                       md5=bb14ed3c4cda583abc85401304b5cd4e"
+   LIC_FILES_CHKSUM = "file://${WORKDIR}/license.html;md5=5c94767cedb5d6987c902ac850ded2c6"
+
+The first line locates a file in ``${S}/src/ls.c`` and isolates lines
+five through 16 as license text. The second line refers to a file in
+:term:`WORKDIR`.
+
+Note that :term:`LIC_FILES_CHKSUM` variable is mandatory for all recipes,
+unless the :term:`LICENSE` variable is set to "CLOSED".
+
+Explanation of Syntax
+---------------------
+
+As mentioned in the previous section, the :term:`LIC_FILES_CHKSUM` variable
+lists all the important files that contain the license text for the
+source code. It is possible to specify a checksum for an entire file, or
+a specific section of a file (specified by beginning and ending line
+numbers with the "beginline" and "endline" parameters, respectively).
+The latter is useful for source files with a license notice header,
+README documents, and so forth. If you do not use the "beginline"
+parameter, then it is assumed that the text begins on the first line of
+the file. Similarly, if you do not use the "endline" parameter, it is
+assumed that the license text ends with the last line of the file.
+
+The "md5" parameter stores the md5 checksum of the license text. If the
+license text changes in any way as compared to this parameter then a
+mismatch occurs. This mismatch triggers a build failure and notifies the
+developer. Notification allows the developer to review and address the
+license text changes. Also note that if a mismatch occurs during the
+build, the correct md5 checksum is placed in the build log and can be
+easily copied to the recipe.
+
+There is no limit to how many files you can specify using the
+:term:`LIC_FILES_CHKSUM` variable. Generally, however, every project
+requires a few specifications for license tracking. Many projects have a
+"COPYING" file that stores the license information for all the source
+code files. This practice allows you to just track the "COPYING" file as
+long as it is kept up to date.
+
+.. note::
+
+   -  If you specify an empty or invalid "md5" parameter,
+      :term:`BitBake` returns an md5
+      mis-match error and displays the correct "md5" parameter value
+      during the build. The correct parameter is also captured in the
+      build log.
+
+   -  If the whole file contains only license text, you do not need to
+      use the "beginline" and "endline" parameters.
+
+Enabling Commercially Licensed Recipes
+======================================
+
+By default, the OpenEmbedded build system disables components that have
+commercial or other special licensing requirements. Such requirements
+are defined on a recipe-by-recipe basis through the
+:term:`LICENSE_FLAGS` variable
+definition in the affected recipe. For instance, the
+``poky/meta/recipes-multimedia/gstreamer/gst-plugins-ugly`` recipe
+contains the following statement::
+
+   LICENSE_FLAGS = "commercial"
+
+Here is a
+slightly more complicated example that contains both an explicit recipe
+name and version (after variable expansion)::
+
+   LICENSE_FLAGS = "license_${PN}_${PV}"
+
+In order for a component restricted by a
+:term:`LICENSE_FLAGS` definition to be enabled and included in an image, it
+needs to have a matching entry in the global
+:term:`LICENSE_FLAGS_ACCEPTED`
+variable, which is a variable typically defined in your ``local.conf``
+file. For example, to enable the
+``poky/meta/recipes-multimedia/gstreamer/gst-plugins-ugly`` package, you
+could add either the string "commercial_gst-plugins-ugly" or the more
+general string "commercial" to :term:`LICENSE_FLAGS_ACCEPTED`. See the
+":ref:`dev-manual/licenses:license flag matching`" section for a full
+explanation of how :term:`LICENSE_FLAGS` matching works. Here is the
+example::
+
+   LICENSE_FLAGS_ACCEPTED = "commercial_gst-plugins-ugly"
+
+Likewise, to additionally enable the package built from the recipe
+containing ``LICENSE_FLAGS = "license_${PN}_${PV}"``, and assuming that
+the actual recipe name was ``emgd_1.10.bb``, the following string would
+enable that package as well as the original ``gst-plugins-ugly``
+package::
+
+   LICENSE_FLAGS_ACCEPTED = "commercial_gst-plugins-ugly license_emgd_1.10"
+
+As a convenience, you do not need to specify the
+complete license string for every package. You can use
+an abbreviated form, which consists of just the first portion or
+portions of the license string before the initial underscore character
+or characters. A partial string will match any license that contains the
+given string as the first portion of its license. For example, the
+following value will also match both of the packages
+previously mentioned as well as any other packages that have licenses
+starting with "commercial" or "license"::
+
+   LICENSE_FLAGS_ACCEPTED = "commercial license"
+
+License Flag Matching
+---------------------
+
+License flag matching allows you to control what recipes the
+OpenEmbedded build system includes in the build. Fundamentally, the
+build system attempts to match :term:`LICENSE_FLAGS` strings found in
+recipes against strings found in :term:`LICENSE_FLAGS_ACCEPTED`.
+A match causes the build system to include a recipe in the
+build, while failure to find a match causes the build system to exclude
+a recipe.
+
+In general, license flag matching is simple. However, understanding some
+concepts will help you correctly and effectively use matching.
+
+Before a flag defined by a particular recipe is tested against the
+entries of :term:`LICENSE_FLAGS_ACCEPTED`, the expanded
+string ``_${PN}`` is appended to the flag. This expansion makes each
+:term:`LICENSE_FLAGS` value recipe-specific. After expansion, the
+string is then matched against the entries. Thus, specifying
+``LICENSE_FLAGS = "commercial"`` in recipe "foo", for example, results
+in the string ``"commercial_foo"``. And, to create a match, that string
+must appear among the entries of :term:`LICENSE_FLAGS_ACCEPTED`.
+
+Judicious use of the :term:`LICENSE_FLAGS` strings and the contents of the
+:term:`LICENSE_FLAGS_ACCEPTED` variable allows you a lot of flexibility for
+including or excluding recipes based on licensing. For example, you can
+broaden the matching capabilities by using license flags string subsets
+in :term:`LICENSE_FLAGS_ACCEPTED`.
+
+.. note::
+
+   When using a string subset, be sure to use the part of the expanded
+   string that precedes the appended underscore character (e.g.
+   ``usethispart_1.3``, ``usethispart_1.4``, and so forth).
+
+For example, simply specifying the string "commercial" in the
+:term:`LICENSE_FLAGS_ACCEPTED` variable matches any expanded
+:term:`LICENSE_FLAGS` definition that starts with the string
+"commercial" such as "commercial_foo" and "commercial_bar", which
+are the strings the build system automatically generates for
+hypothetical recipes named "foo" and "bar" assuming those recipes simply
+specify the following::
+
+   LICENSE_FLAGS = "commercial"
+
+Thus, you can choose to exhaustively enumerate each license flag in the
+list and allow only specific recipes into the image, or you can use a
+string subset that causes a broader range of matches to allow a range of
+recipes into the image.
+
+This scheme works even if the :term:`LICENSE_FLAGS` string already has
+``_${PN}`` appended. For example, the build system turns the license
+flag "commercial_1.2_foo" into "commercial_1.2_foo_foo" and would match
+both the general "commercial" and the specific "commercial_1.2_foo"
+strings found in the :term:`LICENSE_FLAGS_ACCEPTED` variable, as expected.
+
+Here are some other scenarios:
+
+-  You can specify a versioned string in the recipe such as
+   "commercial_foo_1.2" in a "foo" recipe. The build system expands this
+   string to "commercial_foo_1.2_foo". Combine this license flag with a
+   :term:`LICENSE_FLAGS_ACCEPTED` variable that has the string
+   "commercial" and you match the flag along with any other flag that
+   starts with the string "commercial".
+
+-  Under the same circumstances, you can add "commercial_foo" in the
+   :term:`LICENSE_FLAGS_ACCEPTED` variable and the build system not only
+   matches "commercial_foo_1.2" but also matches any license flag with
+   the string "commercial_foo", regardless of the version.
+
+-  You can be very specific and use both the package and version parts
+   in the :term:`LICENSE_FLAGS_ACCEPTED` list (e.g.
+   "commercial_foo_1.2") to specifically match a versioned recipe.
+
+Other Variables Related to Commercial Licenses
+----------------------------------------------
+
+There are other helpful variables related to commercial license handling,
+defined in the
+``poky/meta/conf/distro/include/default-distrovars.inc`` file::
+
+   COMMERCIAL_AUDIO_PLUGINS ?= ""
+   COMMERCIAL_VIDEO_PLUGINS ?= ""
+
+If you want to enable these components, you can do so by making sure you have
+statements similar to the following in your ``local.conf`` configuration file::
+
+   COMMERCIAL_AUDIO_PLUGINS = "gst-plugins-ugly-mad \
+       gst-plugins-ugly-mpegaudioparse"
+   COMMERCIAL_VIDEO_PLUGINS = "gst-plugins-ugly-mpeg2dec \
+       gst-plugins-ugly-mpegstream gst-plugins-bad-mpegvideoparse"
+   LICENSE_FLAGS_ACCEPTED = "commercial_gst-plugins-ugly commercial_gst-plugins-bad commercial_qmmp"
+
+Of course, you could also create a matching list for those components using the
+more general "commercial" string in the :term:`LICENSE_FLAGS_ACCEPTED` variable,
+but that would also enable all the other packages with :term:`LICENSE_FLAGS`
+containing "commercial", which you may or may not want::
+
+   LICENSE_FLAGS_ACCEPTED = "commercial"
+
+Specifying audio and video plugins as part of the
+:term:`COMMERCIAL_AUDIO_PLUGINS` and :term:`COMMERCIAL_VIDEO_PLUGINS` statements
+(along with :term:`LICENSE_FLAGS_ACCEPTED`) includes the plugins or
+components into built images, thus adding support for media formats or
+components.
+
+.. note::
+
+   GStreamer "ugly" and "bad" plugins are actually available through
+   open source licenses. However, the "ugly" ones can be subject to software
+   patents in some countries, making it necessary to pay licensing fees
+   to distribute them. The "bad" ones are just deemed unreliable by the
+   GStreamer community and should therefore be used with care.
+
+Maintaining Open Source License Compliance During Your Product's Lifecycle
+==========================================================================
+
+One of the concerns for a development organization using open source
+software is how to maintain compliance with various open source
+licensing during the lifecycle of the product. While this section does
+not provide legal advice or comprehensively cover all scenarios, it does
+present methods that you can use to assist you in meeting the compliance
+requirements during a software release.
+
+With hundreds of different open source licenses that the Yocto Project
+tracks, it is difficult to know the requirements of each and every
+license. However, the requirements of the major FLOSS licenses can begin
+to be covered by assuming that there are three main areas of concern:
+
+-  Source code must be provided.
+
+-  License text for the software must be provided.
+
+-  Compilation scripts and modifications to the source code must be
+   provided.
+
+-  spdx files can be provided.
+
+There are other requirements beyond the scope of these three and the
+methods described in this section (e.g. the mechanism through which
+source code is distributed).
+
+As different organizations have different ways of releasing software,
+there can be multiple ways of meeting license obligations. At
+least, we describe here two methods for achieving compliance:
+
+-  The first method is to use OpenEmbedded's ability to provide
+   the source code, provide a list of licenses, as well as
+   compilation scripts and source code modifications.
+
+   The remainder of this section describes supported methods to meet
+   the previously mentioned three requirements.
+
+-  The second method is to generate a *Software Bill of Materials*
+   (:term:`SBoM`), as described in the ":doc:`/dev-manual/sbom`" section.
+   Not only do you generate :term:`SPDX` output which can be used meet
+   license compliance requirements (except for sharing the build system
+   and layers sources for the time being), but this output also includes
+   component version and patch information which can be used
+   for vulnerability assessment.
+
+Whatever method you choose, prior to releasing images, sources,
+and the build system, you should audit all artifacts to ensure
+completeness.
+
+.. note::
+
+   The Yocto Project generates a license manifest during image creation
+   that is located in
+   ``${DEPLOY_DIR}/licenses/<image-name>-<machine>.rootfs-<datestamp>/``
+   to assist with any audits.
+
+Providing the Source Code
+-------------------------
+
+Compliance activities should begin before you generate the final image.
+The first thing you should look at is the requirement that tops the list
+for most compliance groups --- providing the source. The Yocto Project has
+a few ways of meeting this requirement.
+
+One of the easiest ways to meet this requirement is to provide the
+entire :term:`DL_DIR` used by the
+build. This method, however, has a few issues. The most obvious is the
+size of the directory since it includes all sources used in the build
+and not just the source used in the released image. It will include
+toolchain source, and other artifacts, which you would not generally
+release. However, the more serious issue for most companies is
+accidental release of proprietary software. The Yocto Project provides
+an :ref:`ref-classes-archiver` class to help avoid some of these concerns.
+
+Before you employ :term:`DL_DIR` or the :ref:`ref-classes-archiver` class, you
+need to decide how you choose to provide source. The source
+:ref:`ref-classes-archiver` class can generate tarballs and SRPMs and can
+create them with various levels of compliance in mind.
+
+One way of doing this (but certainly not the only way) is to release
+just the source as a tarball. You can do this by adding the following to
+the ``local.conf`` file found in the :term:`Build Directory`::
+
+   INHERIT += "archiver"
+   ARCHIVER_MODE[src] = "original"
+
+During the creation of your
+image, the source from all recipes that deploy packages to the image is
+placed within subdirectories of ``DEPLOY_DIR/sources`` based on the
+:term:`LICENSE` for each recipe.
+Releasing the entire directory enables you to comply with requirements
+concerning providing the unmodified source. It is important to note that
+the size of the directory can get large.
+
+A way to help mitigate the size issue is to only release tarballs for
+licenses that require the release of source. Let us assume you are only
+concerned with GPL code as identified by running the following script:
+
+.. code-block:: shell
+
+   # Script to archive a subset of packages matching specific license(s)
+   # Source and license files are copied into sub folders of package folder
+   # Must be run from build folder
+   #!/bin/bash
+   src_release_dir="source-release"
+   mkdir -p $src_release_dir
+   for a in tmp/deploy/sources/*; do
+      for d in $a/*; do
+         # Get package name from path
+         p=`basename $d`
+         p=${p%-*}
+         p=${p%-*}
+         # Only archive GPL packages (update *GPL* regex for your license check)
+         numfiles=`ls tmp/deploy/licenses/$p/*GPL* 2> /dev/null | wc -l`
+         if [ $numfiles -ge 1 ]; then
+            echo Archiving $p
+            mkdir -p $src_release_dir/$p/source
+            cp $d/* $src_release_dir/$p/source 2> /dev/null
+            mkdir -p $src_release_dir/$p/license
+            cp tmp/deploy/licenses/$p/* $src_release_dir/$p/license 2> /dev/null
+         fi
+      done
+   done
+
+At this point, you
+could create a tarball from the ``gpl_source_release`` directory and
+provide that to the end user. This method would be a step toward
+achieving compliance with section 3a of GPLv2 and with section 6 of
+GPLv3.
+
+Providing License Text
+~~~~~~~~~~~~~~~~~~~~~~
+
+One requirement that is often overlooked is inclusion of license text.
+This requirement also needs to be dealt with prior to generating the
+final image. Some licenses require the license text to accompany the
+binary. You can achieve this by adding the following to your
+``local.conf`` file::
+
+   COPY_LIC_MANIFEST = "1"
+   COPY_LIC_DIRS = "1"
+   LICENSE_CREATE_PACKAGE = "1"
+
+Adding these statements to the
+configuration file ensures that the licenses collected during package
+generation are included on your image.
+
+.. note::
+
+   Setting all three variables to "1" results in the image having two
+   copies of the same license file. One copy resides in
+   ``/usr/share/common-licenses`` and the other resides in
+   ``/usr/share/license``.
+
+   The reason for this behavior is because
+   :term:`COPY_LIC_DIRS` and
+   :term:`COPY_LIC_MANIFEST`
+   add a copy of the license when the image is built but do not offer a
+   path for adding licenses for newly installed packages to an image.
+   :term:`LICENSE_CREATE_PACKAGE`
+   adds a separate package and an upgrade path for adding licenses to an
+   image.
+
+As the source :ref:`ref-classes-archiver` class has already archived the
+original unmodified source that contains the license files, you would have
+already met the requirements for inclusion of the license information
+with source as defined by the GPL and other open source licenses.
+
+Providing Compilation Scripts and Source Code Modifications
+-----------------------------------------------------------
+
+At this point, we have addressed all we need prior to generating the
+image. The next two requirements are addressed during the final
+packaging of the release.
+
+By releasing the version of the OpenEmbedded build system and the layers
+used during the build, you will be providing both compilation scripts
+and the source code modifications in one step.
+
+If the deployment team has a :ref:`overview-manual/concepts:bsp layer`
+and a distro layer, and those
+those layers are used to patch, compile, package, or modify (in any way)
+any open source software included in your released images, you might be
+required to release those layers under section 3 of GPLv2 or section 1
+of GPLv3. One way of doing that is with a clean checkout of the version
+of the Yocto Project and layers used during your build. Here is an
+example:
+
+.. code-block:: shell
+
+   # We built using the dunfell branch of the poky repo
+   $ git clone -b dunfell git://git.yoctoproject.org/poky
+   $ cd poky
+   # We built using the release_branch for our layers
+   $ git clone -b release_branch git://git.mycompany.com/meta-my-bsp-layer
+   $ git clone -b release_branch git://git.mycompany.com/meta-my-software-layer
+   # clean up the .git repos
+   $ find . -name ".git" -type d -exec rm -rf {} \;
+
+One
+thing a development organization might want to consider for end-user
+convenience is to modify ``meta-poky/conf/bblayers.conf.sample`` to
+ensure that when the end user utilizes the released build system to
+build an image, the development organization's layers are included in
+the ``bblayers.conf`` file automatically::
+
+   # POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf
+   # changes incompatibly
+   POKY_BBLAYERS_CONF_VERSION = "2"
+
+   BBPATH = "${TOPDIR}"
+   BBFILES ?= ""
+
+   BBLAYERS ?= " \
+     ##OEROOT##/meta \
+     ##OEROOT##/meta-poky \
+     ##OEROOT##/meta-yocto-bsp \
+     ##OEROOT##/meta-mylayer \
+     "
+
+Creating and
+providing an archive of the :term:`Metadata`
+layers (recipes, configuration files, and so forth) enables you to meet
+your requirements to include the scripts to control compilation as well
+as any modifications to the original source.
+
+Compliance Limitations with Executables Built from Static Libraries
+-------------------------------------------------------------------
+
+When package A is added to an image via the :term:`RDEPENDS` or :term:`RRECOMMENDS`
+mechanisms as well as explicitly included in the image recipe with
+:term:`IMAGE_INSTALL`, and depends on a static linked library recipe B
+(``DEPENDS += "B"``), package B will neither appear in the generated license
+manifest nor in the generated source tarballs.  This occurs as the
+:ref:`ref-classes-license` and :ref:`ref-classes-archiver` classes assume that
+only packages included via :term:`RDEPENDS` or :term:`RRECOMMENDS`
+end up in the image.
+
+As a result, potential obligations regarding license compliance for package B
+may not be met.
+
+The Yocto Project doesn't enable static libraries by default, in part because
+of this issue. Before a solution to this limitation is found, you need to
+keep in mind that if your root filesystem is built from static libraries,
+you will need to manually ensure that your deliveries are compliant
+with the licenses of these libraries.
+
+Copying Non Standard Licenses
+=============================
+
+Some packages, such as the linux-firmware package, have many licenses
+that are not in any way common. You can avoid adding a lot of these
+types of common license files, which are only applicable to a specific
+package, by using the
+:term:`NO_GENERIC_LICENSE`
+variable. Using this variable also avoids QA errors when you use a
+non-common, non-CLOSED license in a recipe.
+
+Here is an example that uses the ``LICENSE.Abilis.txt`` file as
+the license from the fetched source::
+
+   NO_GENERIC_LICENSE[Firmware-Abilis] = "LICENSE.Abilis.txt"
+
--- a/documentation/dev-manual/new-machine.rst
+++ b/documentation/dev-manual/new-machine.rst
@@ -0,0 +1,118 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Adding a New Machine
+====================
+
+Adding a new machine to the Yocto Project is a straightforward process.
+This section describes how to add machines that are similar to those
+that the Yocto Project already supports.
+
+.. note::
+
+   Although well within the capabilities of the Yocto Project, adding a
+   totally new architecture might require changes to ``gcc``/``glibc``
+   and to the site information, which is beyond the scope of this
+   manual.
+
+For a complete example that shows how to add a new machine, see the
+":ref:`bsp-guide/bsp:creating a new bsp layer using the \`\`bitbake-layers\`\` script`"
+section in the Yocto Project Board Support Package (BSP) Developer's
+Guide.
+
+Adding the Machine Configuration File
+=====================================
+
+To add a new machine, you need to add a new machine configuration file
+to the layer's ``conf/machine`` directory. This configuration file
+provides details about the device you are adding.
+
+The OpenEmbedded build system uses the root name of the machine
+configuration file to reference the new machine. For example, given a
+machine configuration file named ``crownbay.conf``, the build system
+recognizes the machine as "crownbay".
+
+The most important variables you must set in your machine configuration
+file or include from a lower-level configuration file are as follows:
+
+-  :term:`TARGET_ARCH` (e.g. "arm")
+
+-  ``PREFERRED_PROVIDER_virtual/kernel``
+
+-  :term:`MACHINE_FEATURES` (e.g. "apm screen wifi")
+
+You might also need these variables:
+
+-  :term:`SERIAL_CONSOLES` (e.g. "115200;ttyS0 115200;ttyS1")
+
+-  :term:`KERNEL_IMAGETYPE` (e.g. "zImage")
+
+-  :term:`IMAGE_FSTYPES` (e.g. "tar.gz jffs2")
+
+You can find full details on these variables in the reference section.
+You can leverage existing machine ``.conf`` files from
+``meta-yocto-bsp/conf/machine/``.
+
+Adding a Kernel for the Machine
+===============================
+
+The OpenEmbedded build system needs to be able to build a kernel for the
+machine. You need to either create a new kernel recipe for this machine,
+or extend an existing kernel recipe. You can find several kernel recipe
+examples in the Source Directory at ``meta/recipes-kernel/linux`` that
+you can use as references.
+
+If you are creating a new kernel recipe, normal recipe-writing rules
+apply for setting up a :term:`SRC_URI`. Thus, you need to specify any
+necessary patches and set :term:`S` to point at the source code. You need to
+create a :ref:`ref-tasks-configure` task that configures the unpacked kernel with
+a ``defconfig`` file. You can do this by using a ``make defconfig``
+command or, more commonly, by copying in a suitable ``defconfig`` file
+and then running ``make oldconfig``. By making use of ``inherit kernel``
+and potentially some of the ``linux-*.inc`` files, most other
+functionality is centralized and the defaults of the class normally work
+well.
+
+If you are extending an existing kernel recipe, it is usually a matter
+of adding a suitable ``defconfig`` file. The file needs to be added into
+a location similar to ``defconfig`` files used for other machines in a
+given kernel recipe. A possible way to do this is by listing the file in
+the :term:`SRC_URI` and adding the machine to the expression in
+:term:`COMPATIBLE_MACHINE`::
+
+   COMPATIBLE_MACHINE = '(qemux86|qemumips)'
+
+For more information on ``defconfig`` files, see the
+":ref:`kernel-dev/common:changing the configuration`"
+section in the Yocto Project Linux Kernel Development Manual.
+
+Adding a Formfactor Configuration File
+======================================
+
+A formfactor configuration file provides information about the target
+hardware for which the image is being built and information that the
+build system cannot obtain from other sources such as the kernel. Some
+examples of information contained in a formfactor configuration file
+include framebuffer orientation, whether or not the system has a
+keyboard, the positioning of the keyboard in relation to the screen, and
+the screen resolution.
+
+The build system uses reasonable defaults in most cases. However, if
+customization is necessary, you need to create a ``machconfig`` file in
+the ``meta/recipes-bsp/formfactor/files`` directory. This directory
+contains directories for specific machines such as ``qemuarm`` and
+``qemux86``. For information about the settings available and the
+defaults, see the ``meta/recipes-bsp/formfactor/files/config`` file
+found in the same area.
+
+Following is an example for "qemuarm" machine::
+
+   HAVE_TOUCHSCREEN=1
+   HAVE_KEYBOARD=1
+   DISPLAY_CAN_ROTATE=0
+   DISPLAY_ORIENTATION=0
+   #DISPLAY_WIDTH_PIXELS=640
+   #DISPLAY_HEIGHT_PIXELS=480
+   #DISPLAY_BPP=16
+   DISPLAY_DPI=150
+   DISPLAY_SUBPIXEL_ORDER=vrgb
+
--- a/documentation/dev-manual/new-recipe.rst
+++ b/documentation/dev-manual/new-recipe.rst
--- a/documentation/dev-manual/packages.rst
+++ b/documentation/dev-manual/packages.rst
--- a/documentation/dev-manual/prebuilt-libraries.rst
+++ b/documentation/dev-manual/prebuilt-libraries.rst
@@ -0,0 +1,209 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Working with Pre-Built Libraries
+********************************
+
+Introduction
+============
+
+Some library vendors do not release source code for their software but do
+release pre-built binaries. When shared libraries are built, they should
+be versioned (see `this article
+<https://tldp.org/HOWTO/Program-Library-HOWTO/shared-libraries.html>`__
+for some background), but sometimes this is not done.
+
+To summarize, a versioned library must meet two conditions:
+
+#.    The filename must have the version appended, for example: ``libfoo.so.1.2.3``.
+#.    The library must have the ELF tag ``SONAME`` set to the major version
+      of the library, for example: ``libfoo.so.1``. You can check this by
+      running ``readelf -d filename | grep SONAME``.
+
+This section shows how to deal with both versioned and unversioned
+pre-built libraries.
+
+Versioned Libraries
+===================
+
+In this example we work with pre-built libraries for the FT4222H USB I/O chip.
+Libraries are built for several target architecture variants and packaged in
+an archive as follows::
+
+   ├── build-arm-hisiv300
+   │   └── libft4222.so.1.4.4.44
+   ├── build-arm-v5-sf
+   │   └── libft4222.so.1.4.4.44
+   ├── build-arm-v6-hf
+   │   └── libft4222.so.1.4.4.44
+   ├── build-arm-v7-hf
+   │   └── libft4222.so.1.4.4.44
+   ├── build-arm-v8
+   │   └── libft4222.so.1.4.4.44
+   ├── build-i386
+   │   └── libft4222.so.1.4.4.44
+   ├── build-i486
+   │   └── libft4222.so.1.4.4.44
+   ├── build-mips-eglibc-hf
+   │   └── libft4222.so.1.4.4.44
+   ├── build-pentium
+   │   └── libft4222.so.1.4.4.44
+   ├── build-x86_64
+   │   └── libft4222.so.1.4.4.44
+   ├── examples
+   │   ├── get-version.c
+   │   ├── i2cm.c
+   │   ├── spim.c
+   │   └── spis.c
+   ├── ftd2xx.h
+   ├── install4222.sh
+   ├── libft4222.h
+   ├── ReadMe.txt
+   └── WinTypes.h
+
+To write a recipe to use such a library in your system:
+
+-  The vendor will probably have a proprietary licence, so set
+   :term:`LICENSE_FLAGS` in your recipe.
+-  The vendor provides a tarball containing libraries so set :term:`SRC_URI`
+   appropriately.
+-  Set :term:`COMPATIBLE_HOST` so that the recipe cannot be used with an
+   unsupported architecture. In the following example, we only support the 32
+   and 64 bit variants of the ``x86`` architecture.
+-  As the vendor provides versioned libraries, we can use ``oe_soinstall``
+   from :ref:`ref-classes-utils` to install the shared library and create
+   symbolic links. If the vendor does not do this, we need to follow the
+   non-versioned library guidelines in the next section.
+-  As the vendor likely used :term:`LDFLAGS` different from those in your Yocto
+   Project build, disable the corresponding checks by adding ``ldflags``
+   to :term:`INSANE_SKIP`.
+-  The vendor will typically ship release builds without debugging symbols.
+   Avoid errors by preventing the packaging task from stripping out the symbols
+   and adding them to a separate debug package. This is done by setting the
+   ``INHIBIT_`` flags shown below.
+
+The complete recipe would look like this::
+
+   SUMMARY = "FTDI FT4222H Library"
+   SECTION = "libs"
+   LICENSE_FLAGS = "ftdi"
+   LICENSE = "CLOSED"
+
+   COMPATIBLE_HOST = "(i.86|x86_64).*-linux"
+
+   # Sources available in a .tgz file in .zip archive
+   # at https://ftdichip.com/wp-content/uploads/2021/01/libft4222-linux-1.4.4.44.zip
+   # Found on https://ftdichip.com/software-examples/ft4222h-software-examples/
+   # Since dealing with this particular type of archive is out of topic here,
+   # we use a local link.
+   SRC_URI = "file://libft4222-linux-${PV}.tgz"
+
+   S = "${WORKDIR}"
+
+   ARCH_DIR:x86-64 = "build-x86_64"
+   ARCH_DIR:i586 = "build-i386"
+   ARCH_DIR:i686 = "build-i386"
+
+   INSANE_SKIP:${PN} = "ldflags"
+   INHIBIT_PACKAGE_STRIP = "1"
+   INHIBIT_SYSROOT_STRIP = "1"
+   INHIBIT_PACKAGE_DEBUG_SPLIT = "1"
+
+   do_install () {
+           install -m 0755 -d ${D}${libdir}
+           oe_soinstall ${S}/${ARCH_DIR}/libft4222.so.${PV} ${D}${libdir}
+           install -d ${D}${includedir}
+           install -m 0755 ${S}/*.h ${D}${includedir}
+   }
+
+If the precompiled binaries are not statically linked and have dependencies on
+other libraries, then by adding those libraries to :term:`DEPENDS`, the linking
+can be examined and the appropriate :term:`RDEPENDS` automatically added.
+
+Non-Versioned Libraries
+=======================
+
+Some Background
+---------------
+
+Libraries in Linux systems are generally versioned so that it is possible
+to have multiple versions of the same library installed, which eases upgrades
+and support for older software. For example, suppose that in a versioned
+library, an actual library is called ``libfoo.so.1.2``, a symbolic link named
+``libfoo.so.1`` points to ``libfoo.so.1.2``, and a symbolic link named
+``libfoo.so`` points to ``libfoo.so.1.2``. Given these conditions, when you
+link a binary against a library, you typically provide the unversioned file
+name (i.e. ``-lfoo`` to the linker). However, the linker follows the symbolic
+link and actually links against the versioned filename. The unversioned symbolic
+link is only used at development time. Consequently, the library is packaged
+along with the headers in the development package ``${PN}-dev`` along with the
+actual library and versioned symbolic links in ``${PN}``. Because versioned
+libraries are far more common than unversioned libraries, the default packaging
+rules assume versioned libraries.
+
+Yocto Library Packaging Overview
+--------------------------------
+
+It follows that packaging an unversioned library requires a bit of work in the
+recipe. By default, ``libfoo.so`` gets packaged into ``${PN}-dev``, which
+triggers a QA warning that a non-symlink library is in a ``-dev`` package,
+and binaries in the same recipe link to the library in ``${PN}-dev``,
+which triggers more QA warnings. To solve this problem, you need to package the
+unversioned library into ``${PN}`` where it belongs. The following are the abridged
+default :term:`FILES` variables in ``bitbake.conf``::
+
+   SOLIBS = ".so.*"
+   SOLIBSDEV = ".so"
+   FILES:${PN} = "... ${libdir}/lib*${SOLIBS} ..."
+   FILES_SOLIBSDEV ?= "... ${libdir}/lib*${SOLIBSDEV} ..."
+   FILES:${PN}-dev = "... ${FILES_SOLIBSDEV} ..."
+
+:term:`SOLIBS` defines a pattern that matches real shared object libraries.
+:term:`SOLIBSDEV` matches the development form (unversioned symlink). These two
+variables are then used in ``FILES:${PN}`` and ``FILES:${PN}-dev``, which puts
+the real libraries into ``${PN}`` and the unversioned symbolic link into ``${PN}-dev``.
+To package unversioned libraries, you need to modify the variables in the recipe
+as follows::
+
+   SOLIBS = ".so"
+   FILES_SOLIBSDEV = ""
+
+The modifications cause the ``.so`` file to be the real library
+and unset :term:`FILES_SOLIBSDEV` so that no libraries get packaged into
+``${PN}-dev``. The changes are required because unless :term:`PACKAGES` is changed,
+``${PN}-dev`` collects files before `${PN}`. ``${PN}-dev`` must not collect any of
+the files you want in ``${PN}``.
+
+Finally, loadable modules, essentially unversioned libraries that are linked
+at runtime using ``dlopen()`` instead of at build time, should generally be
+installed in a private directory. However, if they are installed in ``${libdir}``,
+then the modules can be treated as unversioned libraries.
+
+Example
+-------
+
+The example below installs an unversioned x86-64 pre-built library named
+``libfoo.so``. The :term:`COMPATIBLE_HOST` variable limits recipes to the
+x86-64 architecture while the :term:`INSANE_SKIP`, :term:`INHIBIT_PACKAGE_STRIP`
+and :term:`INHIBIT_SYSROOT_STRIP` variables are all set as in the above
+versioned library example. The "magic" is setting the :term:`SOLIBS` and
+:term:`FILES_SOLIBSDEV` variables as explained above::
+
+   SUMMARY = "libfoo sample recipe"
+   SECTION = "libs"
+   LICENSE = "CLOSED"
+
+   SRC_URI = "file://libfoo.so"
+
+   COMPATIBLE_HOST = "x86_64.*-linux"
+
+   INSANE_SKIP:${PN} = "ldflags"
+   INHIBIT_PACKAGE_STRIP = "1"
+   INHIBIT_SYSROOT_STRIP = "1"
+   SOLIBS = ".so"
+   FILES_SOLIBSDEV = ""
+
+   do_install () {
+           install -d ${D}${libdir}
+           install -m 0755 ${WORKDIR}/libfoo.so ${D}${libdir}
+   }
+
--- a/documentation/dev-manual/python-development-shell.rst
+++ b/documentation/dev-manual/python-development-shell.rst
@@ -0,0 +1,50 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using a Python Development Shell
+********************************
+
+Similar to working within a development shell as described in the
+previous section, you can also spawn and work within an interactive
+Python development shell. When debugging certain commands or even when
+just editing packages, ``pydevshell`` can be a useful tool. When you
+invoke the ``pydevshell`` task, all tasks up to and including
+:ref:`ref-tasks-patch` are run for the
+specified target. Then a new terminal is opened. Additionally, key
+Python objects and code are available in the same way they are to
+BitBake tasks, in particular, the data store 'd'. So, commands such as
+the following are useful when exploring the data store and running
+functions::
+
+   pydevshell> d.getVar("STAGING_DIR")
+   '/media/build1/poky/build/tmp/sysroots'
+   pydevshell> d.getVar("STAGING_DIR", False)
+   '${TMPDIR}/sysroots'
+   pydevshell> d.setVar("FOO", "bar")
+   pydevshell> d.getVar("FOO")
+   'bar'
+   pydevshell> d.delVar("FOO")
+   pydevshell> d.getVar("FOO")
+   pydevshell> bb.build.exec_func("do_unpack", d)
+   pydevshell>
+
+See the ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:functions you can call from within python`"
+section in the BitBake User Manual for details about available functions.
+
+The commands execute just as if the OpenEmbedded build
+system were executing them. Consequently, working this way can be
+helpful when debugging a build or preparing software to be used with the
+OpenEmbedded build system.
+
+Following is an example that uses ``pydevshell`` on a target named
+``matchbox-desktop``::
+
+   $ bitbake matchbox-desktop -c pydevshell
+
+This command spawns a terminal and places you in an interactive Python
+interpreter within the OpenEmbedded build environment. The
+:term:`OE_TERMINAL` variable
+controls what type of shell is opened.
+
+When you are finished using ``pydevshell``, you can exit the shell
+either by using Ctrl+d or closing the terminal window.
+
--- a/documentation/dev-manual/quilt.rst
+++ b/documentation/dev-manual/quilt.rst
@@ -0,0 +1,89 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using Quilt in Your Workflow
+****************************
+
+`Quilt <https://savannah.nongnu.org/projects/quilt>`__ is a powerful tool
+that allows you to capture source code changes without having a clean
+source tree. This section outlines the typical workflow you can use to
+modify source code, test changes, and then preserve the changes in the
+form of a patch all using Quilt.
+
+.. note::
+
+   With regard to preserving changes to source files, if you clean a
+   recipe or have :ref:`ref-classes-rm-work` enabled, the
+   :ref:`devtool workflow <sdk-manual/extensible:using \`\`devtool\`\` in your sdk workflow>`
+   as described in the Yocto Project Application Development and the
+   Extensible Software Development Kit (eSDK) manual is a safer
+   development flow than the flow that uses Quilt.
+
+Follow these general steps:
+
+#. *Find the Source Code:* Temporary source code used by the
+   OpenEmbedded build system is kept in the :term:`Build Directory`. See the
+   ":ref:`dev-manual/temporary-source-code:finding temporary source code`" section to
+   learn how to locate the directory that has the temporary source code for a
+   particular package.
+
+#. *Change Your Working Directory:* You need to be in the directory that
+   has the temporary source code. That directory is defined by the
+   :term:`S` variable.
+
+#. *Create a New Patch:* Before modifying source code, you need to
+   create a new patch. To create a new patch file, use ``quilt new`` as
+   below::
+
+      $ quilt new my_changes.patch
+
+#. *Notify Quilt and Add Files:* After creating the patch, you need to
+   notify Quilt about the files you plan to edit. You notify Quilt by
+   adding the files to the patch you just created::
+
+      $ quilt add file1.c file2.c file3.c
+
+#. *Edit the Files:* Make your changes in the source code to the files
+   you added to the patch.
+
+#. *Test Your Changes:* Once you have modified the source code, the
+   easiest way to test your changes is by calling the :ref:`ref-tasks-compile`
+   task as shown in the following example::
+
+      $ bitbake -c compile -f package
+
+   The ``-f`` or ``--force`` option forces the specified task to
+   execute. If you find problems with your code, you can just keep
+   editing and re-testing iteratively until things work as expected.
+
+   .. note::
+
+      All the modifications you make to the temporary source code disappear
+      once you run the :ref:`ref-tasks-clean` or :ref:`ref-tasks-cleanall`
+      tasks using BitBake (i.e. ``bitbake -c clean package`` and
+      ``bitbake -c cleanall package``). Modifications will also disappear if
+      you use the :ref:`ref-classes-rm-work` feature as described in
+      the ":ref:`dev-manual/disk-space:conserving disk space during builds`"
+      section.
+
+#. *Generate the Patch:* Once your changes work as expected, you need to
+   use Quilt to generate the final patch that contains all your
+   modifications::
+
+      $ quilt refresh
+
+   At this point, the
+   ``my_changes.patch`` file has all your edits made to the ``file1.c``,
+   ``file2.c``, and ``file3.c`` files.
+
+   You can find the resulting patch file in the ``patches/``
+   subdirectory of the source (:term:`S`) directory.
+
+#. *Copy the Patch File:* For simplicity, copy the patch file into a
+   directory named ``files``, which you can create in the same directory
+   that holds the recipe (``.bb``) file or the append (``.bbappend``)
+   file. Placing the patch here guarantees that the OpenEmbedded build
+   system will find the patch. Next, add the patch into the :term:`SRC_URI`
+   of the recipe. Here is an example::
+
+      SRC_URI += "file://my_changes.patch"
+
--- a/documentation/dev-manual/read-only-rootfs.rst
+++ b/documentation/dev-manual/read-only-rootfs.rst
@@ -0,0 +1,89 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Creating a Read-Only Root Filesystem
+************************************
+
+Suppose, for security reasons, you need to disable your target device's
+root filesystem's write permissions (i.e. you need a read-only root
+filesystem). Or, perhaps you are running the device's operating system
+from a read-only storage device. For either case, you can customize your
+image for that behavior.
+
+.. note::
+
+   Supporting a read-only root filesystem requires that the system and
+   applications do not try to write to the root filesystem. You must
+   configure all parts of the target system to write elsewhere, or to
+   gracefully fail in the event of attempting to write to the root
+   filesystem.
+
+Creating the Root Filesystem
+============================
+
+To create the read-only root filesystem, simply add the
+"read-only-rootfs" feature to your image, normally in one of two ways.
+The first way is to add the "read-only-rootfs" image feature in the
+image's recipe file via the :term:`IMAGE_FEATURES` variable::
+
+   IMAGE_FEATURES += "read-only-rootfs"
+
+As an alternative, you can add the same feature
+from within your :term:`Build Directory`'s ``local.conf`` file with the
+associated :term:`EXTRA_IMAGE_FEATURES` variable, as in::
+
+   EXTRA_IMAGE_FEATURES = "read-only-rootfs"
+
+For more information on how to use these variables, see the
+":ref:`dev-manual/customizing-images:Customizing Images Using Custom \`\`IMAGE_FEATURES\`\` and \`\`EXTRA_IMAGE_FEATURES\`\``"
+section. For information on the variables, see
+:term:`IMAGE_FEATURES` and
+:term:`EXTRA_IMAGE_FEATURES`.
+
+Post-Installation Scripts and Read-Only Root Filesystem
+=======================================================
+
+It is very important that you make sure all post-Installation
+(``pkg_postinst``) scripts for packages that are installed into the
+image can be run at the time when the root filesystem is created during
+the build on the host system. These scripts cannot attempt to run during
+the first boot on the target device. With the "read-only-rootfs" feature
+enabled, the build system makes sure that all post-installation scripts
+succeed at file system creation time. If any of these scripts
+still need to be run after the root filesystem is created, the build
+immediately fails. These build-time checks ensure that the build fails
+rather than the target device fails later during its initial boot
+operation.
+
+Most of the common post-installation scripts generated by the build
+system for the out-of-the-box Yocto Project are engineered so that they
+can run during root filesystem creation (e.g. post-installation scripts
+for caching fonts). However, if you create and add custom scripts, you
+need to be sure they can be run during this file system creation.
+
+Here are some common problems that prevent post-installation scripts
+from running during root filesystem creation:
+
+-  *Not using $D in front of absolute paths:* The build system defines
+   ``$``\ :term:`D` when the root
+   filesystem is created. Furthermore, ``$D`` is blank when the script
+   is run on the target device. This implies two purposes for ``$D``:
+   ensuring paths are valid in both the host and target environments,
+   and checking to determine which environment is being used as a method
+   for taking appropriate actions.
+
+-  *Attempting to run processes that are specific to or dependent on the
+   target architecture:* You can work around these attempts by using
+   native tools, which run on the host system, to accomplish the same
+   tasks, or by alternatively running the processes under QEMU, which
+   has the ``qemu_run_binary`` function. For more information, see the
+   :ref:`ref-classes-qemu` class.
+
+Areas With Write Access
+=======================
+
+With the "read-only-rootfs" feature enabled, any attempt by the target
+to write to the root filesystem at runtime fails. Consequently, you must
+make sure that you configure processes and applications that attempt
+these types of writes do so to directories with write access (e.g.
+``/tmp`` or ``/var/run``).
+
--- a/documentation/dev-manual/runtime-testing.rst
+++ b/documentation/dev-manual/runtime-testing.rst
@@ -0,0 +1,598 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Performing Automated Runtime Testing
+************************************
+
+The OpenEmbedded build system makes available a series of automated
+tests for images to verify runtime functionality. You can run these
+tests on either QEMU or actual target hardware. Tests are written in
+Python making use of the ``unittest`` module, and the majority of them
+run commands on the target system over SSH. This section describes how
+you set up the environment to use these tests, run available tests, and
+write and add your own tests.
+
+For information on the test and QA infrastructure available within the
+Yocto Project, see the ":ref:`ref-manual/release-process:testing and quality assurance`"
+section in the Yocto Project Reference Manual.
+
+Enabling Tests
+==============
+
+Depending on whether you are planning to run tests using QEMU or on the
+hardware, you have to take different steps to enable the tests. See the
+following subsections for information on how to enable both types of
+tests.
+
+Enabling Runtime Tests on QEMU
+------------------------------
+
+In order to run tests, you need to do the following:
+
+-  *Set up to avoid interaction with sudo for networking:* To
+   accomplish this, you must do one of the following:
+
+   -  Add ``NOPASSWD`` for your user in ``/etc/sudoers`` either for all
+      commands or just for ``runqemu-ifup``. You must provide the full
+      path as that can change if you are using multiple clones of the
+      source repository.
+
+      .. note::
+
+         On some distributions, you also need to comment out "Defaults
+         requiretty" in ``/etc/sudoers``.
+
+   -  Manually configure a tap interface for your system.
+
+   -  Run as root the script in ``scripts/runqemu-gen-tapdevs``, which
+      should generate a list of tap devices. This is the option
+      typically chosen for Autobuilder-type environments.
+
+      .. note::
+
+         -  Be sure to use an absolute path when calling this script
+            with sudo.
+
+         -  The package recipe ``qemu-helper-native`` is required to run
+            this script. Build the package using the following command::
+
+               $ bitbake qemu-helper-native
+
+-  *Set the DISPLAY variable:* You need to set this variable so that
+   you have an X server available (e.g. start ``vncserver`` for a
+   headless machine).
+
+-  *Be sure your host's firewall accepts incoming connections from
+   192.168.7.0/24:* Some of the tests (in particular DNF tests) start an
+   HTTP server on a random high number port, which is used to serve
+   files to the target. The DNF module serves
+   ``${WORKDIR}/oe-rootfs-repo`` so it can run DNF channel commands.
+   That means your host's firewall must accept incoming connections from
+   192.168.7.0/24, which is the default IP range used for tap devices by
+   ``runqemu``.
+
+-  *Be sure your host has the correct packages installed:* Depending
+   your host's distribution, you need to have the following packages
+   installed:
+
+   -  Ubuntu and Debian: ``sysstat`` and ``iproute2``
+
+   -  openSUSE: ``sysstat`` and ``iproute2``
+
+   -  Fedora: ``sysstat`` and ``iproute``
+
+   -  CentOS: ``sysstat`` and ``iproute``
+
+Once you start running the tests, the following happens:
+
+#. A copy of the root filesystem is written to ``${WORKDIR}/testimage``.
+
+#. The image is booted under QEMU using the standard ``runqemu`` script.
+
+#. A default timeout of 500 seconds occurs to allow for the boot process
+   to reach the login prompt. You can change the timeout period by
+   setting
+   :term:`TEST_QEMUBOOT_TIMEOUT`
+   in the ``local.conf`` file.
+
+#. Once the boot process is reached and the login prompt appears, the
+   tests run. The full boot log is written to
+   ``${WORKDIR}/testimage/qemu_boot_log``.
+
+#. Each test module loads in the order found in :term:`TEST_SUITES`. You can
+   find the full output of the commands run over SSH in
+   ``${WORKDIR}/testimgage/ssh_target_log``.
+
+#. If no failures occur, the task running the tests ends successfully.
+   You can find the output from the ``unittest`` in the task log at
+   ``${WORKDIR}/temp/log.do_testimage``.
+
+Enabling Runtime Tests on Hardware
+----------------------------------
+
+The OpenEmbedded build system can run tests on real hardware, and for
+certain devices it can also deploy the image to be tested onto the
+device beforehand.
+
+For automated deployment, a "controller image" is installed onto the
+hardware once as part of setup. Then, each time tests are to be run, the
+following occurs:
+
+#. The controller image is booted into and used to write the image to be
+   tested to a second partition.
+
+#. The device is then rebooted using an external script that you need to
+   provide.
+
+#. The device boots into the image to be tested.
+
+When running tests (independent of whether the image has been deployed
+automatically or not), the device is expected to be connected to a
+network on a pre-determined IP address. You can either use static IP
+addresses written into the image, or set the image to use DHCP and have
+your DHCP server on the test network assign a known IP address based on
+the MAC address of the device.
+
+In order to run tests on hardware, you need to set :term:`TEST_TARGET` to an
+appropriate value. For QEMU, you do not have to change anything, the
+default value is "qemu". For running tests on hardware, the following
+options are available:
+
+-  *"simpleremote":* Choose "simpleremote" if you are going to run tests
+   on a target system that is already running the image to be tested and
+   is available on the network. You can use "simpleremote" in
+   conjunction with either real hardware or an image running within a
+   separately started QEMU or any other virtual machine manager.
+
+-  *"SystemdbootTarget":* Choose "SystemdbootTarget" if your hardware is
+   an EFI-based machine with ``systemd-boot`` as bootloader and
+   ``core-image-testmaster`` (or something similar) is installed. Also,
+   your hardware under test must be in a DHCP-enabled network that gives
+   it the same IP address for each reboot.
+
+   If you choose "SystemdbootTarget", there are additional requirements
+   and considerations. See the
+   ":ref:`dev-manual/runtime-testing:selecting systemdboottarget`" section, which
+   follows, for more information.
+
+-  *"BeagleBoneTarget":* Choose "BeagleBoneTarget" if you are deploying
+   images and running tests on the BeagleBone "Black" or original
+   "White" hardware. For information on how to use these tests, see the
+   comments at the top of the BeagleBoneTarget
+   ``meta-yocto-bsp/lib/oeqa/controllers/beaglebonetarget.py`` file.
+
+-  *"EdgeRouterTarget":* Choose "EdgeRouterTarget" if you are deploying
+   images and running tests on the Ubiquiti Networks EdgeRouter Lite.
+   For information on how to use these tests, see the comments at the
+   top of the EdgeRouterTarget
+   ``meta-yocto-bsp/lib/oeqa/controllers/edgeroutertarget.py`` file.
+
+-  *"GrubTarget":* Choose "GrubTarget" if you are deploying images and running
+   tests on any generic PC that boots using GRUB. For information on how
+   to use these tests, see the comments at the top of the GrubTarget
+   ``meta-yocto-bsp/lib/oeqa/controllers/grubtarget.py`` file.
+
+-  *"your-target":* Create your own custom target if you want to run
+   tests when you are deploying images and running tests on a custom
+   machine within your BSP layer. To do this, you need to add a Python
+   unit that defines the target class under ``lib/oeqa/controllers/``
+   within your layer. You must also provide an empty ``__init__.py``.
+   For examples, see files in ``meta-yocto-bsp/lib/oeqa/controllers/``.
+
+Selecting SystemdbootTarget
+---------------------------
+
+If you did not set :term:`TEST_TARGET` to "SystemdbootTarget", then you do
+not need any information in this section. You can skip down to the
+":ref:`dev-manual/runtime-testing:running tests`" section.
+
+If you did set :term:`TEST_TARGET` to "SystemdbootTarget", you also need to
+perform a one-time setup of your controller image by doing the following:
+
+#. *Set EFI_PROVIDER:* Be sure that :term:`EFI_PROVIDER` is as follows::
+
+      EFI_PROVIDER = "systemd-boot"
+
+#. *Build the controller image:* Build the ``core-image-testmaster`` image.
+   The ``core-image-testmaster`` recipe is provided as an example for a
+   "controller" image and you can customize the image recipe as you would
+   any other recipe.
+
+   Here are the image recipe requirements:
+
+   -  Inherits ``core-image`` so that kernel modules are installed.
+
+   -  Installs normal linux utilities not BusyBox ones (e.g. ``bash``,
+      ``coreutils``, ``tar``, ``gzip``, and ``kmod``).
+
+   -  Uses a custom :term:`Initramfs` image with a custom
+      installer. A normal image that you can install usually creates a
+      single root filesystem partition. This image uses another installer that
+      creates a specific partition layout. Not all Board Support
+      Packages (BSPs) can use an installer. For such cases, you need to
+      manually create the following partition layout on the target:
+
+      -  First partition mounted under ``/boot``, labeled "boot".
+
+      -  The main root filesystem partition where this image gets installed,
+         which is mounted under ``/``.
+
+      -  Another partition labeled "testrootfs" where test images get
+         deployed.
+
+#. *Install image:* Install the image that you just built on the target
+   system.
+
+The final thing you need to do when setting :term:`TEST_TARGET` to
+"SystemdbootTarget" is to set up the test image:
+
+#. *Set up your local.conf file:* Make sure you have the following
+   statements in your ``local.conf`` file::
+
+      IMAGE_FSTYPES += "tar.gz"
+      INHERIT += "testimage"
+      TEST_TARGET = "SystemdbootTarget"
+      TEST_TARGET_IP = "192.168.2.3"
+
+#. *Build your test image:* Use BitBake to build the image::
+
+      $ bitbake core-image-sato
+
+Power Control
+-------------
+
+For most hardware targets other than "simpleremote", you can control
+power:
+
+-  You can use :term:`TEST_POWERCONTROL_CMD` together with
+   :term:`TEST_POWERCONTROL_EXTRA_ARGS` as a command that runs on the host
+   and does power cycling. The test code passes one argument to that
+   command: off, on or cycle (off then on). Here is an example that
+   could appear in your ``local.conf`` file::
+
+      TEST_POWERCONTROL_CMD = "powercontrol.exp test 10.11.12.1 nuc1"
+
+   In this example, the expect
+   script does the following:
+
+   .. code-block:: shell
+
+      ssh test@10.11.12.1 "pyctl nuc1 arg"
+
+   It then runs a Python script that controls power for a label called
+   ``nuc1``.
+
+   .. note::
+
+      You need to customize :term:`TEST_POWERCONTROL_CMD` and
+      :term:`TEST_POWERCONTROL_EXTRA_ARGS` for your own setup. The one requirement
+      is that it accepts "on", "off", and "cycle" as the last argument.
+
+-  When no command is defined, it connects to the device over SSH and
+   uses the classic reboot command to reboot the device. Classic reboot
+   is fine as long as the machine actually reboots (i.e. the SSH test
+   has not failed). It is useful for scenarios where you have a simple
+   setup, typically with a single board, and where some manual
+   interaction is okay from time to time.
+
+If you have no hardware to automatically perform power control but still
+wish to experiment with automated hardware testing, you can use the
+``dialog-power-control`` script that shows a dialog prompting you to perform
+the required power action. This script requires either KDialog or Zenity
+to be installed. To use this script, set the
+:term:`TEST_POWERCONTROL_CMD`
+variable as follows::
+
+   TEST_POWERCONTROL_CMD = "${COREBASE}/scripts/contrib/dialog-power-control"
+
+Serial Console Connection
+-------------------------
+
+For test target classes requiring a serial console to interact with the
+bootloader (e.g. BeagleBoneTarget, EdgeRouterTarget, and GrubTarget),
+you need to specify a command to use to connect to the serial console of
+the target machine by using the
+:term:`TEST_SERIALCONTROL_CMD`
+variable and optionally the
+:term:`TEST_SERIALCONTROL_EXTRA_ARGS`
+variable.
+
+These cases could be a serial terminal program if the machine is
+connected to a local serial port, or a ``telnet`` or ``ssh`` command
+connecting to a remote console server. Regardless of the case, the
+command simply needs to connect to the serial console and forward that
+connection to standard input and output as any normal terminal program
+does. For example, to use the picocom terminal program on serial device
+``/dev/ttyUSB0`` at 115200bps, you would set the variable as follows::
+
+   TEST_SERIALCONTROL_CMD = "picocom /dev/ttyUSB0 -b 115200"
+
+For local
+devices where the serial port device disappears when the device reboots,
+an additional "serdevtry" wrapper script is provided. To use this
+wrapper, simply prefix the terminal command with
+``${COREBASE}/scripts/contrib/serdevtry``::
+
+   TEST_SERIALCONTROL_CMD = "${COREBASE}/scripts/contrib/serdevtry picocom -b 115200 /dev/ttyUSB0"
+
+Running Tests
+=============
+
+You can start the tests automatically or manually:
+
+-  *Automatically running tests:* To run the tests automatically after the
+   OpenEmbedded build system successfully creates an image, first set the
+   :term:`TESTIMAGE_AUTO` variable to "1" in your ``local.conf`` file in the
+   :term:`Build Directory`::
+
+      TESTIMAGE_AUTO = "1"
+
+   Next, build your image. If the image successfully builds, the
+   tests run::
+
+      bitbake core-image-sato
+
+-  *Manually running tests:* To manually run the tests, first globally
+   inherit the :ref:`ref-classes-testimage*` class by editing your
+   ``local.conf`` file::
+
+      INHERIT += "testimage"
+
+   Next, use BitBake to run the tests::
+
+      bitbake -c testimage image
+
+All test files reside in ``meta/lib/oeqa/runtime/cases`` in the
+:term:`Source Directory`. A test name maps
+directly to a Python module. Each test module may contain a number of
+individual tests. Tests are usually grouped together by the area tested
+(e.g tests for systemd reside in ``meta/lib/oeqa/runtime/cases/systemd.py``).
+
+You can add tests to any layer provided you place them in the proper
+area and you extend :term:`BBPATH` in
+the ``local.conf`` file as normal. Be sure that tests reside in
+``layer/lib/oeqa/runtime/cases``.
+
+.. note::
+
+   Be sure that module names do not collide with module names used in
+   the default set of test modules in ``meta/lib/oeqa/runtime/cases``.
+
+You can change the set of tests run by appending or overriding
+:term:`TEST_SUITES` variable in
+``local.conf``. Each name in :term:`TEST_SUITES` represents a required test
+for the image. Test modules named within :term:`TEST_SUITES` cannot be
+skipped even if a test is not suitable for an image (e.g. running the
+RPM tests on an image without ``rpm``). Appending "auto" to
+:term:`TEST_SUITES` causes the build system to try to run all tests that are
+suitable for the image (i.e. each test module may elect to skip itself).
+
+The order you list tests in :term:`TEST_SUITES` is important and influences
+test dependencies. Consequently, tests that depend on other tests should
+be added after the test on which they depend. For example, since the
+``ssh`` test depends on the ``ping`` test, "ssh" needs to come after
+"ping" in the list. The test class provides no re-ordering or dependency
+handling.
+
+.. note::
+
+   Each module can have multiple classes with multiple test methods.
+   And, Python ``unittest`` rules apply.
+
+Here are some things to keep in mind when running tests:
+
+-  The default tests for the image are defined as::
+
+      DEFAULT_TEST_SUITES:pn-image = "ping ssh df connman syslog xorg scp vnc date rpm dnf dmesg"
+
+-  Add your own test to the list of the by using the following::
+
+      TEST_SUITES:append = " mytest"
+
+-  Run a specific list of tests as follows::
+
+     TEST_SUITES = "test1 test2 test3"
+
+   Remember, order is important. Be sure to place a test that is
+   dependent on another test later in the order.
+
+Exporting Tests
+===============
+
+You can export tests so that they can run independently of the build
+system. Exporting tests is required if you want to be able to hand the
+test execution off to a scheduler. You can only export tests that are
+defined in :term:`TEST_SUITES`.
+
+If your image is already built, make sure the following are set in your
+``local.conf`` file::
+
+   INHERIT += "testexport"
+   TEST_TARGET_IP = "IP-address-for-the-test-target"
+   TEST_SERVER_IP = "IP-address-for-the-test-server"
+
+You can then export the tests with the
+following BitBake command form::
+
+   $ bitbake image -c testexport
+
+Exporting the tests places them in the :term:`Build Directory` in
+``tmp/testexport/``\ image, which is controlled by the :term:`TEST_EXPORT_DIR`
+variable.
+
+You can now run the tests outside of the build environment::
+
+   $ cd tmp/testexport/image
+   $ ./runexported.py testdata.json
+
+Here is a complete example that shows IP addresses and uses the
+``core-image-sato`` image::
+
+   INHERIT += "testexport"
+   TEST_TARGET_IP = "192.168.7.2"
+   TEST_SERVER_IP = "192.168.7.1"
+
+Use BitBake to export the tests::
+
+   $ bitbake core-image-sato -c testexport
+
+Run the tests outside of
+the build environment using the following::
+
+   $ cd tmp/testexport/core-image-sato
+   $ ./runexported.py testdata.json
+
+Writing New Tests
+=================
+
+As mentioned previously, all new test files need to be in the proper
+place for the build system to find them. New tests for additional
+functionality outside of the core should be added to the layer that adds
+the functionality, in ``layer/lib/oeqa/runtime/cases`` (as long as
+:term:`BBPATH` is extended in the
+layer's ``layer.conf`` file as normal). Just remember the following:
+
+-  Filenames need to map directly to test (module) names.
+
+-  Do not use module names that collide with existing core tests.
+
+-  Minimally, an empty ``__init__.py`` file must be present in the runtime
+   directory.
+
+To create a new test, start by copying an existing module (e.g.
+``syslog.py`` or ``gcc.py`` are good ones to use). Test modules can use
+code from ``meta/lib/oeqa/utils``, which are helper classes.
+
+.. note::
+
+   Structure shell commands such that you rely on them and they return a
+   single code for success. Be aware that sometimes you will need to
+   parse the output. See the ``df.py`` and ``date.py`` modules for examples.
+
+You will notice that all test classes inherit ``oeRuntimeTest``, which
+is found in ``meta/lib/oetest.py``. This base class offers some helper
+attributes, which are described in the following sections:
+
+Class Methods
+-------------
+
+Class methods are as follows:
+
+-  *hasPackage(pkg):* Returns "True" if ``pkg`` is in the installed
+   package list of the image, which is based on the manifest file that
+   is generated during the :ref:`ref-tasks-rootfs` task.
+
+-  *hasFeature(feature):* Returns "True" if the feature is in
+   :term:`IMAGE_FEATURES` or
+   :term:`DISTRO_FEATURES`.
+
+Class Attributes
+----------------
+
+Class attributes are as follows:
+
+-  *pscmd:* Equals "ps -ef" if ``procps`` is installed in the image.
+   Otherwise, ``pscmd`` equals "ps" (busybox).
+
+-  *tc:* The called test context, which gives access to the
+   following attributes:
+
+   -  *d:* The BitBake datastore, which allows you to use stuff such
+      as ``oeRuntimeTest.tc.d.getVar("VIRTUAL-RUNTIME_init_manager")``.
+
+   -  *testslist and testsrequired:* Used internally. The tests
+      do not need these.
+
+   -  *filesdir:* The absolute path to
+      ``meta/lib/oeqa/runtime/files``, which contains helper files for
+      tests meant for copying on the target such as small files written
+      in C for compilation.
+
+   -  *target:* The target controller object used to deploy and
+      start an image on a particular target (e.g. Qemu, SimpleRemote,
+      and SystemdbootTarget). Tests usually use the following:
+
+      -  *ip:* The target's IP address.
+
+      -  *server_ip:* The host's IP address, which is usually used
+         by the DNF test suite.
+
+      -  *run(cmd, timeout=None):* The single, most used method.
+         This command is a wrapper for: ``ssh root@host "cmd"``. The
+         command returns a tuple: (status, output), which are what their
+         names imply - the return code of "cmd" and whatever output it
+         produces. The optional timeout argument represents the number
+         of seconds the test should wait for "cmd" to return. If the
+         argument is "None", the test uses the default instance's
+         timeout period, which is 300 seconds. If the argument is "0",
+         the test runs until the command returns.
+
+      -  *copy_to(localpath, remotepath):*
+         ``scp localpath root@ip:remotepath``.
+
+      -  *copy_from(remotepath, localpath):*
+         ``scp root@host:remotepath localpath``.
+
+Instance Attributes
+-------------------
+
+There is a single instance attribute, which is ``target``. The ``target``
+instance attribute is identical to the class attribute of the same name,
+which is described in the previous section. This attribute exists as
+both an instance and class attribute so tests can use
+``self.target.run(cmd)`` in instance methods instead of
+``oeRuntimeTest.tc.target.run(cmd)``.
+
+Installing Packages in the DUT Without the Package Manager
+==========================================================
+
+When a test requires a package built by BitBake, it is possible to
+install that package. Installing the package does not require a package
+manager be installed in the device under test (DUT). It does, however,
+require an SSH connection and the target must be using the
+``sshcontrol`` class.
+
+.. note::
+
+   This method uses ``scp`` to copy files from the host to the target, which
+   causes permissions and special attributes to be lost.
+
+A JSON file is used to define the packages needed by a test. This file
+must be in the same path as the file used to define the tests.
+Furthermore, the filename must map directly to the test module name with
+a ``.json`` extension.
+
+The JSON file must include an object with the test name as keys of an
+object or an array. This object (or array of objects) uses the following
+data:
+
+-  "pkg" --- a mandatory string that is the name of the package to be
+   installed.
+
+-  "rm" --- an optional boolean, which defaults to "false", that specifies
+   to remove the package after the test.
+
+-  "extract" --- an optional boolean, which defaults to "false", that
+   specifies if the package must be extracted from the package format.
+   When set to "true", the package is not automatically installed into
+   the DUT.
+
+Following is an example JSON file that handles test "foo" installing
+package "bar" and test "foobar" installing packages "foo" and "bar".
+Once the test is complete, the packages are removed from the DUT::
+
+     {
+         "foo": {
+             "pkg": "bar"
+         },
+         "foobar": [
+             {
+                 "pkg": "foo",
+                 "rm": true
+             },
+             {
+                 "pkg": "bar",
+                 "rm": true
+             }
+         ]
+     }
+
--- a/documentation/dev-manual/sbom.rst
+++ b/documentation/dev-manual/sbom.rst
@@ -0,0 +1,72 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Creating a Software Bill of Materials
+*************************************
+
+Once you are able to build an image for your project, once the licenses for
+each software component are all identified (see
+":ref:`dev-manual/licenses:working with licenses`") and once vulnerability
+fixes are applied (see ":ref:`dev-manual/vulnerabilities:checking
+for vulnerabilities`"), the OpenEmbedded build system can generate
+a description of all the components you used, their licenses, their dependencies,
+their sources, the changes that were applied to them and the known
+vulnerabilities that were fixed.
+
+This description is generated in the form of a *Software Bill of Materials*
+(:term:`SBOM`), using the :term:`SPDX` standard.
+
+When you release software, this is the most standard way to provide information
+about the Software Supply Chain of your software image and SDK. The
+:term:`SBOM` tooling is often used to ensure open source license compliance by
+providing the license texts used in the product which legal departments and end
+users can read in standardized format.
+
+:term:`SBOM` information is also critical to performing vulnerability exposure
+assessments, as all the components used in the Software Supply Chain are listed.
+
+The OpenEmbedded build system doesn't generate such information by default.
+To make this happen, you must inherit the
+:ref:`ref-classes-create-spdx` class from a configuration file::
+
+   INHERIT += "create-spdx"
+
+You then get :term:`SPDX` output in JSON format as an
+``IMAGE-MACHINE.spdx.json`` file in ``tmp/deploy/images/MACHINE/`` inside the
+:term:`Build Directory`.
+
+This is a toplevel file accompanied by an ``IMAGE-MACHINE.spdx.index.json``
+containing an index of JSON :term:`SPDX` files for individual recipes, together
+with an ``IMAGE-MACHINE.spdx.tar.zst`` compressed archive containing all such
+files.
+
+The :ref:`ref-classes-create-spdx` class offers options to include
+more information in the output :term:`SPDX` data, such as making the generated
+files more human readable (:term:`SPDX_PRETTY`), adding compressed archives of
+the files in the generated target packages (:term:`SPDX_ARCHIVE_PACKAGED`),
+adding a description of the source files used to generate host tools and target
+packages (:term:`SPDX_INCLUDE_SOURCES`) and adding archives of these source
+files themselves (:term:`SPDX_ARCHIVE_SOURCES`).
+
+Though the toplevel :term:`SPDX` output is available in
+``tmp/deploy/images/MACHINE/`` inside the :term:`Build Directory`, ancillary
+generated files are available in ``tmp/deploy/spdx/MACHINE`` too, such as:
+
+-  The individual :term:`SPDX` JSON files in the ``IMAGE-MACHINE.spdx.tar.zst``
+   archive.
+
+-  Compressed archives of the files in the generated target packages,
+   in ``packages/packagename.tar.zst`` (when :term:`SPDX_ARCHIVE_PACKAGED`
+   is set).
+
+-  Compressed archives of the source files used to build the host tools
+   and the target packages in ``recipes/recipe-packagename.tar.zst``
+   (when :term:`SPDX_ARCHIVE_SOURCES` is set). Those are needed to fulfill
+   "source code access" license requirements.
+
+See the `tools page <https://spdx.dev/resources/tools/>`__ on the :term:`SPDX`
+project website for a list of tools to consume and transform the :term:`SPDX`
+data generated by the OpenEmbedded build system.
+
+See also Joshua Watt's
+`Automated SBoM generation with OpenEmbedded and the Yocto Project <https://youtu.be/Q5UQUM6zxVU>`__
+presentation at FOSDEM 2023.
--- a/documentation/dev-manual/securing-images.rst
+++ b/documentation/dev-manual/securing-images.rst
@@ -0,0 +1,156 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Making Images More Secure
+*************************
+
+Security is of increasing concern for embedded devices. Consider the
+issues and problems discussed in just this sampling of work found across
+the Internet:
+
+-  *"*\ `Security Risks of Embedded
+   Systems <https://www.schneier.com/blog/archives/2014/01/security_risks_9.html>`__\ *"*
+   by Bruce Schneier
+
+-  *"*\ `Internet Census
+   2012 <http://census2012.sourceforge.net/paper.html>`__\ *"* by Carna
+   Botnet
+
+-  *"*\ `Security Issues for Embedded
+   Devices <https://elinux.org/images/6/6f/Security-issues.pdf>`__\ *"*
+   by Jake Edge
+
+When securing your image is of concern, there are steps, tools, and
+variables that you can consider to help you reach the security goals you
+need for your particular device. Not all situations are identical when
+it comes to making an image secure. Consequently, this section provides
+some guidance and suggestions for consideration when you want to make
+your image more secure.
+
+.. note::
+
+   Because the security requirements and risks are different for every
+   type of device, this section cannot provide a complete reference on
+   securing your custom OS. It is strongly recommended that you also
+   consult other sources of information on embedded Linux system
+   hardening and on security.
+
+General Considerations
+======================
+
+There are general considerations that help you create more secure images.
+You should consider the following suggestions to make your device
+more secure:
+
+-  Scan additional code you are adding to the system (e.g. application
+   code) by using static analysis tools. Look for buffer overflows and
+   other potential security problems.
+
+-  Pay particular attention to the security for any web-based
+   administration interface.
+
+   Web interfaces typically need to perform administrative functions and
+   tend to need to run with elevated privileges. Thus, the consequences
+   resulting from the interface's security becoming compromised can be
+   serious. Look for common web vulnerabilities such as
+   cross-site-scripting (XSS), unvalidated inputs, and so forth.
+
+   As with system passwords, the default credentials for accessing a
+   web-based interface should not be the same across all devices. This
+   is particularly true if the interface is enabled by default as it can
+   be assumed that many end-users will not change the credentials.
+
+-  Ensure you can update the software on the device to mitigate
+   vulnerabilities discovered in the future. This consideration
+   especially applies when your device is network-enabled.
+
+-  Regularly scan and apply fixes for CVE security issues affecting
+   all software components in the product, see ":ref:`dev-manual/vulnerabilities:checking for vulnerabilities`".
+
+-  Regularly update your version of Poky and OE-Core from their upstream
+   developers, e.g. to apply updates and security fixes from stable
+   and :term:`LTS` branches.
+
+-  Ensure you remove or disable debugging functionality before producing
+   the final image. For information on how to do this, see the
+   ":ref:`dev-manual/securing-images:considerations specific to the openembedded build system`"
+   section.
+
+-  Ensure you have no network services listening that are not needed.
+
+-  Remove any software from the image that is not needed.
+
+-  Enable hardware support for secure boot functionality when your
+   device supports this functionality.
+
+Security Flags
+==============
+
+The Yocto Project has security flags that you can enable that help make
+your build output more secure. The security flags are in the
+``meta/conf/distro/include/security_flags.inc`` file in your
+:term:`Source Directory` (e.g. ``poky``).
+
+.. note::
+
+   Depending on the recipe, certain security flags are enabled and
+   disabled by default.
+
+Use the following line in your ``local.conf`` file or in your custom
+distribution configuration file to enable the security compiler and
+linker flags for your build::
+
+   require conf/distro/include/security_flags.inc
+
+Considerations Specific to the OpenEmbedded Build System
+========================================================
+
+You can take some steps that are specific to the OpenEmbedded build
+system to make your images more secure:
+
+-  Ensure "debug-tweaks" is not one of your selected
+   :term:`IMAGE_FEATURES`.
+   When creating a new project, the default is to provide you with an
+   initial ``local.conf`` file that enables this feature using the
+   :term:`EXTRA_IMAGE_FEATURES`
+   variable with the line::
+
+      EXTRA_IMAGE_FEATURES = "debug-tweaks"
+
+   To disable that feature, simply comment out that line in your
+   ``local.conf`` file, or make sure :term:`IMAGE_FEATURES` does not contain
+   "debug-tweaks" before producing your final image. Among other things,
+   leaving this in place sets the root password as blank, which makes
+   logging in for debugging or inspection easy during development but
+   also means anyone can easily log in during production.
+
+-  It is possible to set a root password for the image and also to set
+   passwords for any extra users you might add (e.g. administrative or
+   service type users). When you set up passwords for multiple images or
+   users, you should not duplicate passwords.
+
+   To set up passwords, use the :ref:`ref-classes-extrausers` class, which
+   is the preferred method. For an example on how to set up both root and
+   user passwords, see the ":ref:`ref-classes-extrausers`" section.
+
+   .. note::
+
+      When adding extra user accounts or setting a root password, be
+      cautious about setting the same password on every device. If you
+      do this, and the password you have set is exposed, then every
+      device is now potentially compromised. If you need this access but
+      want to ensure security, consider setting a different, random
+      password for each device. Typically, you do this as a separate
+      step after you deploy the image onto the device.
+
+-  Consider enabling a Mandatory Access Control (MAC) framework such as
+   SMACK or SELinux and tuning it appropriately for your device's usage.
+   You can find more information in the
+   :yocto_git:`meta-selinux </meta-selinux/>` layer.
+
+Tools for Hardening Your Image
+==============================
+
+The Yocto Project provides tools for making your image more secure. You
+can find these tools in the ``meta-security`` layer of the
+:yocto_git:`Yocto Project Source Repositories <>`.
+
--- a/documentation/dev-manual/speeding-up-build.rst
+++ b/documentation/dev-manual/speeding-up-build.rst
@@ -0,0 +1,109 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Speeding Up a Build
+*******************
+
+Build time can be an issue. By default, the build system uses simple
+controls to try and maximize build efficiency. In general, the default
+settings for all the following variables result in the most efficient
+build times when dealing with single socket systems (i.e. a single CPU).
+If you have multiple CPUs, you might try increasing the default values
+to gain more speed. See the descriptions in the glossary for each
+variable for more information:
+
+-  :term:`BB_NUMBER_THREADS`:
+   The maximum number of threads BitBake simultaneously executes.
+
+-  :term:`BB_NUMBER_PARSE_THREADS`:
+   The number of threads BitBake uses during parsing.
+
+-  :term:`PARALLEL_MAKE`: Extra
+   options passed to the ``make`` command during the
+   :ref:`ref-tasks-compile` task in
+   order to specify parallel compilation on the local build host.
+
+-  :term:`PARALLEL_MAKEINST`:
+   Extra options passed to the ``make`` command during the
+   :ref:`ref-tasks-install` task in
+   order to specify parallel installation on the local build host.
+
+As mentioned, these variables all scale to the number of processor cores
+available on the build system. For single socket systems, this
+auto-scaling ensures that the build system fundamentally takes advantage
+of potential parallel operations during the build based on the build
+machine's capabilities.
+
+Following are additional factors that can affect build speed:
+
+-  File system type: The file system type that the build is being
+   performed on can also influence performance. Using ``ext4`` is
+   recommended as compared to ``ext2`` and ``ext3`` due to ``ext4``
+   improved features such as extents.
+
+-  Disabling the updating of access time using ``noatime``: The
+   ``noatime`` mount option prevents the build system from updating file
+   and directory access times.
+
+-  Setting a longer commit: Using the "commit=" mount option increases
+   the interval in seconds between disk cache writes. Changing this
+   interval from the five second default to something longer increases
+   the risk of data loss but decreases the need to write to the disk,
+   thus increasing the build performance.
+
+-  Choosing the packaging backend: Of the available packaging backends,
+   IPK is the fastest. Additionally, selecting a singular packaging
+   backend also helps.
+
+-  Using ``tmpfs`` for :term:`TMPDIR`
+   as a temporary file system: While this can help speed up the build,
+   the benefits are limited due to the compiler using ``-pipe``. The
+   build system goes to some lengths to avoid ``sync()`` calls into the
+   file system on the principle that if there was a significant failure,
+   the :term:`Build Directory` contents could easily be rebuilt.
+
+-  Inheriting the :ref:`ref-classes-rm-work` class:
+   Inheriting this class has shown to speed up builds due to
+   significantly lower amounts of data stored in the data cache as well
+   as on disk. Inheriting this class also makes cleanup of
+   :term:`TMPDIR` faster, at the
+   expense of being easily able to dive into the source code. File
+   system maintainers have recommended that the fastest way to clean up
+   large numbers of files is to reformat partitions rather than delete
+   files due to the linear nature of partitions. This, of course,
+   assumes you structure the disk partitions and file systems in a way
+   that this is practical.
+
+Aside from the previous list, you should keep some trade offs in mind
+that can help you speed up the build:
+
+-  Remove items from
+   :term:`DISTRO_FEATURES`
+   that you might not need.
+
+-  Exclude debug symbols and other debug information: If you do not need
+   these symbols and other debug information, disabling the ``*-dbg``
+   package generation can speed up the build. You can disable this
+   generation by setting the
+   :term:`INHIBIT_PACKAGE_DEBUG_SPLIT`
+   variable to "1".
+
+-  Disable static library generation for recipes derived from
+   ``autoconf`` or ``libtool``: Following is an example showing how to
+   disable static libraries and still provide an override to handle
+   exceptions::
+
+      STATICLIBCONF = "--disable-static"
+      STATICLIBCONF:sqlite3-native = ""
+      EXTRA_OECONF += "${STATICLIBCONF}"
+
+   .. note::
+
+      -  Some recipes need static libraries in order to work correctly
+         (e.g. ``pseudo-native`` needs ``sqlite3-native``). Overrides,
+         as in the previous example, account for these kinds of
+         exceptions.
+
+      -  Some packages have packaging code that assumes the presence of
+         the static libraries. If so, you might need to exclude them as
+         well.
+
--- a/documentation/dev-manual/start.rst
+++ b/documentation/dev-manual/start.rst
@@ -223,7 +223,7 @@ particular working environment and set of practices.
    -  Maintain your Metadata in layers that make sense for your
       situation. See the ":ref:`overview-manual/yp-intro:the yocto project layer model`"
       section in the Yocto Project Overview and Concepts Manual and the
-       ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+       ":ref:`dev-manual/layers:understanding and creating layers`"
       section for more information on layers.

    -  Separate the project's Metadata and code by using separate Git
@@ -246,14 +246,13 @@ particular working environment and set of practices.
    -  The Yocto Project community encourages you to send patches to the
       project to fix bugs or add features. If you do submit patches,
       follow the project commit guidelines for writing good commit
-       messages. See the
-       ":ref:`dev-manual/common-tasks:submitting a change to the yocto project`"
-       section.
+       messages. See the ":doc:`../contributor-guide/submit-changes`"
+       section in the Yocto Project and OpenEmbedded Contributor Guide.

    -  Send changes to the core sooner than later as others are likely
       to run into the same issues. For some guidance on mailing lists
-       to use, see the list in the
-       ":ref:`dev-manual/common-tasks:submitting a change to the yocto project`"
+       to use, see the lists in the
+       ":ref:`contributor-guide/submit-changes:finding a suitable mailing list`"
       section. For a description
       of the available mailing lists, see the ":ref:`resources-mailinglist`" section in
       the Yocto Project Reference Manual.
--- a/documentation/dev-manual/temporary-source-code.rst
+++ b/documentation/dev-manual/temporary-source-code.rst
@@ -0,0 +1,66 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Finding Temporary Source Code
+*****************************
+
+You might find it helpful during development to modify the temporary
+source code used by recipes to build packages. For example, suppose you
+are developing a patch and you need to experiment a bit to figure out
+your solution. After you have initially built the package, you can
+iteratively tweak the source code, which is located in the
+:term:`Build Directory`, and then you can force a re-compile and quickly
+test your altered code. Once you settle on a solution, you can then preserve
+your changes in the form of patches.
+
+During a build, the unpacked temporary source code used by recipes to
+build packages is available in the :term:`Build Directory` as defined by the
+:term:`S` variable. Below is the default value for the :term:`S` variable as
+defined in the ``meta/conf/bitbake.conf`` configuration file in the
+:term:`Source Directory`::
+
+   S = "${WORKDIR}/${BP}"
+
+You should be aware that many recipes override the
+:term:`S` variable. For example, recipes that fetch their source from Git
+usually set :term:`S` to ``${WORKDIR}/git``.
+
+.. note::
+
+   The :term:`BP` represents the base recipe name, which consists of the name
+   and version::
+
+           BP = "${BPN}-${PV}"
+
+
+The path to the work directory for the recipe
+(:term:`WORKDIR`) is defined as
+follows::
+
+   ${TMPDIR}/work/${MULTIMACH_TARGET_SYS}/${PN}/${EXTENDPE}${PV}-${PR}
+
+The actual directory depends on several things:
+
+-  :term:`TMPDIR`: The top-level build
+   output directory.
+
+-  :term:`MULTIMACH_TARGET_SYS`:
+   The target system identifier.
+
+-  :term:`PN`: The recipe name.
+
+-  :term:`EXTENDPE`: The epoch --- if
+   :term:`PE` is not specified, which is
+   usually the case for most recipes, then :term:`EXTENDPE` is blank.
+
+-  :term:`PV`: The recipe version.
+
+-  :term:`PR`: The recipe revision.
+
+As an example, assume a Source Directory top-level folder named
+``poky``, a default :term:`Build Directory` at ``poky/build``, and a
+``qemux86-poky-linux`` machine target system. Furthermore, suppose your
+recipe is named ``foo_1.3.0.bb``. In this case, the work directory the
+build system uses to build the package would be as follows::
+
+   poky/build/tmp/work/qemux86-poky-linux/foo/1.3.0-r0
+
--- a/documentation/dev-manual/upgrading-recipes.rst
+++ b/documentation/dev-manual/upgrading-recipes.rst
@@ -0,0 +1,397 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Upgrading Recipes
+*****************
+
+Over time, upstream developers publish new versions for software built
+by layer recipes. It is recommended to keep recipes up-to-date with
+upstream version releases.
+
+While there are several methods to upgrade a recipe, you might
+consider checking on the upgrade status of a recipe first. You can do so
+using the ``devtool check-upgrade-status`` command. See the
+":ref:`devtool-checking-on-the-upgrade-status-of-a-recipe`"
+section in the Yocto Project Reference Manual for more information.
+
+The remainder of this section describes three ways you can upgrade a
+recipe. You can use the Automated Upgrade Helper (AUH) to set up
+automatic version upgrades. Alternatively, you can use
+``devtool upgrade`` to set up semi-automatic version upgrades. Finally,
+you can manually upgrade a recipe by editing the recipe itself.
+
+Using the Auto Upgrade Helper (AUH)
+===================================
+
+The AUH utility works in conjunction with the OpenEmbedded build system
+in order to automatically generate upgrades for recipes based on new
+versions being published upstream. Use AUH when you want to create a
+service that performs the upgrades automatically and optionally sends
+you an email with the results.
+
+AUH allows you to update several recipes with a single use. You can also
+optionally perform build and integration tests using images with the
+results saved to your hard drive and emails of results optionally sent
+to recipe maintainers. Finally, AUH creates Git commits with appropriate
+commit messages in the layer's tree for the changes made to recipes.
+
+.. note::
+
+   In some conditions, you should not use AUH to upgrade recipes
+   and should instead use either ``devtool upgrade`` or upgrade your
+   recipes manually:
+
+   -  When AUH cannot complete the upgrade sequence. This situation
+      usually results because custom patches carried by the recipe
+      cannot be automatically rebased to the new version. In this case,
+      ``devtool upgrade`` allows you to manually resolve conflicts.
+
+   -  When for any reason you want fuller control over the upgrade
+      process. For example, when you want special arrangements for
+      testing.
+
+The following steps describe how to set up the AUH utility:
+
+#. *Be Sure the Development Host is Set Up:* You need to be sure that
+   your development host is set up to use the Yocto Project. For
+   information on how to set up your host, see the
+   ":ref:`dev-manual/start:Preparing the Build Host`" section.
+
+#. *Make Sure Git is Configured:* The AUH utility requires Git to be
+   configured because AUH uses Git to save upgrades. Thus, you must have
+   Git user and email configured. The following command shows your
+   configurations::
+
+      $ git config --list
+
+   If you do not have the user and
+   email configured, you can use the following commands to do so::
+
+      $ git config --global user.name some_name
+      $ git config --global user.email username@domain.com
+
+#. *Clone the AUH Repository:* To use AUH, you must clone the repository
+   onto your development host. The following command uses Git to create
+   a local copy of the repository on your system::
+
+      $ git clone git://git.yoctoproject.org/auto-upgrade-helper
+      Cloning into 'auto-upgrade-helper'... remote: Counting objects: 768, done.
+      remote: Compressing objects: 100% (300/300), done.
+      remote: Total 768 (delta 499), reused 703 (delta 434)
+      Receiving objects: 100% (768/768), 191.47 KiB | 98.00 KiB/s, done.
+      Resolving deltas: 100% (499/499), done.
+      Checking connectivity... done.
+
+   AUH is not part of the :term:`OpenEmbedded-Core (OE-Core)` or
+   :term:`Poky` repositories.
+
+#. *Create a Dedicated Build Directory:* Run the :ref:`structure-core-script`
+   script to create a fresh :term:`Build Directory` that you use exclusively
+   for running the AUH utility::
+
+      $ cd poky
+      $ source oe-init-build-env your_AUH_build_directory
+
+   Re-using an existing :term:`Build Directory` and its configurations is not
+   recommended as existing settings could cause AUH to fail or behave
+   undesirably.
+
+#. *Make Configurations in Your Local Configuration File:* Several
+   settings are needed in the ``local.conf`` file in the build
+   directory you just created for AUH. Make these following
+   configurations:
+
+   -  If you want to enable :ref:`Build
+      History <dev-manual/build-quality:maintaining build output quality>`,
+      which is optional, you need the following lines in the
+      ``conf/local.conf`` file::
+
+         INHERIT =+ "buildhistory"
+         BUILDHISTORY_COMMIT = "1"
+
+      With this configuration and a successful
+      upgrade, a build history "diff" file appears in the
+      ``upgrade-helper/work/recipe/buildhistory-diff.txt`` file found in
+      your :term:`Build Directory`.
+
+   -  If you want to enable testing through the :ref:`ref-classes-testimage*`
+      class, which is optional, you need to have the following set in
+      your ``conf/local.conf`` file::
+
+         INHERIT += "testimage"
+
+      .. note::
+
+         If your distro does not enable by default ptest, which Poky
+         does, you need the following in your ``local.conf`` file::
+
+                 DISTRO_FEATURES:append = " ptest"
+
+
+#. *Optionally Start a vncserver:* If you are running in a server
+   without an X11 session, you need to start a vncserver::
+
+      $ vncserver :1
+      $ export DISPLAY=:1
+
+#. *Create and Edit an AUH Configuration File:* You need to have the
+   ``upgrade-helper/upgrade-helper.conf`` configuration file in your
+   :term:`Build Directory`. You can find a sample configuration file in the
+   :yocto_git:`AUH source repository </auto-upgrade-helper/tree/>`.
+
+   Read through the sample file and make configurations as needed. For
+   example, if you enabled build history in your ``local.conf`` as
+   described earlier, you must enable it in ``upgrade-helper.conf``.
+
+   Also, if you are using the default ``maintainers.inc`` file supplied
+   with Poky and located in ``meta-yocto`` and you do not set a
+   "maintainers_whitelist" or "global_maintainer_override" in the
+   ``upgrade-helper.conf`` configuration, and you specify "-e all" on
+   the AUH command-line, the utility automatically sends out emails to
+   all the default maintainers. Please avoid this.
+
+This next set of examples describes how to use the AUH:
+
+-  *Upgrading a Specific Recipe:* To upgrade a specific recipe, use the
+   following form::
+
+      $ upgrade-helper.py recipe_name
+
+   For example, this command upgrades the ``xmodmap`` recipe::
+
+      $ upgrade-helper.py xmodmap
+
+-  *Upgrading a Specific Recipe to a Particular Version:* To upgrade a
+   specific recipe to a particular version, use the following form::
+
+      $ upgrade-helper.py recipe_name -t version
+
+   For example, this command upgrades the ``xmodmap`` recipe to version 1.2.3::
+
+      $ upgrade-helper.py xmodmap -t 1.2.3
+
+-  *Upgrading all Recipes to the Latest Versions and Suppressing Email
+   Notifications:* To upgrade all recipes to their most recent versions
+   and suppress the email notifications, use the following command::
+
+      $ upgrade-helper.py all
+
+-  *Upgrading all Recipes to the Latest Versions and Send Email
+   Notifications:* To upgrade all recipes to their most recent versions
+   and send email messages to maintainers for each attempted recipe as
+   well as a status email, use the following command::
+
+      $ upgrade-helper.py -e all
+
+Once you have run the AUH utility, you can find the results in the AUH
+:term:`Build Directory`::
+
+   ${BUILDDIR}/upgrade-helper/timestamp
+
+The AUH utility
+also creates recipe update commits from successful upgrade attempts in
+the layer tree.
+
+You can easily set up to run the AUH utility on a regular basis by using
+a cron job. See the
+:yocto_git:`weeklyjob.sh </auto-upgrade-helper/tree/weeklyjob.sh>`
+file distributed with the utility for an example.
+
+Using ``devtool upgrade``
+=========================
+
+As mentioned earlier, an alternative method for upgrading recipes to
+newer versions is to use
+:doc:`devtool upgrade </ref-manual/devtool-reference>`.
+You can read about ``devtool upgrade`` in general in the
+":ref:`sdk-manual/extensible:use \`\`devtool upgrade\`\` to create a version of the recipe that supports a newer version of the software`"
+section in the Yocto Project Application Development and the Extensible
+Software Development Kit (eSDK) Manual.
+
+To see all the command-line options available with ``devtool upgrade``,
+use the following help command::
+
+   $ devtool upgrade -h
+
+If you want to find out what version a recipe is currently at upstream
+without any attempt to upgrade your local version of the recipe, you can
+use the following command::
+
+   $ devtool latest-version recipe_name
+
+As mentioned in the previous section describing AUH, ``devtool upgrade``
+works in a less-automated manner than AUH. Specifically,
+``devtool upgrade`` only works on a single recipe that you name on the
+command line, cannot perform build and integration testing using images,
+and does not automatically generate commits for changes in the source
+tree. Despite all these "limitations", ``devtool upgrade`` updates the
+recipe file to the new upstream version and attempts to rebase custom
+patches contained by the recipe as needed.
+
+.. note::
+
+   AUH uses much of ``devtool upgrade`` behind the scenes making AUH somewhat
+   of a "wrapper" application for ``devtool upgrade``.
+
+A typical scenario involves having used Git to clone an upstream
+repository that you use during build operations. Because you have built the
+recipe in the past, the layer is likely added to your
+configuration already. If for some reason, the layer is not added, you
+could add it easily using the
+":ref:`bitbake-layers <bsp-guide/bsp:creating a new bsp layer using the \`\`bitbake-layers\`\` script>`"
+script. For example, suppose you use the ``nano.bb`` recipe from the
+``meta-oe`` layer in the ``meta-openembedded`` repository. For this
+example, assume that the layer has been cloned into following area::
+
+   /home/scottrif/meta-openembedded
+
+The following command from your :term:`Build Directory` adds the layer to
+your build configuration (i.e. ``${BUILDDIR}/conf/bblayers.conf``)::
+
+   $ bitbake-layers add-layer /home/scottrif/meta-openembedded/meta-oe
+   NOTE: Starting bitbake server...
+   Parsing recipes: 100% |##########################################| Time: 0:00:55
+   Parsing of 1431 .bb files complete (0 cached, 1431 parsed). 2040 targets, 56 skipped, 0 masked, 0 errors.
+   Removing 12 recipes from the x86_64 sysroot: 100% |##############| Time: 0:00:00
+   Removing 1 recipes from the x86_64_i586 sysroot: 100% |##########| Time: 0:00:00
+   Removing 5 recipes from the i586 sysroot: 100% |#################| Time: 0:00:00
+   Removing 5 recipes from the qemux86 sysroot: 100% |##############| Time: 0:00:00
+
+For this example, assume that the ``nano.bb`` recipe that
+is upstream has a 2.9.3 version number. However, the version in the
+local repository is 2.7.4. The following command from your build
+directory automatically upgrades the recipe for you::
+
+   $ devtool upgrade nano -V 2.9.3
+   NOTE: Starting bitbake server...
+   NOTE: Creating workspace layer in /home/scottrif/poky/build/workspace
+   Parsing recipes: 100% |##########################################| Time: 0:00:46
+   Parsing of 1431 .bb files complete (0 cached, 1431 parsed). 2040 targets, 56 skipped, 0 masked, 0 errors.
+   NOTE: Extracting current version source...
+   NOTE: Resolving any missing task queue dependencies
+          .
+          .
+          .
+   NOTE: Executing SetScene Tasks
+   NOTE: Executing RunQueue Tasks
+   NOTE: Tasks Summary: Attempted 74 tasks of which 72 didn't need to be rerun and all succeeded.
+   Adding changed files: 100% |#####################################| Time: 0:00:00
+   NOTE: Upgraded source extracted to /home/scottrif/poky/build/workspace/sources/nano
+   NOTE: New recipe is /home/scottrif/poky/build/workspace/recipes/nano/nano_2.9.3.bb
+
+.. note::
+
+   Using the ``-V`` option is not necessary. Omitting the version number causes
+   ``devtool upgrade`` to upgrade the recipe to the most recent version.
+
+Continuing with this example, you can use ``devtool build`` to build the
+newly upgraded recipe::
+
+   $ devtool build nano
+   NOTE: Starting bitbake server...
+   Loading cache: 100% |################################################################################################| Time: 0:00:01
+   Loaded 2040 entries from dependency cache.
+   Parsing recipes: 100% |##############################################################################################| Time: 0:00:00
+   Parsing of 1432 .bb files complete (1431 cached, 1 parsed). 2041 targets, 56 skipped, 0 masked, 0 errors.
+   NOTE: Resolving any missing task queue dependencies
+          .
+          .
+          .
+   NOTE: Executing SetScene Tasks
+   NOTE: Executing RunQueue Tasks
+   NOTE: nano: compiling from external source tree /home/scottrif/poky/build/workspace/sources/nano
+   NOTE: Tasks Summary: Attempted 520 tasks of which 304 didn't need to be rerun and all succeeded.
+
+Within the ``devtool upgrade`` workflow, you can
+deploy and test your rebuilt software. For this example,
+however, running ``devtool finish`` cleans up the workspace once the
+source in your workspace is clean. This usually means using Git to stage
+and submit commits for the changes generated by the upgrade process.
+
+Once the tree is clean, you can clean things up in this example with the
+following command from the ``${BUILDDIR}/workspace/sources/nano``
+directory::
+
+   $ devtool finish nano meta-oe
+   NOTE: Starting bitbake server...
+   Loading cache: 100% |################################################################################################| Time: 0:00:00
+   Loaded 2040 entries from dependency cache.
+   Parsing recipes: 100% |##############################################################################################| Time: 0:00:01
+   Parsing of 1432 .bb files complete (1431 cached, 1 parsed). 2041 targets, 56 skipped, 0 masked, 0 errors.
+   NOTE: Adding new patch 0001-nano.bb-Stuff-I-changed-when-upgrading-nano.bb.patch
+   NOTE: Updating recipe nano_2.9.3.bb
+   NOTE: Removing file /home/scottrif/meta-openembedded/meta-oe/recipes-support/nano/nano_2.7.4.bb
+   NOTE: Moving recipe file to /home/scottrif/meta-openembedded/meta-oe/recipes-support/nano
+   NOTE: Leaving source tree /home/scottrif/poky/build/workspace/sources/nano as-is; if you no longer need it then please delete it manually
+
+
+Using the ``devtool finish`` command cleans up the workspace and creates a patch
+file based on your commits. The tool puts all patch files back into the
+source directory in a sub-directory named ``nano`` in this case.
+
+Manually Upgrading a Recipe
+===========================
+
+If for some reason you choose not to upgrade recipes using
+:ref:`dev-manual/upgrading-recipes:Using the Auto Upgrade Helper (AUH)` or
+by :ref:`dev-manual/upgrading-recipes:Using \`\`devtool upgrade\`\``,
+you can manually edit the recipe files to upgrade the versions.
+
+.. note::
+
+   Manually updating multiple recipes scales poorly and involves many
+   steps. The recommendation to upgrade recipe versions is through AUH
+   or ``devtool upgrade``, both of which automate some steps and provide
+   guidance for others needed for the manual process.
+
+To manually upgrade recipe versions, follow these general steps:
+
+#. *Change the Version:* Rename the recipe such that the version (i.e.
+   the :term:`PV` part of the recipe name)
+   changes appropriately. If the version is not part of the recipe name,
+   change the value as it is set for :term:`PV` within the recipe itself.
+
+#. *Update* :term:`SRCREV` *if Needed*: If the source code your recipe builds
+   is fetched from Git or some other version control system, update
+   :term:`SRCREV` to point to the
+   commit hash that matches the new version.
+
+#. *Build the Software:* Try to build the recipe using BitBake. Typical
+   build failures include the following:
+
+   -  License statements were updated for the new version. For this
+      case, you need to review any changes to the license and update the
+      values of :term:`LICENSE` and
+      :term:`LIC_FILES_CHKSUM`
+      as needed.
+
+      .. note::
+
+         License changes are often inconsequential. For example, the
+         license text's copyright year might have changed.
+
+   -  Custom patches carried by the older version of the recipe might
+      fail to apply to the new version. For these cases, you need to
+      review the failures. Patches might not be necessary for the new
+      version of the software if the upgraded version has fixed those
+      issues. If a patch is necessary and failing, you need to rebase it
+      into the new version.
+
+#. *Optionally Attempt to Build for Several Architectures:* Once you
+   successfully build the new software for a given architecture, you
+   could test the build for other architectures by changing the
+   :term:`MACHINE` variable and
+   rebuilding the software. This optional step is especially important
+   if the recipe is to be released publicly.
+
+#. *Check the Upstream Change Log or Release Notes:* Checking both these
+   reveals if there are new features that could break
+   backwards-compatibility. If so, you need to take steps to mitigate or
+   eliminate that situation.
+
+#. *Optionally Create a Bootable Image and Test:* If you want, you can
+   test the new software by booting it onto actual hardware.
+
+#. *Create a Commit with the Change in the Layer Repository:* After all
+   builds work and any testing is successful, you can create commits for
+   any changes in the layer holding your upgraded recipe.
+
--- a/documentation/dev-manual/vulnerabilities.rst
+++ b/documentation/dev-manual/vulnerabilities.rst
@@ -0,0 +1,214 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Checking for Vulnerabilities
+****************************
+
+Vulnerabilities in Poky and OE-Core
+===================================
+
+The Yocto Project has an infrastructure to track and address unfixed
+known security vulnerabilities, as tracked by the public
+:wikipedia:`Common Vulnerabilities and Exposures (CVE) <Common_Vulnerabilities_and_Exposures>`
+database.
+
+The Yocto Project maintains a `list of known vulnerabilities
+<https://autobuilder.yocto.io/pub/non-release/patchmetrics/>`__
+for packages in Poky and OE-Core, tracking the evolution of the number of
+unpatched CVEs and the status of patches. Such information is available for
+the current development version and for each supported release.
+
+Security is a process, not a product, and thus at any time, a number of security
+issues may be impacting Poky and OE-Core. It is up to the maintainers, users,
+contributors and anyone interested in the issues to investigate and possibly fix them by
+updating software components to newer versions or by applying patches to address them.
+It is recommended to work with Poky and OE-Core upstream maintainers and submit
+patches to fix them, see ":doc:`../contributor-guide/submit-changes`" for details.
+
+Vulnerability check at build time
+=================================
+
+To enable a check for CVE security vulnerabilities using
+:ref:`ref-classes-cve-check` in the specific image or target you are building,
+add the following setting to your configuration::
+
+   INHERIT += "cve-check"
+
+The CVE database contains some old incomplete entries which have been
+deemed not to impact Poky or OE-Core. These CVE entries can be excluded from the
+check using build configuration::
+
+   include conf/distro/include/cve-extra-exclusions.inc
+
+With this CVE check enabled, BitBake build will try to map each compiled software component
+recipe name and version information to the CVE database and generate recipe and
+image specific reports. These reports will contain:
+
+-  metadata about the software component like names and versions
+
+-  metadata about the CVE issue such as description and NVD link
+
+-  for each software component, a list of CVEs which are possibly impacting this version
+
+-  status of each CVE: ``Patched``, ``Unpatched`` or ``Ignored``
+
+The status ``Patched`` means that a patch file to address the security issue has been
+applied. ``Unpatched`` status means that no patches to address the issue have been
+applied and that the issue needs to be investigated. ``Ignored`` means that after
+analysis, it has been deemed to ignore the issue as it for example affects
+the software component on a different operating system platform.
+
+After a build with CVE check enabled, reports for each compiled source recipe will be
+found in ``build/tmp/deploy/cve``.
+
+For example the CVE check report for the ``flex-native`` recipe looks like::
+
+   $ cat poky/build/tmp/deploy/cve/flex-native
+   LAYER: meta
+   PACKAGE NAME: flex-native
+   PACKAGE VERSION: 2.6.4
+   CVE: CVE-2016-6354
+   CVE STATUS: Patched
+   CVE SUMMARY: Heap-based buffer overflow in the yy_get_next_buffer function in Flex before 2.6.1 might allow context-dependent attackers to cause a denial of service or possibly execute arbitrary code via vectors involving num_to_read.
+   CVSS v2 BASE SCORE: 7.5
+   CVSS v3 BASE SCORE: 9.8
+   VECTOR: NETWORK
+   MORE INFORMATION: https://nvd.nist.gov/vuln/detail/CVE-2016-6354
+
+   LAYER: meta
+   PACKAGE NAME: flex-native
+   PACKAGE VERSION: 2.6.4
+   CVE: CVE-2019-6293
+   CVE STATUS: Ignored
+   CVE SUMMARY: An issue was discovered in the function mark_beginning_as_normal in nfa.c in flex 2.6.4. There is a stack exhaustion problem caused by the mark_beginning_as_normal function making recursive calls to itself in certain scenarios involving lots of '*' characters. Remote attackers could leverage this vulnerability to cause a denial-of-service.
+   CVSS v2 BASE SCORE: 4.3
+   CVSS v3 BASE SCORE: 5.5
+   VECTOR: NETWORK
+   MORE INFORMATION: https://nvd.nist.gov/vuln/detail/CVE-2019-6293
+
+For images, a summary of all recipes included in the image and their CVEs is also
+generated in textual and JSON formats. These ``.cve`` and ``.json`` reports can be found
+in the ``tmp/deploy/images`` directory for each compiled image.
+
+At build time CVE check will also throw warnings about ``Unpatched`` CVEs::
+
+   WARNING: flex-2.6.4-r0 do_cve_check: Found unpatched CVE (CVE-2019-6293), for more information check /poky/build/tmp/work/core2-64-poky-linux/flex/2.6.4-r0/temp/cve.log
+   WARNING: libarchive-3.5.1-r0 do_cve_check: Found unpatched CVE (CVE-2021-36976), for more information check /poky/build/tmp/work/core2-64-poky-linux/libarchive/3.5.1-r0/temp/cve.log
+
+It is also possible to check the CVE status of individual packages as follows::
+
+   bitbake -c cve_check flex libarchive
+
+Fixing CVE product name and version mappings
+============================================
+
+By default, :ref:`ref-classes-cve-check` uses the recipe name :term:`BPN` as CVE
+product name when querying the CVE database. If this mapping contains false positives, e.g.
+some reported CVEs are not for the software component in question, or false negatives like
+some CVEs are not found to impact the recipe when they should, then the problems can be
+in the recipe name to CVE product mapping. These mapping issues can be fixed by setting
+the :term:`CVE_PRODUCT` variable inside the recipe. This defines the name of the software component in the
+upstream `NIST CVE database <https://nvd.nist.gov/>`__.
+
+The variable supports using vendor and product names like this::
+
+   CVE_PRODUCT = "flex_project:flex"
+
+In this example the vendor name used in the CVE database is ``flex_project`` and the
+product is ``flex``. With this setting the ``flex`` recipe only maps to this specific
+product and not products from other vendors with same name ``flex``.
+
+Similarly, when the recipe version :term:`PV` is not compatible with software versions used by
+the upstream software component releases and the CVE database, these can be fixed using
+the :term:`CVE_VERSION` variable.
+
+Note that if the CVE entries in the NVD database contain bugs or have missing or incomplete
+information, it is recommended to fix the information there directly instead of working
+around the issues possibly for a long time in Poky and OE-Core side recipes. Feedback to
+NVD about CVE entries can be provided through the `NVD contact form <https://nvd.nist.gov/info/contact-form>`__.
+
+Fixing vulnerabilities in recipes
+=================================
+
+If a CVE security issue impacts a software component, it can be fixed by updating to a newer
+version of the software component or by applying a patch. For Poky and OE-Core master branches, updating
+to a newer software component release with fixes is the best option, but patches can be applied
+if releases are not yet available.
+
+For stable branches, it is preferred to apply patches for the issues. For some software
+components minor version updates can also be applied if they are backwards compatible.
+
+Here is an example of fixing CVE security issues with patch files,
+an example from the :oe_layerindex:`ffmpeg recipe</layerindex/recipe/47350>`::
+
+   SRC_URI = "https://www.ffmpeg.org/releases/${BP}.tar.xz \
+              file://0001-libavutil-include-assembly-with-full-path-from-sourc.patch \
+              file://fix-CVE-2020-20446.patch \
+              file://fix-CVE-2020-20453.patch \
+              file://fix-CVE-2020-22015.patch \
+              file://fix-CVE-2020-22021.patch \
+              file://fix-CVE-2020-22033-CVE-2020-22019.patch \
+              file://fix-CVE-2021-33815.patch \
+
+A good practice is to include the CVE identifier in both the patch file name
+and inside the patch file commit message using the format::
+
+   CVE: CVE-2020-22033
+
+CVE checker will then capture this information and change the CVE status to ``Patched``
+in the generated reports.
+
+If analysis shows that the CVE issue does not impact the recipe due to configuration, platform,
+version or other reasons, the CVE can be marked as ``Ignored`` using the :term:`CVE_CHECK_IGNORE` variable.
+As mentioned previously, if data in the CVE database is wrong, it is recommend to fix those
+issues in the CVE database directly.
+
+Recipes can be completely skipped by CVE check by including the recipe name in
+the :term:`CVE_CHECK_SKIP_RECIPE` variable.
+
+Implementation details
+======================
+
+Here's what the :ref:`ref-classes-cve-check` class does to find unpatched CVE IDs.
+
+First the code goes through each patch file provided by a recipe. If a valid CVE ID
+is found in the name of the file, the corresponding CVE is considered as patched.
+Don't forget that if multiple CVE IDs are found in the filename, only the last
+one is considered. Then, the code looks for ``CVE: CVE-ID`` lines in the patch
+file. The found CVE IDs are also considered as patched.
+
+Then, the code looks up all the CVE IDs in the NIST database for all the
+products defined in :term:`CVE_PRODUCT`. Then, for each found CVE:
+
+-  If the package name (:term:`PN`) is part of
+   :term:`CVE_CHECK_SKIP_RECIPE`, it is considered as ``Patched``.
+
+-  If the CVE ID is part of :term:`CVE_CHECK_IGNORE`, it is
+   set as ``Ignored``.
+
+-  If the CVE ID is part of the patched CVE for the recipe, it is
+   already considered as ``Patched``.
+
+-  Otherwise, the code checks whether the recipe version (:term:`PV`)
+   is within the range of versions impacted by the CVE. If so, the CVE
+   is considered as ``Unpatched``.
+
+The CVE database is stored in :term:`DL_DIR` and can be inspected using
+``sqlite3`` command as follows::
+
+   sqlite3 downloads/CVE_CHECK/nvdcve_1.1.db .dump | grep CVE-2021-37462
+
+When analyzing CVEs, it is recommended to:
+
+-  study the latest information in `CVE database <https://nvd.nist.gov/vuln/search>`__.
+
+-  check how upstream developers of the software component addressed the issue, e.g.
+   what patch was applied, which upstream release contains the fix.
+
+-  check what other Linux distributions like `Debian <https://security-tracker.debian.org/tracker/>`__
+   did to analyze and address the issue.
+
+-  follow security notices from other Linux distributions.
+
+-  follow public `open source security mailing lists <https://oss-security.openwall.org/wiki/mailing-lists>`__ for
+   discussions and advance notifications of CVE bugs and software releases with fixes.
+
--- a/documentation/dev-manual/wayland.rst
+++ b/documentation/dev-manual/wayland.rst
@@ -0,0 +1,90 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using Wayland and Weston
+************************
+
+:wikipedia:`Wayland <Wayland_(display_server_protocol)>`
+is a computer display server protocol that provides a method for
+compositing window managers to communicate directly with applications
+and video hardware and expects them to communicate with input hardware
+using other libraries. Using Wayland with supporting targets can result
+in better control over graphics frame rendering than an application
+might otherwise achieve.
+
+The Yocto Project provides the Wayland protocol libraries and the
+reference :wikipedia:`Weston <Wayland_(display_server_protocol)#Weston>`
+compositor as part of its release. You can find the integrated packages
+in the ``meta`` layer of the :term:`Source Directory`.
+Specifically, you
+can find the recipes that build both Wayland and Weston at
+``meta/recipes-graphics/wayland``.
+
+You can build both the Wayland and Weston packages for use only with targets
+that accept the :wikipedia:`Mesa 3D and Direct Rendering Infrastructure
+<Mesa_(computer_graphics)>`, which is also known as Mesa DRI. This implies that
+you cannot build and use the packages if your target uses, for example, the
+Intel Embedded Media and Graphics Driver (Intel EMGD) that overrides Mesa DRI.
+
+.. note::
+
+   Due to lack of EGL support, Weston 1.0.3 will not run directly on the
+   emulated QEMU hardware. However, this version of Weston will run
+   under X emulation without issues.
+
+This section describes what you need to do to implement Wayland and use
+the Weston compositor when building an image for a supporting target.
+
+Enabling Wayland in an Image
+============================
+
+To enable Wayland, you need to enable it to be built and enable it to be
+included (installed) in the image.
+
+Building Wayland
+----------------
+
+To cause Mesa to build the ``wayland-egl`` platform and Weston to build
+Wayland with Kernel Mode Setting
+(`KMS <https://wiki.archlinux.org/index.php/Kernel_Mode_Setting>`__)
+support, include the "wayland" flag in the
+:term:`DISTRO_FEATURES`
+statement in your ``local.conf`` file::
+
+   DISTRO_FEATURES:append = " wayland"
+
+.. note::
+
+   If X11 has been enabled elsewhere, Weston will build Wayland with X11
+   support
+
+Installing Wayland and Weston
+-----------------------------
+
+To install the Wayland feature into an image, you must include the
+following
+:term:`CORE_IMAGE_EXTRA_INSTALL`
+statement in your ``local.conf`` file::
+
+   CORE_IMAGE_EXTRA_INSTALL += "wayland weston"
+
+Running Weston
+==============
+
+To run Weston inside X11, enabling it as described earlier and building
+a Sato image is sufficient. If you are running your image under Sato, a
+Weston Launcher appears in the "Utility" category.
+
+Alternatively, you can run Weston through the command-line interpretor
+(CLI), which is better suited for development work. To run Weston under
+the CLI, you need to do the following after your image is built:
+
+#. Run these commands to export ``XDG_RUNTIME_DIR``::
+
+      mkdir -p /tmp/$USER-weston
+      chmod 0700 /tmp/$USER-weston
+      export XDG_RUNTIME_DIR=/tmp/$USER-weston
+
+#. Launch Weston in the shell::
+
+      weston
+
--- a/documentation/dev-manual/wic.rst
+++ b/documentation/dev-manual/wic.rst
@@ -0,0 +1,729 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Creating Partitioned Images Using Wic
+*************************************
+
+Creating an image for a particular hardware target using the
+OpenEmbedded build system does not necessarily mean you can boot that
+image as is on your device. Physical devices accept and boot images in
+various ways depending on the specifics of the device. Usually,
+information about the hardware can tell you what image format the device
+requires. Should your device require multiple partitions on an SD card,
+flash, or an HDD, you can use the OpenEmbedded Image Creator, Wic, to
+create the properly partitioned image.
+
+The ``wic`` command generates partitioned images from existing
+OpenEmbedded build artifacts. Image generation is driven by partitioning
+commands contained in an OpenEmbedded kickstart file (``.wks``)
+specified either directly on the command line or as one of a selection
+of canned kickstart files as shown with the ``wic list images`` command
+in the
+":ref:`dev-manual/wic:generate an image using an existing kickstart file`"
+section. When you apply the command to a given set of build artifacts, the
+result is an image or set of images that can be directly written onto media and
+used on a particular system.
+
+.. note::
+
+   For a kickstart file reference, see the
+   ":ref:`ref-manual/kickstart:openembedded kickstart (\`\`.wks\`\`) reference`"
+   Chapter in the Yocto Project Reference Manual.
+
+The ``wic`` command and the infrastructure it is based on is by
+definition incomplete. The purpose of the command is to allow the
+generation of customized images, and as such, was designed to be
+completely extensible through a plugin interface. See the
+":ref:`dev-manual/wic:using the wic plugin interface`" section
+for information on these plugins.
+
+This section provides some background information on Wic, describes what
+you need to have in place to run the tool, provides instruction on how
+to use the Wic utility, provides information on using the Wic plugins
+interface, and provides several examples that show how to use Wic.
+
+Background
+==========
+
+This section provides some background on the Wic utility. While none of
+this information is required to use Wic, you might find it interesting.
+
+-  The name "Wic" is derived from OpenEmbedded Image Creator (oeic). The
+   "oe" diphthong in "oeic" was promoted to the letter "w", because
+   "oeic" is both difficult to remember and to pronounce.
+
+-  Wic is loosely based on the Meego Image Creator (``mic``) framework.
+   The Wic implementation has been heavily modified to make direct use
+   of OpenEmbedded build artifacts instead of package installation and
+   configuration, which are already incorporated within the OpenEmbedded
+   artifacts.
+
+-  Wic is a completely independent standalone utility that initially
+   provides easier-to-use and more flexible replacements for an existing
+   functionality in OE-Core's :ref:`ref-classes-image-live`
+   class. The difference between Wic and those examples is that with Wic
+   the functionality of those scripts is implemented by a
+   general-purpose partitioning language, which is based on Redhat
+   kickstart syntax.
+
+Requirements
+============
+
+In order to use the Wic utility with the OpenEmbedded Build system, your
+system needs to meet the following requirements:
+
+-  The Linux distribution on your development host must support the
+   Yocto Project. See the ":ref:`detailed-supported-distros`"
+   section in the Yocto Project Reference Manual for the list of
+   distributions that support the Yocto Project.
+
+-  The standard system utilities, such as ``cp``, must be installed on
+   your development host system.
+
+-  You must have sourced the build environment setup script (i.e.
+   :ref:`structure-core-script`) found in the :term:`Build Directory`.
+
+-  You need to have the build artifacts already available, which
+   typically means that you must have already created an image using the
+   OpenEmbedded build system (e.g. ``core-image-minimal``). While it
+   might seem redundant to generate an image in order to create an image
+   using Wic, the current version of Wic requires the artifacts in the
+   form generated by the OpenEmbedded build system.
+
+-  You must build several native tools, which are built to run on the
+   build system::
+
+      $ bitbake wic-tools
+
+-  Include "wic" as part of the
+   :term:`IMAGE_FSTYPES`
+   variable.
+
+-  Include the name of the :ref:`wic kickstart file <openembedded-kickstart-wks-reference>`
+   as part of the :term:`WKS_FILE` variable. If multiple candidate files can
+   be provided by different layers, specify all the possible names through the
+   :term:`WKS_FILES` variable instead.
+
+Getting Help
+============
+
+You can get general help for the ``wic`` command by entering the ``wic``
+command by itself or by entering the command with a help argument as
+follows::
+
+   $ wic -h
+   $ wic --help
+   $ wic help
+
+Currently, Wic supports seven commands: ``cp``, ``create``, ``help``,
+``list``, ``ls``, ``rm``, and ``write``. You can get help for all these
+commands except "help" by using the following form::
+
+   $ wic help command
+
+For example, the following command returns help for the ``write``
+command::
+
+   $ wic help write
+
+Wic supports help for three topics: ``overview``, ``plugins``, and
+``kickstart``. You can get help for any topic using the following form::
+
+   $ wic help topic
+
+For example, the following returns overview help for Wic::
+
+   $ wic help overview
+
+There is one additional level of help for Wic. You can get help on
+individual images through the ``list`` command. You can use the ``list``
+command to return the available Wic images as follows::
+
+   $ wic list images
+     genericx86                    		Create an EFI disk image for genericx86*
+     edgerouter                    		Create SD card image for Edgerouter
+     beaglebone-yocto              		Create SD card image for Beaglebone
+     qemux86-directdisk            		Create a qemu machine 'pcbios' direct disk image
+     systemd-bootdisk              		Create an EFI disk image with systemd-boot
+     mkhybridiso                   		Create a hybrid ISO image
+     mkefidisk                     		Create an EFI disk image
+     sdimage-bootpart              		Create SD card image with a boot partition
+     directdisk-multi-rootfs       		Create multi rootfs image using rootfs plugin
+     directdisk                    		Create a 'pcbios' direct disk image
+     directdisk-bootloader-config  		Create a 'pcbios' direct disk image with custom bootloader config
+     qemuriscv                     		Create qcow2 image for RISC-V QEMU machines
+     directdisk-gpt                		Create a 'pcbios' direct disk image
+     efi-bootdisk
+
+Once you know the list of available
+Wic images, you can use ``help`` with the command to get help on a
+particular image. For example, the following command returns help on the
+"beaglebone-yocto" image::
+
+   $ wic list beaglebone-yocto help
+
+   Creates a partitioned SD card image for Beaglebone.
+   Boot files are located in the first vfat partition.
+
+Operational Modes
+=================
+
+You can use Wic in two different modes, depending on how much control
+you need for specifying the OpenEmbedded build artifacts that are used
+for creating the image: Raw and Cooked:
+
+-  *Raw Mode:* You explicitly specify build artifacts through Wic
+   command-line arguments.
+
+-  *Cooked Mode:* The current
+   :term:`MACHINE` setting and image
+   name are used to automatically locate and provide the build
+   artifacts. You just supply a kickstart file and the name of the image
+   from which to use artifacts.
+
+Regardless of the mode you use, you need to have the build artifacts
+ready and available.
+
+Raw Mode
+--------
+
+Running Wic in raw mode allows you to specify all the partitions through
+the ``wic`` command line. The primary use for raw mode is if you have
+built your kernel outside of the Yocto Project :term:`Build Directory`.
+In other words, you can point to arbitrary kernel, root filesystem locations,
+and so forth. Contrast this behavior with cooked mode where Wic looks in the
+:term:`Build Directory` (e.g. ``tmp/deploy/images/``\ machine).
+
+The general form of the ``wic`` command in raw mode is::
+
+   $ wic create wks_file options ...
+
+     Where:
+
+        wks_file:
+           An OpenEmbedded kickstart file.  You can provide
+           your own custom file or use a file from a set of
+           existing files as described by further options.
+
+        optional arguments:
+          -h, --help            show this help message and exit
+          -o OUTDIR, --outdir OUTDIR
+                                name of directory to create image in
+          -e IMAGE_NAME, --image-name IMAGE_NAME
+                                name of the image to use the artifacts from e.g. core-
+                                image-sato
+          -r ROOTFS_DIR, --rootfs-dir ROOTFS_DIR
+                                path to the /rootfs dir to use as the .wks rootfs
+                                source
+          -b BOOTIMG_DIR, --bootimg-dir BOOTIMG_DIR
+                                path to the dir containing the boot artifacts (e.g.
+                                /EFI or /syslinux dirs) to use as the .wks bootimg
+                                source
+          -k KERNEL_DIR, --kernel-dir KERNEL_DIR
+                                path to the dir containing the kernel to use in the
+                                .wks bootimg
+          -n NATIVE_SYSROOT, --native-sysroot NATIVE_SYSROOT
+                                path to the native sysroot containing the tools to use
+                                to build the image
+          -s, --skip-build-check
+                                skip the build check
+          -f, --build-rootfs    build rootfs
+          -c {gzip,bzip2,xz}, --compress-with {gzip,bzip2,xz}
+                                compress image with specified compressor
+          -m, --bmap            generate .bmap
+          --no-fstab-update     Do not change fstab file.
+          -v VARS_DIR, --vars VARS_DIR
+                                directory with <image>.env files that store bitbake
+                                variables
+          -D, --debug           output debug information
+
+.. note::
+
+   You do not need root privileges to run Wic. In fact, you should not
+   run as root when using the utility.
+
+Cooked Mode
+-----------
+
+Running Wic in cooked mode leverages off artifacts in the
+:term:`Build Directory`. In other words, you do not have to specify kernel or
+root filesystem locations as part of the command. All you need to provide is
+a kickstart file and the name of the image from which to use artifacts
+by using the "-e" option. Wic looks in the :term:`Build Directory` (e.g.
+``tmp/deploy/images/``\ machine) for artifacts.
+
+The general form of the ``wic`` command using Cooked Mode is as follows::
+
+   $ wic create wks_file -e IMAGE_NAME
+
+     Where:
+
+        wks_file:
+           An OpenEmbedded kickstart file.  You can provide
+           your own custom file or use a file from a set of
+           existing files provided with the Yocto Project
+           release.
+
+        required argument:
+           -e IMAGE_NAME, --image-name IMAGE_NAME
+                                name of the image to use the artifacts from e.g. core-
+                                image-sato
+
+Using an Existing Kickstart File
+================================
+
+If you do not want to create your own kickstart file, you can use an
+existing file provided by the Wic installation. As shipped, kickstart
+files can be found in the :ref:`overview-manual/development-environment:yocto project source repositories` in the
+following two locations::
+
+   poky/meta-yocto-bsp/wic
+   poky/scripts/lib/wic/canned-wks
+
+Use the following command to list the available kickstart files::
+
+   $ wic list images
+     genericx86                    		Create an EFI disk image for genericx86*
+     beaglebone-yocto              		Create SD card image for Beaglebone
+     edgerouter                    		Create SD card image for Edgerouter
+     qemux86-directdisk            		Create a QEMU machine 'pcbios' direct disk image
+     directdisk-gpt                		Create a 'pcbios' direct disk image
+     mkefidisk                     		Create an EFI disk image
+     directdisk                    		Create a 'pcbios' direct disk image
+     systemd-bootdisk              		Create an EFI disk image with systemd-boot
+     mkhybridiso                   		Create a hybrid ISO image
+     sdimage-bootpart              		Create SD card image with a boot partition
+     directdisk-multi-rootfs       		Create multi rootfs image using rootfs plugin
+     directdisk-bootloader-config  		Create a 'pcbios' direct disk image with custom bootloader config
+
+When you use an existing file, you
+do not have to use the ``.wks`` extension. Here is an example in Raw
+Mode that uses the ``directdisk`` file::
+
+   $ wic create directdisk -r rootfs_dir -b bootimg_dir \
+         -k kernel_dir -n native_sysroot
+
+Here are the actual partition language commands used in the
+``genericx86.wks`` file to generate an image::
+
+   # short-description: Create an EFI disk image for genericx86*
+   # long-description: Creates a partitioned EFI disk image for genericx86* machines
+   part /boot --source bootimg-efi --sourceparams="loader=grub-efi" --ondisk sda --label msdos --active --align 1024
+   part / --source rootfs --ondisk sda --fstype=ext4 --label platform --align 1024 --use-uuid
+   part swap --ondisk sda --size 44 --label swap1 --fstype=swap
+
+   bootloader --ptable gpt --timeout=5 --append="rootfstype=ext4 console=ttyS0,115200 console=tty0"
+
+Using the Wic Plugin Interface
+==============================
+
+You can extend and specialize Wic functionality by using Wic plugins.
+This section explains the Wic plugin interface.
+
+.. note::
+
+   Wic plugins consist of "source" and "imager" plugins. Imager plugins
+   are beyond the scope of this section.
+
+Source plugins provide a mechanism to customize partition content during
+the Wic image generation process. You can use source plugins to map
+values that you specify using ``--source`` commands in kickstart files
+(i.e. ``*.wks``) to a plugin implementation used to populate a given
+partition.
+
+.. note::
+
+   If you use plugins that have build-time dependencies (e.g. native
+   tools, bootloaders, and so forth) when building a Wic image, you need
+   to specify those dependencies using the :term:`WKS_FILE_DEPENDS`
+   variable.
+
+Source plugins are subclasses defined in plugin files. As shipped, the
+Yocto Project provides several plugin files. You can see the source
+plugin files that ship with the Yocto Project
+:yocto_git:`here </poky/tree/scripts/lib/wic/plugins/source>`.
+Each of these plugin files contains source plugins that are designed to
+populate a specific Wic image partition.
+
+Source plugins are subclasses of the ``SourcePlugin`` class, which is
+defined in the ``poky/scripts/lib/wic/pluginbase.py`` file. For example,
+the ``BootimgEFIPlugin`` source plugin found in the ``bootimg-efi.py``
+file is a subclass of the ``SourcePlugin`` class, which is found in the
+``pluginbase.py`` file.
+
+You can also implement source plugins in a layer outside of the Source
+Repositories (external layer). To do so, be sure that your plugin files
+are located in a directory whose path is
+``scripts/lib/wic/plugins/source/`` within your external layer. When the
+plugin files are located there, the source plugins they contain are made
+available to Wic.
+
+When the Wic implementation needs to invoke a partition-specific
+implementation, it looks for the plugin with the same name as the
+``--source`` parameter used in the kickstart file given to that
+partition. For example, if the partition is set up using the following
+command in a kickstart file::
+
+   part /boot --source bootimg-pcbios --ondisk sda --label boot --active --align 1024
+
+The methods defined as class
+members of the matching source plugin (i.e. ``bootimg-pcbios``) in the
+``bootimg-pcbios.py`` plugin file are used.
+
+To be more concrete, here is the corresponding plugin definition from
+the ``bootimg-pcbios.py`` file for the previous command along with an
+example method called by the Wic implementation when it needs to prepare
+a partition using an implementation-specific function::
+
+                .
+                .
+                .
+   class BootimgPcbiosPlugin(SourcePlugin):
+       """
+       Create MBR boot partition and install syslinux on it.
+       """
+
+      name = 'bootimg-pcbios'
+                .
+                .
+                .
+       @classmethod
+       def do_prepare_partition(cls, part, source_params, creator, cr_workdir,
+                                oe_builddir, bootimg_dir, kernel_dir,
+                                rootfs_dir, native_sysroot):
+           """
+           Called to do the actual content population for a partition i.e. it
+           'prepares' the partition to be incorporated into the image.
+           In this case, prepare content for legacy bios boot partition.
+           """
+                .
+                .
+                .
+
+If a
+subclass (plugin) itself does not implement a particular function, Wic
+locates and uses the default version in the superclass. It is for this
+reason that all source plugins are derived from the ``SourcePlugin``
+class.
+
+The ``SourcePlugin`` class defined in the ``pluginbase.py`` file defines
+a set of methods that source plugins can implement or override. Any
+plugins (subclass of ``SourcePlugin``) that do not implement a
+particular method inherit the implementation of the method from the
+``SourcePlugin`` class. For more information, see the ``SourcePlugin``
+class in the ``pluginbase.py`` file for details:
+
+The following list describes the methods implemented in the
+``SourcePlugin`` class:
+
+-  ``do_prepare_partition()``: Called to populate a partition with
+   actual content. In other words, the method prepares the final
+   partition image that is incorporated into the disk image.
+
+-  ``do_configure_partition()``: Called before
+   ``do_prepare_partition()`` to create custom configuration files for a
+   partition (e.g. syslinux or grub configuration files).
+
+-  ``do_install_disk()``: Called after all partitions have been
+   prepared and assembled into a disk image. This method provides a hook
+   to allow finalization of a disk image (e.g. writing an MBR).
+
+-  ``do_stage_partition()``: Special content-staging hook called
+   before ``do_prepare_partition()``. This method is normally empty.
+
+   Typically, a partition just uses the passed-in parameters (e.g. the
+   unmodified value of ``bootimg_dir``). However, in some cases, things
+   might need to be more tailored. As an example, certain files might
+   additionally need to be taken from ``bootimg_dir + /boot``. This hook
+   allows those files to be staged in a customized fashion.
+
+   .. note::
+
+      ``get_bitbake_var()`` allows you to access non-standard variables that
+      you might want to use for this behavior.
+
+You can extend the source plugin mechanism. To add more hooks, create
+more source plugin methods within ``SourcePlugin`` and the corresponding
+derived subclasses. The code that calls the plugin methods uses the
+``plugin.get_source_plugin_methods()`` function to find the method or
+methods needed by the call. Retrieval of those methods is accomplished
+by filling up a dict with keys that contain the method names of
+interest. On success, these will be filled in with the actual methods.
+See the Wic implementation for examples and details.
+
+Wic Examples
+============
+
+This section provides several examples that show how to use the Wic
+utility. All the examples assume the list of requirements in the
+":ref:`dev-manual/wic:requirements`" section have been met. The
+examples assume the previously generated image is
+``core-image-minimal``.
+
+Generate an Image using an Existing Kickstart File
+--------------------------------------------------
+
+This example runs in Cooked Mode and uses the ``mkefidisk`` kickstart
+file::
+
+   $ wic create mkefidisk -e core-image-minimal
+   INFO: Building wic-tools...
+             .
+             .
+             .
+   INFO: The new image(s) can be found here:
+     ./mkefidisk-201804191017-sda.direct
+
+   The following build artifacts were used to create the image(s):
+     ROOTFS_DIR:                   /home/stephano/yocto/build/tmp-glibc/work/qemux86-oe-linux/core-image-minimal/1.0-r0/rootfs
+     BOOTIMG_DIR:                  /home/stephano/yocto/build/tmp-glibc/work/qemux86-oe-linux/core-image-minimal/1.0-r0/recipe-sysroot/usr/share
+     KERNEL_DIR:                   /home/stephano/yocto/build/tmp-glibc/deploy/images/qemux86
+     NATIVE_SYSROOT:               /home/stephano/yocto/build/tmp-glibc/work/i586-oe-linux/wic-tools/1.0-r0/recipe-sysroot-native
+
+   INFO: The image(s) were created using OE kickstart file:
+     /home/stephano/yocto/openembedded-core/scripts/lib/wic/canned-wks/mkefidisk.wks
+
+The previous example shows the easiest way to create an image by running
+in cooked mode and supplying a kickstart file and the "-e" option to
+point to the existing build artifacts. Your ``local.conf`` file needs to
+have the :term:`MACHINE` variable set
+to the machine you are using, which is "qemux86" in this example.
+
+Once the image builds, the output provides image location, artifact use,
+and kickstart file information.
+
+.. note::
+
+   You should always verify the details provided in the output to make
+   sure that the image was indeed created exactly as expected.
+
+Continuing with the example, you can now write the image from the
+:term:`Build Directory` onto a USB stick, or whatever media for which you
+built your image, and boot from the media. You can write the image by using
+``bmaptool`` or ``dd``::
+
+   $ oe-run-native bmap-tools-native bmaptool copy mkefidisk-201804191017-sda.direct /dev/sdX
+
+or ::
+
+   $ sudo dd if=mkefidisk-201804191017-sda.direct of=/dev/sdX
+
+.. note::
+
+   For more information on how to use the ``bmaptool``
+   to flash a device with an image, see the
+   ":ref:`dev-manual/bmaptool:flashing images using \`\`bmaptool\`\``"
+   section.
+
+Using a Modified Kickstart File
+-------------------------------
+
+Because partitioned image creation is driven by the kickstart file, it
+is easy to affect image creation by changing the parameters in the file.
+This next example demonstrates that through modification of the
+``directdisk-gpt`` kickstart file.
+
+As mentioned earlier, you can use the command ``wic list images`` to
+show the list of existing kickstart files. The directory in which the
+``directdisk-gpt.wks`` file resides is
+``scripts/lib/image/canned-wks/``, which is located in the
+:term:`Source Directory` (e.g. ``poky``).
+Because available files reside in this directory, you can create and add
+your own custom files to the directory. Subsequent use of the
+``wic list images`` command would then include your kickstart files.
+
+In this example, the existing ``directdisk-gpt`` file already does most
+of what is needed. However, for the hardware in this example, the image
+will need to boot from ``sdb`` instead of ``sda``, which is what the
+``directdisk-gpt`` kickstart file uses.
+
+The example begins by making a copy of the ``directdisk-gpt.wks`` file
+in the ``scripts/lib/image/canned-wks`` directory and then by changing
+the lines that specify the target disk from which to boot::
+
+   $ cp /home/stephano/yocto/poky/scripts/lib/wic/canned-wks/directdisk-gpt.wks \
+        /home/stephano/yocto/poky/scripts/lib/wic/canned-wks/directdisksdb-gpt.wks
+
+Next, the example modifies the ``directdisksdb-gpt.wks`` file and
+changes all instances of "``--ondisk sda``" to "``--ondisk sdb``". The
+example changes the following two lines and leaves the remaining lines
+untouched::
+
+   part /boot --source bootimg-pcbios --ondisk sdb --label boot --active --align 1024
+   part / --source rootfs --ondisk sdb --fstype=ext4 --label platform --align 1024 --use-uuid
+
+Once the lines are changed, the
+example generates the ``directdisksdb-gpt`` image. The command points
+the process at the ``core-image-minimal`` artifacts for the Next Unit of
+Computing (nuc) :term:`MACHINE` the
+``local.conf``::
+
+   $ wic create directdisksdb-gpt -e core-image-minimal
+   INFO: Building wic-tools...
+              .
+              .
+              .
+   Initialising tasks: 100% |#######################################| Time: 0:00:01
+   NOTE: Executing SetScene Tasks
+   NOTE: Executing RunQueue Tasks
+   NOTE: Tasks Summary: Attempted 1161 tasks of which 1157 didn't need to be rerun and all succeeded.
+   INFO: Creating image(s)...
+
+   INFO: The new image(s) can be found here:
+     ./directdisksdb-gpt-201710090938-sdb.direct
+
+   The following build artifacts were used to create the image(s):
+     ROOTFS_DIR:                   /home/stephano/yocto/build/tmp-glibc/work/qemux86-oe-linux/core-image-minimal/1.0-r0/rootfs
+     BOOTIMG_DIR:                  /home/stephano/yocto/build/tmp-glibc/work/qemux86-oe-linux/core-image-minimal/1.0-r0/recipe-sysroot/usr/share
+     KERNEL_DIR:                   /home/stephano/yocto/build/tmp-glibc/deploy/images/qemux86
+     NATIVE_SYSROOT:               /home/stephano/yocto/build/tmp-glibc/work/i586-oe-linux/wic-tools/1.0-r0/recipe-sysroot-native
+
+   INFO: The image(s) were created using OE kickstart file:
+     /home/stephano/yocto/poky/scripts/lib/wic/canned-wks/directdisksdb-gpt.wks
+
+Continuing with the example, you can now directly ``dd`` the image to a
+USB stick, or whatever media for which you built your image, and boot
+the resulting media::
+
+   $ sudo dd if=directdisksdb-gpt-201710090938-sdb.direct of=/dev/sdb
+   140966+0 records in
+   140966+0 records out
+   72174592 bytes (72 MB, 69 MiB) copied, 78.0282 s, 925 kB/s
+   $ sudo eject /dev/sdb
+
+Using a Modified Kickstart File and Running in Raw Mode
+-------------------------------------------------------
+
+This next example manually specifies each build artifact (runs in Raw
+Mode) and uses a modified kickstart file. The example also uses the
+``-o`` option to cause Wic to create the output somewhere other than the
+default output directory, which is the current directory::
+
+   $ wic create test.wks -o /home/stephano/testwic \
+        --rootfs-dir /home/stephano/yocto/build/tmp/work/qemux86-poky-linux/core-image-minimal/1.0-r0/rootfs \
+        --bootimg-dir /home/stephano/yocto/build/tmp/work/qemux86-poky-linux/core-image-minimal/1.0-r0/recipe-sysroot/usr/share \
+        --kernel-dir /home/stephano/yocto/build/tmp/deploy/images/qemux86 \
+        --native-sysroot /home/stephano/yocto/build/tmp/work/i586-poky-linux/wic-tools/1.0-r0/recipe-sysroot-native
+
+   INFO: Creating image(s)...
+
+   INFO: The new image(s) can be found here:
+     /home/stephano/testwic/test-201710091445-sdb.direct
+
+   The following build artifacts were used to create the image(s):
+     ROOTFS_DIR:                   /home/stephano/yocto/build/tmp-glibc/work/qemux86-oe-linux/core-image-minimal/1.0-r0/rootfs
+     BOOTIMG_DIR:                  /home/stephano/yocto/build/tmp-glibc/work/qemux86-oe-linux/core-image-minimal/1.0-r0/recipe-sysroot/usr/share
+     KERNEL_DIR:                   /home/stephano/yocto/build/tmp-glibc/deploy/images/qemux86
+     NATIVE_SYSROOT:               /home/stephano/yocto/build/tmp-glibc/work/i586-oe-linux/wic-tools/1.0-r0/recipe-sysroot-native
+
+   INFO: The image(s) were created using OE kickstart file:
+     test.wks
+
+For this example,
+:term:`MACHINE` did not have to be
+specified in the ``local.conf`` file since the artifact is manually
+specified.
+
+Using Wic to Manipulate an Image
+--------------------------------
+
+Wic image manipulation allows you to shorten turnaround time during
+image development. For example, you can use Wic to delete the kernel
+partition of a Wic image and then insert a newly built kernel. This
+saves you time from having to rebuild the entire image each time you
+modify the kernel.
+
+.. note::
+
+   In order to use Wic to manipulate a Wic image as in this example,
+   your development machine must have the ``mtools`` package installed.
+
+The following example examines the contents of the Wic image, deletes
+the existing kernel, and then inserts a new kernel:
+
+#. *List the Partitions:* Use the ``wic ls`` command to list all the
+   partitions in the Wic image::
+
+      $ wic ls tmp/deploy/images/qemux86/core-image-minimal-qemux86.wic
+      Num     Start        End          Size      Fstype
+       1       1048576     25041919     23993344  fat16
+       2      25165824     72157183     46991360  ext4
+
+   The previous output shows two partitions in the
+   ``core-image-minimal-qemux86.wic`` image.
+
+#. *Examine a Particular Partition:* Use the ``wic ls`` command again
+   but in a different form to examine a particular partition.
+
+   .. note::
+
+      You can get command usage on any Wic command using the following
+      form::
+
+              $ wic help command
+
+
+      For example, the following command shows you the various ways to
+      use the
+      wic ls
+      command::
+
+              $ wic help ls
+
+
+   The following command shows what is in partition one::
+
+        $ wic ls tmp/deploy/images/qemux86/core-image-minimal-qemux86.wic:1
+        Volume in drive : is boot
+         Volume Serial Number is E894-1809
+        Directory for ::/
+
+        libcom32 c32    186500 2017-10-09  16:06
+        libutil  c32     24148 2017-10-09  16:06
+        syslinux cfg       220 2017-10-09  16:06
+        vesamenu c32     27104 2017-10-09  16:06
+        vmlinuz        6904608 2017-10-09  16:06
+                5 files           7 142 580 bytes
+                                 16 582 656 bytes free
+
+   The previous output shows five files, with the
+   ``vmlinuz`` being the kernel.
+
+   .. note::
+
+      If you see the following error, you need to update or create a
+      ``~/.mtoolsrc`` file and be sure to have the line "mtools_skip_check=1"
+      in the file. Then, run the Wic command again::
+
+              ERROR: _exec_cmd: /usr/bin/mdir -i /tmp/wic-parttfokuwra ::/ returned '1' instead of 0
+               output: Total number of sectors (47824) not a multiple of sectors per track (32)!
+               Add mtools_skip_check=1 to your .mtoolsrc file to skip this test
+
+
+#. *Remove the Old Kernel:* Use the ``wic rm`` command to remove the
+   ``vmlinuz`` file (kernel)::
+
+      $ wic rm tmp/deploy/images/qemux86/core-image-minimal-qemux86.wic:1/vmlinuz
+
+#. *Add In the New Kernel:* Use the ``wic cp`` command to add the
+   updated kernel to the Wic image. Depending on how you built your
+   kernel, it could be in different places. If you used ``devtool`` and
+   an SDK to build your kernel, it resides in the ``tmp/work`` directory
+   of the extensible SDK. If you used ``make`` to build the kernel, the
+   kernel will be in the ``workspace/sources`` area.
+
+   The following example assumes ``devtool`` was used to build the
+   kernel::
+
+      $ wic cp poky_sdk/tmp/work/qemux86-poky-linux/linux-yocto/4.12.12+git999-r0/linux-yocto-4.12.12+git999/arch/x86/boot/bzImage \
+               poky/build/tmp/deploy/images/qemux86/core-image-minimal-qemux86.wic:1/vmlinuz
+
+   Once the new kernel is added back into the image, you can use the
+   ``dd`` command or :ref:`bmaptool
+   <dev-manual/bmaptool:flashing images using \`\`bmaptool\`\`>`
+   to flash your wic image onto an SD card or USB stick and test your
+   target.
+
+   .. note::
+
+      Using ``bmaptool`` is generally 10 to 20 times faster than using ``dd``.
+
--- a/documentation/dev-manual/x32-psabi.rst
+++ b/documentation/dev-manual/x32-psabi.rst
@@ -0,0 +1,54 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Using x32 psABI
+***************
+
+x32 processor-specific Application Binary Interface (`x32
+psABI <https://software.intel.com/en-us/node/628948>`__) is a native
+32-bit processor-specific ABI for Intel 64 (x86-64) architectures. An
+ABI defines the calling conventions between functions in a processing
+environment. The interface determines what registers are used and what
+the sizes are for various C data types.
+
+Some processing environments prefer using 32-bit applications even when
+running on Intel 64-bit platforms. Consider the i386 psABI, which is a
+very old 32-bit ABI for Intel 64-bit platforms. The i386 psABI does not
+provide efficient use and access of the Intel 64-bit processor
+resources, leaving the system underutilized. Now consider the x86_64
+psABI. This ABI is newer and uses 64-bits for data sizes and program
+pointers. The extra bits increase the footprint size of the programs,
+libraries, and also increases the memory and file system size
+requirements. Executing under the x32 psABI enables user programs to
+utilize CPU and system resources more efficiently while keeping the
+memory footprint of the applications low. Extra bits are used for
+registers but not for addressing mechanisms.
+
+The Yocto Project supports the final specifications of x32 psABI as
+follows:
+
+-  You can create packages and images in x32 psABI format on x86_64
+   architecture targets.
+
+-  You can successfully build recipes with the x32 toolchain.
+
+-  You can create and boot ``core-image-minimal`` and
+   ``core-image-sato`` images.
+
+-  There is RPM Package Manager (RPM) support for x32 binaries.
+
+-  There is support for large images.
+
+To use the x32 psABI, you need to edit your ``conf/local.conf``
+configuration file as follows::
+
+   MACHINE = "qemux86-64"
+   DEFAULTTUNE = "x86-64-x32"
+   baselib = "${@d.getVar('BASE_LIB:tune-' + (d.getVar('DEFAULTTUNE') \
+       or 'INVALID')) or 'lib'}"
+
+Once you have set
+up your configuration file, use BitBake to build an image that supports
+the x32 psABI. Here is an example::
+
+   $ bitbake core-image-sato
+
--- a/documentation/index.rst
+++ b/documentation/index.rst
@@ -26,6 +26,7 @@ Welcome to the Yocto Project Documentation
   :caption: Manuals

   Overview and Concepts Manual <overview-manual/index>
+   Contributor Guide <contributor-guide/index>
   Reference Manual <ref-manual/index>
   Board Support Package (BSP) Developer's guide <bsp-guide/index>
   Development Tasks Manual <dev-manual/index>
--- a/documentation/kernel-dev/common.rst
+++ b/documentation/kernel-dev/common.rst
@@ -101,13 +101,13 @@ section:

      For background information on working with common and BSP layers,
      see the
-      ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+      ":ref:`dev-manual/layers:understanding and creating layers`"
      section in the Yocto Project Development Tasks Manual and the
      ":ref:`bsp-guide/bsp:bsp layers`" section in the Yocto Project Board
      Support (BSP) Developer's Guide, respectively. For information on how to
      use the ``bitbake-layers create-layer`` command to quickly set up a layer,
      see the
-      ":ref:`dev-manual/common-tasks:creating a general layer using the \`\`bitbake-layers\`\` script`"
+      ":ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`"
      section in the Yocto Project Development Tasks Manual.

 4. *Inform the BitBake Build Environment About Your Layer:* As directed
@@ -278,13 +278,13 @@ section:

      For background information on working with common and BSP layers,
      see the
-      ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+      ":ref:`dev-manual/layers:understanding and creating layers`"
      section in the Yocto Project Development Tasks Manual and the
      ":ref:`bsp-guide/bsp:bsp layers`" section in the Yocto Project Board
      Support (BSP) Developer's Guide, respectively. For information on how to
      use the ``bitbake-layers create-layer`` command to quickly set up a layer,
      see the
-      ":ref:`dev-manual/common-tasks:creating a general layer using the \`\`bitbake-layers\`\` script`"
+      ":ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`"
      section in the Yocto Project Development Tasks Manual.

 4. *Inform the BitBake Build Environment About Your Layer:* As directed
@@ -364,7 +364,7 @@ layer contains its own :term:`BitBake`
 append files (``.bbappend``) and provides a convenient mechanism to
 create your own recipe files (``.bb``) as well as store and use kernel
 patch files. For background information on working with layers, see the
-":ref:`dev-manual/common-tasks:understanding and creating layers`"
+":ref:`dev-manual/layers:understanding and creating layers`"
 section in the Yocto Project Development Tasks Manual.

 .. note::
@@ -372,7 +372,7 @@ section in the Yocto Project Development Tasks Manual.
   The Yocto Project comes with many tools that simplify tasks you need
   to perform. One such tool is the ``bitbake-layers create-layer``
   command, which simplifies creating a new layer. See the
-   ":ref:`dev-manual/common-tasks:creating a general layer using the \`\`bitbake-layers\`\` script`"
+   ":ref:`dev-manual/layers:creating a general layer using the \`\`bitbake-layers\`\` script`"
   section in the Yocto Project Development Tasks Manual for
   information on how to use this script to quick set up a new layer.

@@ -425,7 +425,7 @@ home directory:
   The :term:`FILESEXTRAPATHS` and :term:`SRC_URI` statements
   enable the OpenEmbedded build system to find patch files. For more
   information on using append files, see the
-   ":ref:`dev-manual/common-tasks:appending other layers metadata with your layer`"
+   ":ref:`dev-manual/layers:appending other layers metadata with your layer`"
   section in the Yocto Project Development Tasks Manual.

 Modifying an Existing Recipe
@@ -1070,7 +1070,7 @@ Section.
   For more information on append files and patches, see the
   ":ref:`kernel-dev/common:creating the append file`" and
   ":ref:`kernel-dev/common:applying patches`" sections. You can also see the
-   ":ref:`dev-manual/common-tasks:appending other layers metadata with your layer`"
+   ":ref:`dev-manual/layers:appending other layers metadata with your layer`"
   section in the Yocto Project Development Tasks Manual.

   .. note::
--- a/documentation/kernel-dev/faq.rst
+++ b/documentation/kernel-dev/faq.rst
@@ -38,7 +38,7 @@ The kernel image (e.g. ``vmlinuz``) is provided by the
 specify whether or not the kernel image is installed in the generated
 root filesystem, override ``RRECOMMENDS:${KERNEL_PACKAGE_NAME}-base`` to include or not
 include "kernel-image". See the
-":ref:`dev-manual/common-tasks:appending other layers metadata with your layer`"
+":ref:`dev-manual/layers:appending other layers metadata with your layer`"
 section in the
 Yocto Project Development Tasks Manual for information on how to use an
 append file to override metadata.
--- a/documentation/kernel-dev/intro.rst
+++ b/documentation/kernel-dev/intro.rst
@@ -87,7 +87,7 @@ understand the following documentation:
   as described in the Yocto Project Application Development and the
   Extensible Software Development Kit (eSDK) manual.

-  The ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+-  The ":ref:`dev-manual/layers:understanding and creating layers`"
   section in the Yocto Project Development Tasks Manual.

 -  The ":ref:`kernel-dev/intro:kernel modification workflow`" section.
--- a/documentation/migration-guides/migration-1.4.rst
+++ b/documentation/migration-guides/migration-1.4.rst
@@ -83,7 +83,7 @@ create an append file for the ``init-ifupdown`` recipe instead, which
 you can find in the :term:`Source Directory` at
 ``meta/recipes-core/init-ifupdown``. For information on how to use
 append files, see the
-":ref:`dev-manual/common-tasks:appending other layers metadata with your layer`"
+":ref:`dev-manual/layers:appending other layers metadata with your layer`"
 section in the Yocto Project Development Tasks Manual.

 .. _migration-1.4-remote-debugging:
--- a/documentation/migration-guides/migration-1.5.rst
+++ b/documentation/migration-guides/migration-1.5.rst
@@ -244,7 +244,7 @@ A new automated image testing framework has been added through the
 framework replaces the older ``imagetest-qemu`` framework.

 You can learn more about performing automated image tests in the
-":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
 section in the Yocto Project Development Tasks Manual.

 .. _migration-1.5-build-history:
@@ -267,7 +267,7 @@ Following are changes to Build History:
   option for each utility for more information on the new syntax.

 For more information on Build History, see the
-":ref:`dev-manual/common-tasks:maintaining build output quality`"
+":ref:`dev-manual/build-quality:maintaining build output quality`"
 section in the Yocto Project Development Tasks Manual.

 .. _migration-1.5-udev:
--- a/documentation/migration-guides/migration-1.6.rst
+++ b/documentation/migration-guides/migration-1.6.rst
@@ -12,7 +12,7 @@ Project 1.6 Release (codename "daisy") from the prior release.
 The :ref:`archiver <ref-classes-archiver>` class has been rewritten
 and its configuration has been simplified. For more details on the
 source archiver, see the
-":ref:`dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle`"
+":ref:`dev-manual/licenses:maintaining open source license compliance during your product's lifecycle`"
 section in the Yocto Project Development Tasks Manual.

 .. _migration-1.6-packaging-changes:
@@ -147,7 +147,7 @@ NFS mount, an error occurs.
 The ``PRINC`` variable has been deprecated and triggers a warning if
 detected during a build. For :term:`PR` increments on changes,
 use the PR service instead. You can find out more about this service in
-the ":ref:`dev-manual/common-tasks:working with a pr service`"
+the ":ref:`dev-manual/packages:working with a pr service`"
 section in the Yocto Project Development Tasks Manual.

 .. _migration-1.6-variable-changes-IMAGE_TYPES:
@@ -220,7 +220,7 @@ Package Test (ptest)

 Package Tests (ptest) are built but not installed by default. For
 information on using Package Tests, see the
-":ref:`dev-manual/common-tasks:testing packages with ptest`"
+":ref:`dev-manual/packages:testing packages with ptest`"
 section in the Yocto Project Development Tasks Manual. For information on the
 ``ptest`` class, see the ":ref:`ref-classes-ptest`" section.

--- a/documentation/migration-guides/migration-1.7.rst
+++ b/documentation/migration-guides/migration-1.7.rst
@@ -217,7 +217,7 @@ The following miscellaneous change occurred:
   should manually remove old "build-id" files from your existing build
   history repositories to avoid confusion. For information on the build
   history feature, see the
-   ":ref:`dev-manual/common-tasks:maintaining build output quality`"
+   ":ref:`dev-manual/build-quality:maintaining build output quality`"
   section in the Yocto Project Development Tasks Manual.


--- a/documentation/migration-guides/migration-2.1.rst
+++ b/documentation/migration-guides/migration-2.1.rst
@@ -343,7 +343,7 @@ This release supports generation of GLib Introspective Repository (GIR)
 files through GObject introspection, which is the standard mechanism for
 accessing GObject-based software from runtime environments. You can
 enable, disable, and test the generation of this data. See the
-":ref:`dev-manual/common-tasks:enabling gobject introspection support`"
+":ref:`dev-manual/gobject-introspection:enabling gobject introspection support`"
 section in the Yocto Project Development Tasks Manual for more
 information.

--- a/documentation/migration-guides/migration-2.3.rst
+++ b/documentation/migration-guides/migration-2.3.rst
@@ -363,7 +363,7 @@ The following changes have been made to Wic:
 .. note::

   For more information on Wic, see the
-   ":ref:`dev-manual/common-tasks:creating partitioned images using wic`"
+   ":ref:`dev-manual/wic:creating partitioned images using wic`"
   section in the Yocto Project Development Tasks Manual.

 -  *Default Output Directory Changed:* Wic's default output directory is
--- a/documentation/migration-guides/migration-2.5.rst
+++ b/documentation/migration-guides/migration-2.5.rst
@@ -264,7 +264,7 @@ The following are additional changes:
   will trigger a warning during ``do_rootfs``.

   For more information, see the
-   ":ref:`dev-manual/common-tasks:post-installation scripts`"
+   ":ref:`dev-manual/new-recipe:post-installation scripts`"
   section in the Yocto Project Development Tasks Manual.

 -  The ``elf`` image type has been removed. This image type was removed
--- a/documentation/migration-guides/migration-2.6.rst
+++ b/documentation/migration-guides/migration-2.6.rst
@@ -368,7 +368,7 @@ Any failure of a ``pkg_postinst()`` script (including exit 1) triggers
 an error during the :ref:`ref-tasks-rootfs` task.

 For more information on post-installation behavior, see the
-":ref:`dev-manual/common-tasks:post-installation scripts`"
+":ref:`dev-manual/new-recipe:post-installation scripts`"
 section in the Yocto Project Development Tasks Manual.

 .. _migration-2.6-python-3-profile-guided-optimizations:
--- a/documentation/migration-guides/migration-3.1.rst
+++ b/documentation/migration-guides/migration-3.1.rst
@@ -238,7 +238,7 @@ Warnings will now be shown at ``do_package_qa`` time in the following
 circumstances:

 -  A recipe installs ``.desktop`` files containing ``MimeType`` keys but
-   does not inherit the new ``mime-xdg`` class
+   does not inherit the new :ref:`mime-xdg <ref-classes-mime-xdg>` class

 -  A recipe installs ``.xml`` files into ``${datadir}/mime/packages``
   but does not inherit the :ref:`mime <ref-classes-mime>` class
--- a/documentation/migration-guides/release-4.0.rst
+++ b/documentation/migration-guides/release-4.0.rst
@@ -17,3 +17,5 @@ Release 4.0 (kirkstone)
   release-notes-4.0.8
   release-notes-4.0.9
   release-notes-4.0.10
+   release-notes-4.0.11
+   release-notes-4.0.12
--- a/documentation/migration-guides/release-notes-4.0.11.rst
+++ b/documentation/migration-guides/release-notes-4.0.11.rst
@@ -0,0 +1,214 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Release notes for Yocto-4.0.11 (Kirkstone)
+------------------------------------------
+
+Security Fixes in Yocto-4.0.11
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+-  cups: Fix :cve:`2023-32324`
+-  curl: Fix :cve:`2023-28319`, :cve:`2023-28320`, :cve:`2023-28321` and :cve:`2023-28322`
+-  git: Ignore :cve:`2023-25815`
+-  go: Fix :cve:`2023-24539` and :cve:`2023-24540`
+-  nasm: Fix :cve:`2022-46457`
+-  openssh: Fix :cve:`2023-28531`
+-  openssl: Fix :cve:`2023-1255` and :cve:`2023-2650`
+-  perl: Fix :cve:`2023-31484`
+-  python3-requests: Fix for :cve:`2023-32681`
+-  sysstat: Fix :cve:`2023-33204`
+-  vim: Fix :cve:`2023-2426`
+-  webkitgtk: fix :cve:`2022-42867`, :cve:`2022-46691`, :cve:`2022-46699` and :cve:`2022-46700`
+
+
+Fixes in Yocto-4.0.11
+~~~~~~~~~~~~~~~~~~~~~
+
+-  Revert "docs: conf.py: fix cve extlinks caption for sphinx <4.0"
+-  Revert "ipk: Decode byte data to string in manifest handling"
+-  avahi: fix D-Bus introspection
+-  build-appliance-image: Update to kirkstone head revision
+-  conf.py: add macro for Mitre CVE links
+-  conf: add nice level to the hash config ignred variables
+-  cpio: Fix wrong CRC with ASCII CRC for large files
+-  cve-update-nvd2-native: added the missing http import
+-  cve-update-nvd2-native: new CVE database fetcher
+-  dhcpcd: use git instead of tarballs
+-  e2fsprogs: fix ptest bug for second running
+-  gcc-runtime: Use static dummy libstdc++
+-  glibc: stable 2.35 branch updates (cbceb903c4d7)
+-  go.bbclass: don't use test to check output from ls
+-  gstreamer1.0: Upgrade to 1.20.6
+-  iso-codes: Upgrade to 4.15.0
+-  kernel-devicetree: allow specification of dtb directory
+-  kernel-devicetree: make shell scripts posix compliant
+-  kernel-devicetree: recursively search for dtbs
+-  kernel: don't force PAHOLE=false
+-  kmscube: Correct :term:`DEPENDS` to avoid overwrite
+-  lib/terminal.py: Add urxvt terminal
+-  license.bbclass: Include :term:`LICENSE` in the output when it fails to parse
+-  linux-yocto/5.10: Upgrade to v5.10.180
+-  linux-yocto/5.15: Upgrade to v5.15.113
+-  llvm: backport a fix for build with gcc-13
+-  maintainers.inc: Fix email address typo
+-  maintainers.inc: Move repo to unassigned
+-  migration-guides: add release notes for 4.0.10
+-  migration-guides: use new cve_mitre macro
+-  nghttp2: Deleted the entries for -client and -server, and removed a dependency on them from the main package.
+-  oeqa/selftest/cases/devtool.py: skip all tests require folder a git repo
+-  openssh: Remove BSD-4-clause contents completely from codebase
+-  openssl: Upgrade to 3.0.9
+-  overview-manual: concepts.rst: Fix a typo
+-  p11-kit: add native to :term:`BBCLASSEXTEND`
+-  package: enable recursion on file globs
+-  package_manager/ipk: fix config path generation in _create_custom_config()
+-  piglit: Add :term:`PACKAGECONFIG` for glx and opencl
+-  piglit: Add missing glslang dependencies
+-  piglit: Fix build time dependency
+-  poky.conf: bump version for 4.0.11
+-  profile-manual: fix blktrace remote usage instructions
+-  quilt: Fix merge.test race condition
+-  ref-manual: add clarification for :term:`SRCREV`
+-  selftest/reproducible: Allow native/cross reuse in test
+-  staging.bbclass: do not add extend_recipe_sysroot to prefuncs of prepare_recipe_sysroot
+-  systemd-networkd: backport fix for rm unmanaged wifi
+-  systemd-systemctl: fix instance template WantedBy symlink construction
+-  systemd-systemctl: support instance expansion in WantedBy
+-  uninative: Upgrade to 3.10 to support gcc 13
+-  uninative: Upgrade to 4.0 to include latest gcc 13.1.1
+-  vim: Upgrade to 9.0.1527
+-  waffle: Upgrade to 1.7.2
+-  weston: add xwayland to :term:`DEPENDS` for :term:`PACKAGECONFIG` xwayland
+
+
+Known Issues in Yocto-4.0.11
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+- N/A
+
+
+Contributors to Yocto-4.0.11
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+-  Alexander Kanavin
+-  Andrew Jeffery
+-  Archana Polampalli
+-  Bhabu Bindu
+-  Bruce Ashfield
+-  C. Andy Martin
+-  Chen Qi
+-  Daniel Ammann
+-  Deepthi Hemraj
+-  Ed Beroset
+-  Eero Aaltonen
+-  Enrico Jörns
+-  Hannu Lounento
+-  Hitendra Prajapati
+-  Ian Ray
+-  Jan Luebbe
+-  Jan Vermaete
+-  Khem Raj
+-  Lee Chee Yang
+-  Lei Maohui
+-  Lorenzo Arena
+-  Marek Vasut
+-  Marta Rybczynska
+-  Martin Jansa
+-  Martin Siegumfeldt
+-  Michael Halstead
+-  Michael Opdenacker
+-  Ming Liu
+-  Narpat Mali
+-  Omkar Patil
+-  Pablo Saavedra
+-  Pavel Zhukov
+-  Peter Kjellerstedt
+-  Peter Marko
+-  Qiu Tingting
+-  Quentin Schulz
+-  Randolph Sapp
+-  Randy MacLeod
+-  Ranjitsinh Rathod
+-  Richard Purdie
+-  Riyaz Khan
+-  Sakib Sajal
+-  Sanjay Chitroda
+-  Soumya Sambu
+-  Steve Sakoman
+-  Thomas Roos
+-  Tom Hochstein
+-  Vivek Kumbhar
+-  Wang Mingyu
+-  Yogita Urade
+-  Zoltan Boszormenyi
+
+
+Repositories / Downloads for Yocto-4.0.11
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+poky
+
+-  Repository Location: :yocto_git:`/poky`
+-  Branch: :yocto_git:`kirkstone </poky/log/?h=kirkstone>`
+-  Tag:  :yocto_git:`yocto-4.0.11 </poky/log/?h=yocto-4.0.11>`
+-  Git Revision: :yocto_git:`fc697fe87412b9b179ae3a68d266ace85bb1fcc6 </poky/commit/?id=fc697fe87412b9b179ae3a68d266ace85bb1fcc6>`
+-  Release Artefact: poky-fc697fe87412b9b179ae3a68d266ace85bb1fcc6
+-  sha: d42ab1b76b9d8ab164d86dc0882c908658f6b5be0742b13a71531068f6a5ee98
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.11/poky-fc697fe87412b9b179ae3a68d266ace85bb1fcc6.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.11/poky-fc697fe87412b9b179ae3a68d266ace85bb1fcc6.tar.bz2
+
+openembedded-core
+
+-  Repository Location: :oe_git:`/openembedded-core`
+-  Branch: :oe_git:`kirkstone </openembedded-core/log/?h=kirkstone>`
+-  Tag:  :oe_git:`yocto-4.0.11 </openembedded-core/log/?h=yocto-4.0.11>`
+-  Git Revision: :oe_git:`7949e786cf8e50f716ff1f1c4797136637205e0c </openembedded-core/commit/?id=7949e786cf8e50f716ff1f1c4797136637205e0c>`
+-  Release Artefact: oecore-7949e786cf8e50f716ff1f1c4797136637205e0c
+-  sha: 3bda3f7d15961bad5490faf3194709528591a97564b5eae3da7345b63be20334
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.11/oecore-7949e786cf8e50f716ff1f1c4797136637205e0c.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.11/oecore-7949e786cf8e50f716ff1f1c4797136637205e0c.tar.bz2
+
+meta-mingw
+
+-  Repository Location: :yocto_git:`/meta-mingw`
+-  Branch: :yocto_git:`kirkstone </meta-mingw/log/?h=kirkstone>`
+-  Tag:  :yocto_git:`yocto-4.0.11 </meta-mingw/log/?h=yocto-4.0.11>`
+-  Git Revision: :yocto_git:`a90614a6498c3345704e9611f2842eb933dc51c1 </meta-mingw/commit/?id=a90614a6498c3345704e9611f2842eb933dc51c1>`
+-  Release Artefact: meta-mingw-a90614a6498c3345704e9611f2842eb933dc51c1
+-  sha: 49f9900bfbbc1c68136f8115b314e95d0b7f6be75edf36a75d9bcd1cca7c6302
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.11/meta-mingw-a90614a6498c3345704e9611f2842eb933dc51c1.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.11/meta-mingw-a90614a6498c3345704e9611f2842eb933dc51c1.tar.bz2
+
+meta-gplv2
+
+-  Repository Location: :yocto_git:`/meta-gplv2`
+-  Branch: :yocto_git:`kirkstone </meta-gplv2/log/?h=kirkstone>`
+-  Tag:  :yocto_git:`yocto-4.0.11 </meta-gplv2/log/?h=yocto-4.0.11>`
+-  Git Revision: :yocto_git:`d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a </meta-gplv2/commit/?id=d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a>`
+-  Release Artefact: meta-gplv2-d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a
+-  sha: c386f59f8a672747dc3d0be1d4234b6039273d0e57933eb87caa20f56b9cca6d
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.11/meta-gplv2-d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.11/meta-gplv2-d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a.tar.bz2
+
+bitbake
+
+-  Repository Location: :oe_git:`/bitbake`
+-  Branch: :oe_git:`2.0 </bitbake/log/?h=2.0>`
+-  Tag:  :oe_git:`yocto-4.0.11 </bitbake/log/?h=yocto-4.0.11>`
+-  Git Revision: :oe_git:`0c6f86b60cfba67c20733516957c0a654eb2b44c </bitbake/commit/?id=0c6f86b60cfba67c20733516957c0a654eb2b44c>`
+-  Release Artefact: bitbake-0c6f86b60cfba67c20733516957c0a654eb2b44c
+-  sha: 4caa94ee4d644017b0cc51b702e330191677f7d179018cbcec8b1793949ebc74
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.11/bitbake-0c6f86b60cfba67c20733516957c0a654eb2b44c.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.11/bitbake-0c6f86b60cfba67c20733516957c0a654eb2b44c.tar.bz2
+
+yocto-docs
+
+-  Repository Location: :yocto_git:`/yocto-docs`
+-  Branch: :yocto_git:`kirkstone </yocto-docs/log/?h=kirkstone>`
+-  Tag: :yocto_git:`yocto-4.0.11 </yocto-docs/log/?h=yocto-4.0.11>`
+-  Git Revision: :yocto_git:`6d16d2bde0aa32276a035ee49703e6eea7c7b29a </yocto-docs/commit/?id=6d16d2bde0aa32276a035ee49703e6eea7c7b29a>`
+
--- a/documentation/migration-guides/release-notes-4.0.12.rst
+++ b/documentation/migration-guides/release-notes-4.0.12.rst
@@ -0,0 +1,277 @@
+.. SPDX-License-Identifier: CC-BY-SA-2.0-UK
+
+Release notes for Yocto-4.0.12 (Kirkstone)
+------------------------------------------
+
+Security Fixes in Yocto-4.0.12
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+-  bind: Fix :cve:`2023-2828` and :cve:`2023-2911`
+-  cups: Fix :cve:`2023-34241`
+-  curl: Added :cve:`2023-28320` Follow-up patch
+-  dbus: Fix :cve:`2023-34969`
+-  dmidecode: fix :cve:`2023-30630`
+-  ghostscript: fix :cve:`2023-36664`
+-  go: fix :cve_mitre:`2023-24531`, :cve:`2023-24536`, :cve:`2023-29400`, :cve:`2023-29402`, :cve:`2023-29404`, :cve:`2023-29405` and :cve:`2023-29406`
+-  libarchive: Ignore :cve:`2023-30571`
+-  libcap: Fix :cve:`2023-2602` and :cve:`2023-2603`
+-  libjpeg-turbo: Fix :cve:`2023-2804`
+-  libpcre2: Fix :cve:`2022-41409`
+-  libtiff: fix :cve:`2023-26965`
+-  libwebp: Fix :cve:`2023-1999`
+-  libx11: Fix :cve:`2023-3138`
+-  libxpm: Fix :cve:`2022-44617`
+-  ninja: Ignore :cve:`2021-4336`
+-  openssh: Fix :cve:`2023-38408`
+-  openssl: Fix :cve:`2023-2975`, :cve:`2023-3446` and :cve:`2023-3817`
+-  perl: Fix :cve:`2023-31486`
+-  python3: Ignore :cve:`2023-36632`
+-  qemu: Fix :cve:`2023-0330`, :cve_mitre:`2023-2861`, :cve_mitre:`2023-3255` and :cve_mitre:`2023-3301`
+-  sqlite3: Fix :cve:`2023-36191`
+-  tiff: Fix :cve:`2023-0795`, :cve:`2023-0796`, :cve:`2023-0797`, :cve:`2023-0798`, :cve:`2023-0799`, :cve:`2023-25433`, :cve:`2023-25434` and :cve:`2023-25435`
+-  vim: :cve:`2023-2609` and :cve:`2023-2610`
+
+
+Fixes in Yocto-4.0.12
+~~~~~~~~~~~~~~~~~~~~~
+
+-  babeltrace2: Always use BFD linker when building tests with ld-is-lld distro feature
+-  babeltrace2: upgrade to 2.0.5
+-  bitbake.conf: add unzstd in :term:`HOSTTOOLS`
+-  bitbake: bitbake-layers: initialize tinfoil before registering command line arguments
+-  bitbake: runqueue: Fix deferred task/multiconfig race issue
+-  blktrace: ask for python3 specifically
+-  build-appliance-image: Update to kirkstone head revision
+-  cmake: Fix CMAKE_SYSTEM_PROCESSOR setting for SDK
+-  connman: fix warning by specifying runstatedir at configure time
+-  cpio: Replace fix wrong CRC with ASCII CRC for large files with upstream backport
+-  cve-update-nvd2-native: actually use API keys
+-  cve-update-nvd2-native: always pass str for json.loads()
+-  cve-update-nvd2-native: fix cvssV3 metrics
+-  cve-update-nvd2-native: handle all configuration nodes, not just first
+-  cve-update-nvd2-native: increase retry count
+-  cve-update-nvd2-native: log a little more
+-  cve-update-nvd2-native: retry all errors and sleep between retries
+-  cve-update-nvd2-native: use exact times, don't truncate
+-  dbus: upgrade to 1.14.8
+-  devtool: Fix the wrong variable in srcuri_entry
+-  diffutils: upgrade to 3.10
+-  docs: ref-manual: terms: fix typos in :term:`SPDX` term
+-  fribidi: upgrade to 1.0.13
+-  gcc: upgrade to v11.4
+-  gcc-testsuite: Fix ppc cpu specification
+-  gcc: don't pass --enable-standard-branch-protection
+-  gcc: fix runpath errors in cc1 binary
+-  grub: submit determinism.patch upstream
+-  image_types: Fix reproducible builds for initramfs and UKI img
+-  kernel: add missing path to search for debug files
+-  kmod: remove unused ptest.patch
+-  layer.conf: Add missing dependency exclusion
+-  libassuan: upgrade to 2.5.6
+-  libksba: upgrade to 1.6.4
+-  libpng: Add ptest for libpng
+-  libxcrypt: fix build with perl-5.38 and use master branch
+-  libxcrypt: fix hard-coded ".so" extension
+-  libxpm: upgrade to 3.5.16
+-  linux-firmware: upgrade to 20230515
+-  linux-yocto/5.10: cfg: fix DECNET configuration warning
+-  linux-yocto/5.10: update to v5.10.185
+-  linux-yocto/5.15: cfg: fix DECNET configuration warning
+-  linux-yocto/5.15: update to v5.15.120
+-  logrotate: Do not create logrotate.status file
+-  lttng-ust: upgrade to 2.13.6
+-  machine/arch-arm64: add -mbranch-protection=standard
+-  maintainers.inc: correct Carlos Rafael Giani's email address
+-  maintainers.inc: correct unassigned entries
+-  maintainers.inc: unassign Adrian Bunk from wireless-regdb
+-  maintainers.inc: unassign Alistair Francis from opensbi
+-  maintainers.inc: unassign Andreas Müller from itstool entry
+-  maintainers.inc: unassign Pascal Bach from cmake entry
+-  maintainers.inc: unassign Ricardo Neri from ovmf
+-  maintainers.inc: unassign Richard Weinberger from erofs-utils entry
+-  mdadm: fix 07revert-inplace ptest
+-  mdadm: fix segfaults when running ptests
+-  mdadm: fix util-linux ptest dependency
+-  mdadm: skip running known broken ptests
+-  meson.bbclass: Point to llvm-config from native sysroot
+-  meta: lib: oe: npm_registry: Add more safe caracters
+-  migration-guides: add release notes for 4.0.11
+-  minicom: remove unused patch files
+-  mobile-broadband-provider-info: upgrade to 20230416
+-  oe-depends-dot: Handle new format for task-depends.dot
+-  oeqa/runtime/cases/rpm: fix wait_for_no_process_for_user failure case
+-  oeqa/selftest/bbtests: add non-existent prefile/postfile tests
+-  oeqa/selftest/devtool: add unit test for "devtool add -b"
+-  openssl: Upgrade to 3.0.10
+-  openssl: add PERLEXTERNAL path to test its existence
+-  openssl: use a glob on the PERLEXTERNAL to track updates on the path
+-  package.bbclass: moving field data process before variable process in process_pkgconfig
+-  pm-utils: fix multilib conflictions
+-  poky.conf: bump version for 4.0.12
+-  psmisc: Set :term:`ALTERNATIVE` for pstree to resolve conflict with busybox
+-  pybootchartgui: show elapsed time for each task
+-  python3: fix missing comma in get_module_deps3.py
+-  python3: upgrade to 3.10.12
+-  recipetool: Fix inherit in created -native* recipes
+-  ref-manual: add LTS and Mixin terms
+-  ref-manual: document image-specific variant of :term:`INCOMPATIBLE_LICENSE`
+-  ref-manual: release-process: update for LTS releases
+-  rust-llvm: backport a fix for build with gcc-13
+-  scripts/runqemu: allocate unfsd ports in a way that doesn't race or clash with unrelated processes
+-  scripts/runqemu: split lock dir creation into a reusable function
+-  sdk.py: error out when moving file fails
+-  sdk.py: fix moving dnf contents
+-  selftest reproducible.py: support different build targets
+-  selftest/license: Exclude from world
+-  selftest/reproducible: Allow chose the package manager
+-  serf: upgrade to 1.3.10
+-  strace: Disable failing test
+-  strace: Merge two similar patches
+-  strace: Update patches/tests with upstream fixes
+-  sysfsutils: fetch a supported fork from github
+-  systemd-systemctl: fix errors in instance name expansion
+-  systemd: Backport nspawn: make sure host root can write to the uidmapped mounts we prepare for the container payload
+-  tzdata: upgrade to 2023c
+-  uboot-extlinux-config.bbclass: fix old override syntax in comment
+-  unzip: fix configure check for cross compilation
+-  useradd-staticids.bbclass: improve error message
+-  util-linux: add alternative links for ipcs,ipcrm
+-  v86d: Improve kernel dependency
+-  vim: upgrade to 9.0.1592
+-  wget: upgrade to 1.21.4
+-  wic: Add dependencies for erofs-utils
+-  wireless-regdb: upgrade to 2023.05.03
+-  xdpyinfo: upgrade to 1.3.4
+-  zip: fix configure check by using _Static_assert
+
+
+Known Issues in Yocto-4.0.12
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+- N/A
+
+
+Contributors to Yocto-4.0.12
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+-  Alberto Planas
+-  Alexander Kanavin
+-  Alexander Sverdlin
+-  Andrej Valek
+-  Archana Polampalli
+-  BELOUARGA Mohamed
+-  Benjamin Bouvier
+-  Bruce Ashfield
+-  Charlie Wu
+-  Chen Qi
+-  Etienne Cordonnier
+-  Fabien Mahot
+-  Frieder Paape
+-  Frieder Schrempf
+-  Heiko Thole
+-  Hitendra Prajapati
+-  Jermain Horsman
+-  Jose Quaresma
+-  Kai Kang
+-  Khem Raj
+-  Lee Chee Yang
+-  Marc Ferland
+-  Marek Vasut
+-  Martin Jansa
+-  Mauro Queiros
+-  Michael Opdenacker
+-  Mikko Rapeli
+-  Nikhil R
+-  Ovidiu Panait
+-  Peter Marko
+-  Poonam Jadhav
+-  Quentin Schulz
+-  Richard Purdie
+-  Ross Burton
+-  Rusty Howell
+-  Sakib Sajal
+-  Soumya Sambu
+-  Steve Sakoman
+-  Sundeep KOKKONDA
+-  Tim Orling
+-  Tom Hochstein
+-  Trevor Gamblin
+-  Vijay Anusuri
+-  Vivek Kumbhar
+-  Wang Mingyu
+-  Xiangyu Chen
+-  Yoann Congal
+-  Yogita Urade
+-  Yuta Hayama
+
+
+Repositories / Downloads for Yocto-4.0.12
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+poky
+
+-  Repository Location: :yocto_git:`/poky`
+-  Branch: :yocto_git:`kirkstone </poky/log/?h=kirkstone>`
+-  Tag:  :yocto_git:`yocto-4.0.12 </poky/log/?h=yocto-4.0.12>`
+-  Git Revision: :yocto_git:`d6b8790370500b99ca11f0d8a05c39b661ab2ba6 </poky/commit/?id=d6b8790370500b99ca11f0d8a05c39b661ab2ba6>`
+-  Release Artefact: poky-d6b8790370500b99ca11f0d8a05c39b661ab2ba6
+-  sha: 35f0390e0c5a12f403ed471c0b1254c13cbb9d7c7b46e5a3538e63e36c1ac280
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.12/poky-d6b8790370500b99ca11f0d8a05c39b661ab2ba6.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.12/poky-d6b8790370500b99ca11f0d8a05c39b661ab2ba6.tar.bz2
+
+openembedded-core
+
+-  Repository Location: :oe_git:`/openembedded-core`
+-  Branch: :oe_git:`kirkstone </openembedded-core/log/?h=kirkstone>`
+-  Tag:  :oe_git:`yocto-4.0.12 </openembedded-core/log/?h=yocto-4.0.12>`
+-  Git Revision: :oe_git:`e1a604db8d2cf8782038b4016cc2e2052467333b </openembedded-core/commit/?id=e1a604db8d2cf8782038b4016cc2e2052467333b>`
+-  Release Artefact: oecore-e1a604db8d2cf8782038b4016cc2e2052467333b
+-  sha: 8b302eb3f3ffe5643f88bc6e4ae8f9a5cda63544d67e04637ecc4197e9750a1d
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.12/oecore-e1a604db8d2cf8782038b4016cc2e2052467333b.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.12/oecore-e1a604db8d2cf8782038b4016cc2e2052467333b.tar.bz2
+
+meta-mingw
+
+-  Repository Location: :yocto_git:`/meta-mingw`
+-  Branch: :yocto_git:`kirkstone </meta-mingw/log/?h=kirkstone>`
+-  Tag:  :yocto_git:`yocto-4.0.12 </meta-mingw/log/?h=yocto-4.0.12>`
+-  Git Revision: :yocto_git:`a90614a6498c3345704e9611f2842eb933dc51c1 </meta-mingw/commit/?id=a90614a6498c3345704e9611f2842eb933dc51c1>`
+-  Release Artefact: meta-mingw-a90614a6498c3345704e9611f2842eb933dc51c1
+-  sha: 49f9900bfbbc1c68136f8115b314e95d0b7f6be75edf36a75d9bcd1cca7c6302
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.12/meta-mingw-a90614a6498c3345704e9611f2842eb933dc51c1.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.12/meta-mingw-a90614a6498c3345704e9611f2842eb933dc51c1.tar.bz2
+
+meta-gplv2
+
+-  Repository Location: :yocto_git:`/meta-gplv2`
+-  Branch: :yocto_git:`kirkstone </meta-gplv2/log/?h=kirkstone>`
+-  Tag:  :yocto_git:`yocto-4.0.12 </meta-gplv2/log/?h=yocto-4.0.12>`
+-  Git Revision: :yocto_git:`d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a </meta-gplv2/commit/?id=d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a>`
+-  Release Artefact: meta-gplv2-d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a
+-  sha: c386f59f8a672747dc3d0be1d4234b6039273d0e57933eb87caa20f56b9cca6d
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.12/meta-gplv2-d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.12/meta-gplv2-d2f8b5cdb285b72a4ed93450f6703ca27aa42e8a.tar.bz2
+
+bitbake
+
+-  Repository Location: :oe_git:`/bitbake`
+-  Branch: :oe_git:`2.0 </bitbake/log/?h=2.0>`
+-  Tag:  :oe_git:`yocto-4.0.12 </bitbake/log/?h=yocto-4.0.12>`
+-  Git Revision: :oe_git:`41b6684489d0261753344956042be2cc4adb0159 </bitbake/commit/?id=41b6684489d0261753344956042be2cc4adb0159>`
+-  Release Artefact: bitbake-41b6684489d0261753344956042be2cc4adb0159
+-  sha: efa2b1c4d0be115ed3960750d1e4ed958771b2db6d7baee2d13ad386589376e8
+-  Download Locations:
+   http://downloads.yoctoproject.org/releases/yocto/yocto-4.0.12/bitbake-41b6684489d0261753344956042be2cc4adb0159.tar.bz2
+   http://mirrors.kernel.org/yocto/yocto/yocto-4.0.12/bitbake-41b6684489d0261753344956042be2cc4adb0159.tar.bz2
+
+yocto-docs
+
+-  Repository Location: :yocto_git:`/yocto-docs`
+-  Branch: :yocto_git:`kirkstone </yocto-docs/log/?h=kirkstone>`
+-  Tag: :yocto_git:`yocto-4.0.12 </yocto-docs/log/?h=yocto-4.0.12>`
+-  Git Revision: :yocto_git:`4dfef81ac6164764c6541e39a9fef81d49227096 </yocto-docs/commit/?id=4dfef81ac6164764c6541e39a9fef81d49227096>`
+
--- a/documentation/overview-manual/concepts.rst
+++ b/documentation/overview-manual/concepts.rst
@@ -34,7 +34,7 @@ itself is of various types:

 BitBake knows how to combine multiple data sources together and refers
 to each data source as a layer. For information on layers, see the
-":ref:`dev-manual/common-tasks:understanding and creating layers`"
+":ref:`dev-manual/layers:understanding and creating layers`"
 section of the Yocto Project Development Tasks Manual.

 Following are some brief details on these core components. For
@@ -149,7 +149,7 @@ Conforming to a known structure allows BitBake to make assumptions
 during builds on where to find types of metadata. You can find
 procedures and learn about tools (i.e. ``bitbake-layers``) for creating
 layers suitable for the Yocto Project in the
-":ref:`dev-manual/common-tasks:understanding and creating layers`"
+":ref:`dev-manual/layers:understanding and creating layers`"
 section of the Yocto Project Development Tasks Manual.

 OpenEmbedded Build System Concepts
@@ -308,7 +308,7 @@ during the build. By default, the layers listed in this file include
 layers minimally needed by the build system. However, you must manually
 add any custom layers you have created. You can find more information on
 working with the ``bblayers.conf`` file in the
-":ref:`dev-manual/common-tasks:enabling your layer`"
+":ref:`dev-manual/layers:enabling your layer`"
 section in the Yocto Project Development Tasks Manual.

 The files ``site.conf`` and ``auto.conf`` are not created by the
@@ -408,7 +408,7 @@ a ``README`` file as good practice and especially if the layer is to be
 distributed, a configuration directory, and recipe directories. You can
 learn about the general structure for layers used with the Yocto Project
 in the
-":ref:`dev-manual/common-tasks:creating your own layer`"
+":ref:`dev-manual/layers:creating your own layer`"
 section in the
 Yocto Project Development Tasks Manual. For a general discussion on
 layers and the many layers from which you can draw, see the
@@ -814,7 +814,7 @@ For more information on how the source directories are created, see the
 ":ref:`overview-manual/concepts:source fetching`" section. For
 more information on how to create patches and how the build system
 processes patches, see the
-":ref:`dev-manual/common-tasks:patching code`"
+":ref:`dev-manual/new-recipe:patching code`"
 section in the
 Yocto Project Development Tasks Manual. You can also see the
 ":ref:`sdk-manual/extensible:use \`\`devtool modify\`\` to modify the source of an existing component`"
@@ -1014,8 +1014,8 @@ data files are deleted from the root filesystem. As part of the final
 stage of package installation, post installation scripts that are part
 of the packages are run. Any scripts that fail to run on the build host
 are run on the target when the target system is first booted. If you are
-using a 
-:ref:`read-only root filesystem <dev-manual/common-tasks:creating a read-only root filesystem>`,
+using a
+:ref:`read-only root filesystem <dev-manual/read-only-rootfs:creating a read-only root filesystem>`,
 all the post installation scripts must succeed on the build host during
 the package installation phase since the root filesystem on the target
 is read-only.
@@ -1174,7 +1174,7 @@ varflag. If some other task depends on such a task, then that task will
 also always be considered out of date, which might not be what you want.

 For details on how to view information about a task's signature, see the
-":ref:`dev-manual/common-tasks:viewing task variable dependencies`"
+":ref:`dev-manual/debugging:viewing task variable dependencies`"
 section in the Yocto Project Development Tasks Manual.

 Setscene Tasks and Shared State
@@ -1603,15 +1603,15 @@ them if they are deemed to be valid.
      the shared state packages. Consequently, there are considerations that
      affect maintaining shared state feeds. For information on how the
      build system works with packages and can track incrementing :term:`PR`
-      information, see the ":ref:`dev-manual/common-tasks:automatically incrementing a package version number`"
+      information, see the ":ref:`dev-manual/packages:automatically incrementing a package version number`"
      section in the Yocto Project Development Tasks Manual.

   -  The code in the build system that supports incremental builds is
      complex. For techniques that help you work around issues
      related to shared state code, see the
-      ":ref:`dev-manual/common-tasks:viewing metadata used to create the input signature of a shared state task`"
+      ":ref:`dev-manual/debugging:viewing metadata used to create the input signature of a shared state task`"
      and
-      ":ref:`dev-manual/common-tasks:invalidating shared state to force a task to run`"
+      ":ref:`dev-manual/debugging:invalidating shared state to force a task to run`"
      sections both in the Yocto Project Development Tasks Manual.

 The rest of this section goes into detail about the overall incremental
--- a/documentation/overview-manual/development-environment.rst
+++ b/documentation/overview-manual/development-environment.rst
@@ -94,7 +94,7 @@ are several ways of working in the Yocto Project environment:
   through your Linux distribution and the Yocto Project.

   For a general flow of the build procedures, see the
-   ":ref:`dev-manual/common-tasks:building a simple image`"
+   ":ref:`dev-manual/building:building a simple image`"
   section in the Yocto Project Development Tasks Manual.

 -  *Board Support Package (BSP) Development:* Development of BSPs
@@ -244,8 +244,8 @@ and so forth.

   For information on finding out who is responsible for (maintains) a
   particular area of code in the Yocto Project, see the
-   ":ref:`dev-manual/common-tasks:submitting a change to the yocto project`"
-   section of the Yocto Project Development Tasks Manual.
+   ":doc:`../contributor-guide/identify-component`"
+   section of the Yocto Project and OpenEmbedded Contributor Guide.

 The Yocto Project ``poky`` Git repository also has an upstream
 contribution Git repository named ``poky-contrib``. You can see all the
@@ -276,8 +276,8 @@ push them into the "contrib" area and subsequently request that the
 maintainer include them into an upstream branch. This process is called
 "submitting a patch" or "submitting a change." For information on
 submitting patches and changes, see the
-":ref:`dev-manual/common-tasks:submitting a change to the yocto project`"
-section in the Yocto Project Development Tasks Manual.
+":doc:`../contributor-guide/submit-changes`" section in the Yocto Project
+and OpenEmbedded Contributor Guide.

 In summary, there is a single point of entry for changes into the
 development branch of the Git repository, which is controlled by the
@@ -340,11 +340,10 @@ Book <https://book.git-scm.com>`__.
   software on which to develop. The Yocto Project has two scripts named
   ``create-pull-request`` and ``send-pull-request`` that ship with the
   release to facilitate this workflow. You can find these scripts in
-   the ``scripts`` folder of the
-   :term:`Source Directory`. For information
+   the ``scripts`` folder of the :term:`Source Directory`. For information
   on how to use these scripts, see the
-   ":ref:`dev-manual/common-tasks:using scripts to push a change upstream and request a pull`"
-   section in the Yocto Project Development Tasks Manual.
+   ":ref:`contributor-guide/submit-changes:using scripts to push a change upstream and request a pull`"
+   section in the Yocto Project and OpenEmbedded Contributor Guide.

 -  *Patch Workflow:* This workflow allows you to notify the maintainer
   through an email that you have a change (or patch) you would like
@@ -352,8 +351,8 @@ Book <https://book.git-scm.com>`__.
   this type of change, you format the patch and then send the email
   using the Git commands ``git format-patch`` and ``git send-email``.
   For information on how to use these scripts, see the
-   ":ref:`dev-manual/common-tasks:submitting a change to the yocto project`"
-   section in the Yocto Project Development Tasks Manual.
+   ":doc:`../contributor-guide/submit-changes`" section in the Yocto Project
+   and OpenEmbedded Contributor Guide.

 Git
 ===
@@ -655,5 +654,5 @@ Project uses in the ``meta/files/common-licenses`` directory in your
 For information that can help you maintain compliance with various open
 source licensing during the lifecycle of a product created using the
 Yocto Project, see the
-":ref:`dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle`"
+":ref:`dev-manual/licenses:maintaining open source license compliance during your product's lifecycle`"
 section in the Yocto Project Development Tasks Manual.
--- a/documentation/overview-manual/yp-intro.rst
+++ b/documentation/overview-manual/yp-intro.rst
@@ -129,7 +129,7 @@ Here are features and advantages of the Yocto Project:
   arbitrarily include packages.

 -  *License Manifest:* The Yocto Project provides a :ref:`license
-   manifest <dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle>`
+   manifest <dev-manual/licenses:maintaining open source license compliance during your product's lifecycle>`
   for review by people who need to track the use of open source
   licenses (e.g. legal teams).

@@ -225,7 +225,7 @@ your Metadata, the easier it is to cope with future changes.

   -  Layers support the inclusion of technologies, hardware components,
      and software components. The :ref:`Yocto Project
-      Compatible <dev-manual/common-tasks:making sure your layer is compatible with yocto project>`
+      Compatible <dev-manual/layers:making sure your layer is compatible with yocto project>`
      designation provides a minimum level of standardization that
      contributes to a strong ecosystem. "YP Compatible" is applied to
      appropriate products and software components such as BSPs, other
@@ -269,7 +269,7 @@ of the ``poky`` repository, you will see several layers: ``meta``,
 layer.

 For procedures on how to create layers, see the
-":ref:`dev-manual/common-tasks:understanding and creating layers`"
+":ref:`dev-manual/layers:understanding and creating layers`"
 section in the Yocto Project Development Tasks Manual.

 Components and Tools
@@ -351,7 +351,7 @@ Yocto Project:
   (BitBake and
   OE-Core) automatically generates upgrades for recipes that are based
   on new versions of the recipes published upstream. See
-   :ref:`dev-manual/common-tasks:using the auto upgrade helper (auh)`
+   :ref:`dev-manual/upgrading-recipes:using the auto upgrade helper (auh)`
   for how to set it up.

 -  *Recipe Reporting System:* The Recipe Reporting System tracks recipe
@@ -781,7 +781,7 @@ helpful for getting started:
   Yocto Project.

   For more detailed information on layers, see the
-   ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+   ":ref:`dev-manual/layers:understanding and creating layers`"
   section in the Yocto Project Development Tasks Manual. For a
   discussion specifically on BSP Layers, see the
   ":ref:`bsp-guide/bsp:bsp layers`" section in the Yocto
--- a/documentation/ref-manual/classes.rst
+++ b/documentation/ref-manual/classes.rst
@@ -67,8 +67,8 @@ inherit the ``allarch`` class.
 The ``archiver`` class supports releasing source code and other
 materials with the binaries.

-For more details on the source archiver, see the
-":ref:`dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle`"
+For more details on the source :ref:`ref-classes-archiver`, see the
+":ref:`dev-manual/licenses:maintaining open source license compliance during your product's lifecycle`"
 section in the Yocto Project Development Tasks Manual. You can also see
 the :term:`ARCHIVER_MODE` variable for information
 about the variable flags (varflags) that help control archive creation.
@@ -86,7 +86,7 @@ standardization. This class defines a set of tasks (e.g. ``configure``,
 should usually be enough to define a few standard variables and then
 simply ``inherit autotools``. These classes can also work with software
 that emulates Autotools. For more information, see the
-":ref:`dev-manual/common-tasks:autotooled package`" section
+":ref:`dev-manual/new-recipe:building an autotooled package`" section
 in the Yocto Project Development Tasks Manual.

 By default, the ``autotools*`` classes use out-of-tree builds (i.e.
@@ -216,7 +216,7 @@ The ``buildhistory`` class records a history of build output metadata,
 which can be used to detect possible regressions as well as used for
 analysis of the build output. For more information on using Build
 History, see the
-":ref:`dev-manual/common-tasks:maintaining build output quality`"
+":ref:`dev-manual/build-quality:maintaining build output quality`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-buildstats:
@@ -384,7 +384,7 @@ by the :term:`SPDX_PRETTY`, :term:`SPDX_ARCHIVE_PACKAGED`,
 :term:`SPDX_ARCHIVE_SOURCES` and :term:`SPDX_INCLUDE_SOURCES` variables.

 See the description of these variables and the
-":ref:`dev-manual/common-tasks:creating a software bill of materials`"
+":ref:`dev-manual/sbom:creating a software bill of materials`"
 section in the Yocto Project Development Manual for more details.

 .. _ref-classes-cross:
@@ -478,7 +478,7 @@ These can only be detected by reviewing the details of the issues and iterating
 and following what happens in other Linux distributions and in the greater open source community.

 You will find some more details in the
-":ref:`dev-manual/common-tasks:checking for vulnerabilities`"
+":ref:`dev-manual/vulnerabilities:checking for vulnerabilities`"
 section in the Development Tasks Manual.

 .. _ref-classes-debian:
@@ -517,10 +517,10 @@ staging the files from :term:`DEPLOYDIR` to :term:`DEPLOY_DIR_IMAGE`.
 ``devshell.bbclass``
 ====================

-The ``devshell`` class adds the ``do_devshell`` task. Distribution
-policy dictates whether to include this class. See the ":ref:`dev-manual/common-tasks:using a development shell`"
+The :ref:`ref-classes-devshell` class adds the :ref:`ref-tasks-devshell` task. Distribution
+policy dictates whether to include this class. See the ":ref:`dev-manual/development-shell:using a development shell`"
 section in the Yocto Project Development Tasks Manual for more
-information about using ``devshell``.
+information about using :ref:`ref-classes-devshell`.

 .. _ref-classes-devupstream:

@@ -591,9 +591,8 @@ See these variables for more information:

 For more information on the ``externalsrc`` class, see the comments in
 ``meta/classes/externalsrc.bbclass`` in the :term:`Source Directory`.
-For information on how to use the
-``externalsrc`` class, see the
-":ref:`dev-manual/common-tasks:building software from an external source`"
+For information on how to use the :ref:`ref-classes-externalsrc` class, see the
+":ref:`dev-manual/building:building software from an external source`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-extrausers:
@@ -942,7 +941,7 @@ then one or more image files are created.
   install into the image.

 For information on customizing images, see the
-":ref:`dev-manual/common-tasks:customizing images`" section
+":ref:`dev-manual/customizing-images:customizing images`" section
 in the Yocto Project Development Tasks Manual. For information on how
 images are created, see the
 ":ref:`overview-manual/concepts:images`" section in the
@@ -1330,7 +1329,7 @@ packages such as ``kernel-vmlinux``.
 The ``kernel`` class contains logic that allows you to embed an initial
 RAM filesystem (initramfs) image when you build the kernel image. For
 information on how to build an initramfs, see the
-":ref:`dev-manual/common-tasks:building an initial ram filesystem (initramfs) image`" section in
+":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`" section in
 the Yocto Project Development Tasks Manual.

 Various other classes are used by the ``kernel`` and ``module`` classes
@@ -1537,6 +1536,16 @@ messages for various BitBake severity levels (i.e. ``bbplain``,
 This class is enabled by default since it is inherited by the ``base``
 class.

+.. _ref-classes-meson:
+
+``meson.bbclass``
+=================
+
+The :ref:`ref-classes-meson` class allows to create recipes that build software
+using the `Meson <https://mesonbuild.com/>`__ build system. You can use
+the :term:`MESON_BUILDTYPE` and :term:`EXTRA_OEMESON` variables to specify
+additional configuration options to be passed using the ``meson`` command line.
+
 .. _ref-classes-metadata_scm:

 ``metadata_scm.bbclass``
@@ -1568,6 +1577,27 @@ The ``mime`` class generates the proper post-install and post-remove
 These scriptlets call ``update-mime-database`` to add the MIME types to
 the shared database.

+.. _ref-classes-mime-xdg:
+
+``mime-xdg.bbclass``
+====================
+
+The :ref:`mime-xdg <ref-classes-mime-xdg>` class generates the proper
+post-install and post-remove (postinst/postrm) scriptlets for packages
+that install ``.desktop`` files containing ``MimeType`` entries.
+These scriptlets call ``update-desktop-database`` to add the MIME types
+to the database of MIME types handled by desktop files.
+
+Thanks to this class, when users open a file through a file browser
+on recently created images, they don't have to choose the application
+to open the file from the pool of all known applications, even the ones
+that cannot open the selected file.
+
+If you have recipes installing their ``.desktop`` files as absolute
+symbolic links, the detection of such files cannot be done by the current
+implementation of this class. In this case, you have to add the corresponding
+package names to the :term:`MIME_XDG_PACKAGES` variable.
+
 .. _ref-classes-mirrors:

 ``mirrors.bbclass``
@@ -1619,7 +1649,7 @@ different target optimizations or target architectures and installing
 them side-by-side in the same image.

 For more information on using the Multilib feature, see the
-":ref:`dev-manual/common-tasks:combining multiple versions of library files into one image`"
+":ref:`dev-manual/libraries:combining multiple versions of library files into one image`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-native:
@@ -1727,7 +1757,7 @@ package manager (NPM) <https://en.wikipedia.org/wiki/Npm_(software)>`__.
   fetcher to have dependencies fetched and packaged automatically.

 For information on how to create NPM packages, see the
-":ref:`dev-manual/common-tasks:creating node package manager (npm) packages`"
+":ref:`dev-manual/packages:creating node package manager (npm) packages`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-oelint:
@@ -1905,7 +1935,7 @@ If you take the optional step to set up a repository (package feed) on
 the development host that can be used by DNF, you can install packages
 from the feed while you are running the image on the target (i.e.
 runtime installation of packages). For more information, see the
-":ref:`dev-manual/common-tasks:using runtime package management`"
+":ref:`dev-manual/packages:using runtime package management`"
 section in the Yocto Project Development Tasks Manual.

 The package-specific class you choose can affect build-time performance
@@ -2024,7 +2054,7 @@ so forth). It is highly recommended that all package group recipes
 inherit this class.

 For information on how to use this class, see the
-":ref:`dev-manual/common-tasks:customizing images using custom package groups`"
+":ref:`dev-manual/customizing-images:customizing images using custom package groups`"
 section in the Yocto Project Development Tasks Manual.

 Previously, this class was called the ``task`` class.
@@ -2240,8 +2270,8 @@ The ``primport`` class provides functionality for importing
 ``prserv.bbclass``
 ==================

-The ``prserv`` class provides functionality for using a :ref:`PR
-service <dev-manual/common-tasks:working with a pr service>` in order to
+The :ref:`ref-classes-prserv` class provides functionality for using a :ref:`PR
+service <dev-manual/packages:working with a pr service>` in order to
 automatically manage the incrementing of the :term:`PR`
 variable for each recipe.

@@ -2261,7 +2291,7 @@ runtime tests for recipes that build software that provides these tests.
 This class is intended to be inherited by individual recipes. However,
 the class' functionality is largely disabled unless "ptest" appears in
 :term:`DISTRO_FEATURES`. See the
-":ref:`dev-manual/common-tasks:testing packages with ptest`"
+":ref:`dev-manual/packages:testing packages with ptest`"
 section in the Yocto Project Development Tasks Manual for more information
 on ptest.

@@ -2274,7 +2304,7 @@ Enables package tests (ptests) specifically for GNOME packages, which
 have tests intended to be executed with ``gnome-desktop-testing``.

 For information on setting up and running ptests, see the
-":ref:`dev-manual/common-tasks:testing packages with ptest`"
+":ref:`dev-manual/packages:testing packages with ptest`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-python3-dir:
@@ -2361,8 +2391,8 @@ override the removal by setting ``REMOVE_LIBTOOL_LA`` to "0" as follows::
 ``report-error.bbclass``
 ========================

-The ``report-error`` class supports enabling the :ref:`error reporting
-tool <dev-manual/common-tasks:using the error reporting tool>`",
+The :ref:`ref-classes-report-error` class supports enabling the :ref:`error reporting
+tool <dev-manual/error-reporting-tool:using the error reporting tool>`",
 which allows you to submit build error information to a central database.

 The class collects debug information for recipe, recipe version, task,
@@ -2766,8 +2796,8 @@ Services are set up to start on boot automatically
 unless you have set
 :term:`SYSTEMD_AUTO_ENABLE` to "disable".

-For more information on ``systemd``, see the
-":ref:`dev-manual/common-tasks:selecting an initialization manager`"
+For more information on :ref:`ref-classes-systemd`, see the
+":ref:`dev-manual/init-manager:selecting an initialization manager`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-systemd-boot:
@@ -2843,7 +2873,7 @@ runs tests on an image after the image is constructed (i.e.
 :term:`TESTIMAGE_AUTO` must be set to "1").

 For information on how to enable, run, and create new tests, see the
-":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-classes-testsdk:
--- a/documentation/ref-manual/devtool-reference.rst
+++ b/documentation/ref-manual/devtool-reference.rst
@@ -411,7 +411,7 @@ Upgrading a Recipe
 As software matures, upstream recipes are upgraded to newer versions. As
 a developer, you need to keep your local recipes up-to-date with the
 upstream version releases. There are several ways of upgrading recipes.
-You can read about them in the ":ref:`dev-manual/common-tasks:upgrading recipes`"
+You can read about them in the ":ref:`dev-manual/upgrading-recipes:upgrading recipes`"
 section of the Yocto Project Development Tasks Manual. This section
 overviews the ``devtool upgrade`` command.

@@ -439,7 +439,7 @@ You can read more on the ``devtool upgrade`` workflow in the
 ":ref:`sdk-manual/extensible:use \`\`devtool upgrade\`\` to create a version of the recipe that supports a newer version of the software`"
 section in the Yocto Project Application Development and the Extensible
 Software Development Kit (eSDK) manual. You can also see an example of
-how to use ``devtool upgrade`` in the ":ref:`dev-manual/common-tasks:using \`\`devtool upgrade\`\``"
+how to use ``devtool upgrade`` in the ":ref:`dev-manual/upgrading-recipes:using \`\`devtool upgrade\`\``"
 section in the Yocto Project Development Tasks Manual.

 .. _devtool-resetting-a-recipe:
--- a/documentation/ref-manual/faq.rst
+++ b/documentation/ref-manual/faq.rst
@@ -45,7 +45,7 @@ section for steps on how to update your build tools.
 **A:** Support for an additional board is added by creating a Board
 Support Package (BSP) layer for it. For more information on how to
 create a BSP layer, see the
-":ref:`dev-manual/common-tasks:understanding and creating layers`"
+":ref:`dev-manual/layers:understanding and creating layers`"
 section in the Yocto Project Development Tasks Manual and the
 :doc:`/bsp-guide/index`.

@@ -73,7 +73,7 @@ device.

 **A:** To add a package, you need to create a BitBake recipe. For
 information on how to create a BitBake recipe, see the
-":ref:`dev-manual/common-tasks:writing a new recipe`"
+":ref:`dev-manual/new-recipe:writing a new recipe`"
 section in the Yocto Project Development Tasks Manual.

 **Q:** Do I have to reflash my entire board with a new Yocto Project
@@ -201,7 +201,7 @@ You can find more information on licensing in the
 ":ref:`overview-manual/development-environment:licensing`"
 section in the Yocto
 Project Overview and Concepts Manual and also in the
-":ref:`dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle`"
+":ref:`dev-manual/licenses:maintaining open source license compliance during your product's lifecycle`"
 section in the Yocto Project Development Tasks Manual.

 **Q:** How do I disable the cursor on my touchscreen device?
--- a/documentation/ref-manual/features.rst
+++ b/documentation/ref-manual/features.rst
@@ -157,7 +157,7 @@ metadata:

 -  *ptest:* Enables building the package tests where supported by
   individual recipes. For more information on package tests, see the
-   ":ref:`dev-manual/common-tasks:testing packages with ptest`" section
+   ":ref:`dev-manual/packages:testing packages with ptest`" section
   in the Yocto Project Development Tasks Manual.

 -  *smbfs:* Include SMB networks client support (for mounting
@@ -241,7 +241,7 @@ Here are the image features available for all images:

 -  *read-only-rootfs:* Creates an image whose root filesystem is
   read-only. See the
-   ":ref:`dev-manual/common-tasks:creating a read-only root filesystem`"
+   ":ref:`dev-manual/read-only-rootfs:creating a read-only root filesystem`"
   section in the Yocto Project Development Tasks Manual for more
   information.

@@ -278,7 +278,7 @@ these valid features is as follows:

 -  *tools-debug:* Installs debugging tools such as ``strace`` and
   ``gdb``. For information on GDB, see the
-   ":ref:`dev-manual/common-tasks:debugging with the gnu project debugger (gdb) remotely`" section
+   ":ref:`dev-manual/debugging:debugging with the gnu project debugger (gdb) remotely`" section
   in the Yocto Project Development Tasks Manual. For information on
   tracing and profiling, see the :doc:`/profile-manual/index`.

--- a/documentation/ref-manual/images.rst
+++ b/documentation/ref-manual/images.rst
@@ -14,15 +14,17 @@ image you want.
   Building an image without GNU General Public License Version 3
   (GPLv3), GNU Lesser General Public License Version 3 (LGPLv3), and
   the GNU Affero General Public License Version 3 (AGPL-3.0) components
-   is only supported for minimal and base images. Furthermore, if you
-   are going to build an image using non-GPLv3 and similarly licensed
-   components, you must make the following changes in the ``local.conf``
-   file before using the BitBake command to build the minimal or base
-   image::
+   is only tested for core-image-minimal image. Furthermore, if you would like to
+   build an image and verify that it does not include GPLv3 and similarly licensed
+   components, you must make the following changes in the image recipe
+   file before using the BitBake command to build the image:

-           1. Comment out the EXTRA_IMAGE_FEATURES line
-           2. Set INCOMPATIBLE_LICENSE = "GPL-3.0* LGPL-3.0* AGPL-3.0*"
+       INCOMPATIBLE_LICENSE = "GPL-3.0* LGPL-3.0*"

+   Alternatively, you can adjust ``local.conf`` file, repeating and adjusting the line
+   for all images where the license restriction must apply:
+
+       INCOMPATIBLE_LICENSE:pn-your-image-name = "GPL-3.0* LGPL-3.0*"

 From within the ``poky`` Git repository, you can use the following
 command to display the list of directories within the :term:`Source Directory`
@@ -117,7 +119,7 @@ Following is a list of supported recipes:
   deployed to a separate partition so that you can boot into it and use
   it to deploy a second image to be tested. You can find more
   information about runtime testing in the
-   ":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+   ":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
   section in the Yocto Project Development Tasks Manual.

 -  ``core-image-testmaster-initramfs``: A RAM-based Initial Root
@@ -127,7 +129,7 @@ Following is a list of supported recipes:
 -  ``core-image-weston``: A very basic Wayland image with a terminal.
   This image provides the Wayland protocol libraries and the reference
   Weston compositor. For more information, see the
-   ":ref:`dev-manual/common-tasks:using wayland and weston`"
+   ":ref:`dev-manual/wayland:using wayland and weston`"
   section in the Yocto Project Development Tasks Manual.

 -  ``core-image-x11``: A very basic X11 image with a terminal.
--- a/documentation/ref-manual/kickstart.rst
+++ b/documentation/ref-manual/kickstart.rst
@@ -82,7 +82,7 @@ the ``part`` and ``partition`` commands:
   source of the data that populates the partition. The most common
   value for this option is "rootfs", but you can use any value that
   maps to a valid source plugin. For information on the source plugins,
-   see the ":ref:`dev-manual/common-tasks:using the wic plugin interface`"
+   see the ":ref:`dev-manual/wic:using the wic plugin interface`"
   section in the Yocto Project Development Tasks Manual.

   If you use ``--source rootfs``, Wic creates a partition as large as
--- a/documentation/ref-manual/qa-checks.rst
+++ b/documentation/ref-manual/qa-checks.rst
@@ -162,7 +162,7 @@ Errors and Warnings
   normally expected to be empty (such as ``/tmp``). These files may
   be more appropriately installed to a different location, or
   perhaps alternatively not installed at all, usually by updating the
-   ``do_install`` task/function.
+   :ref:`ref-tasks-install` task/function.

 .. _qa-check-arch:

@@ -536,7 +536,7 @@ Errors and Warnings
      in (e.g. ``FILES:${``\ :term:`PN`\ ``}`` for the main
      package).

-   -  Delete the files at the end of the ``do_install`` task if the
+   -  Delete the files at the end of the :ref:`ref-tasks-install` task if the
      files are not needed in any package.

    
@@ -579,10 +579,10 @@ Errors and Warnings
 - ``package contains mime types but does not inherit mime: <packagename> path '<file>' [mime]``

   The specified package contains mime type files (``.xml`` files in
-   ``${datadir}/mime/packages``) and yet does not inherit the mime
-   class which will ensure that these get properly installed. Either
-   add ``inherit mime`` to the recipe or remove the files at the
-   ``do_install`` step if they are not needed.
+   ``${datadir}/mime/packages``) and yet does not inherit the
+   :ref:`ref-classes-mime` class which will ensure that these get
+   properly installed. Either add ``inherit mime`` to the recipe or remove the
+   files at the :ref:`ref-tasks-install` step if they are not needed.


 .. _qa-check-mime-xdg:
@@ -590,10 +590,10 @@ Errors and Warnings
 - ``package contains desktop file with key 'MimeType' but does not inhert mime-xdg: <packagename> path '<file>' [mime-xdg]``

    The specified package contains a .desktop file with a 'MimeType' key
-    present, but does not inherit the mime-xdg class that is required in
-    order for that to be activated. Either add ``inherit mime`` to the
-    recipe or remove the files at the ``do_install`` step if they are not
-    needed.
+    present, but does not inherit the :ref:`mime-xdg <ref-classes-mime-xdg>`
+    class that is required in order for that to be activated. Either add
+    ``inherit mime`` to the recipe or remove the files at the
+    :ref:`ref-tasks-install` step if they are not needed.


 .. _qa-check-src-uri-bad:
@@ -602,7 +602,7 @@ Errors and Warnings

    GitHub provides "archive" tarballs, however these can be re-generated
    on the fly and thus the file's signature will not necessarily match that
-    in the SRC_URI checksums in future leading to build failures. It is
+    in the :term:`SRC_URI` checksums in future leading to build failures. It is
    recommended that you use an official release tarball or switch to
    pulling the corresponding revision in the actual git repository instead.

@@ -613,18 +613,20 @@ Errors and Warnings
    so using ${:term:`BPN`} rather than ${:term:`PN`} as the latter will change
    for different variants of the same recipe e.g. when :term:`BBCLASSEXTEND`
    or multilib are being used. This check will fail if a reference to ``${PN}``
-    is found within the :term:`SRC_URI` value - change it to ``${BPN}`` instead.
+    is found within the :term:`SRC_URI` value --- change it to ``${BPN}`` instead.


 .. _qa-check-unhandled-features-check:

 - ``<recipename>: recipe doesn't inherit features_check [unhandled-features-check]``

-    This check ensures that if one of the variables that the :ref:`features_check <ref-classes-features_check>`
-    class supports (e.g. :term:`REQUIRED_DISTRO_FEATURES`) is used, then the recipe
-    inherits ``features_check`` in order for the requirement to actually work. If
-    you are seeing this message, either add ``inherit features_check`` to your recipe
-    or remove the reference to the variable if it is not needed.
+    This check ensures that if one of the variables that the
+    :ref:`ref-classes-features_check` class supports (e.g.
+    :term:`REQUIRED_DISTRO_FEATURES`) is used, then the recipe
+    inherits :ref:`ref-classes-features_check` in order for
+    the requirement to actually work. If you are seeing this message, either
+    add ``inherit features_check`` to your recipe or remove the reference to
+    the variable if it is not needed.


 .. _qa-check-missing-update-alternatives:
@@ -632,7 +634,7 @@ Errors and Warnings
 - ``<recipename>: recipe defines ALTERNATIVE:<packagename> but doesn't inherit update-alternatives. This might fail during do_rootfs later! [missing-update-alternatives]``

    This check ensures that if a recipe sets the :term:`ALTERNATIVE` variable that the
-    recipe also inherits :ref:`update-alternatives <ref-classes-update-alternatives>` such
+    recipe also inherits :ref:`ref-classes-update-alternatives` such
    that the alternative will be correctly set up. If you are seeing this message, either
    add ``inherit update-alternatives`` to your recipe or remove the reference to the variable
    if it is not needed.
@@ -653,7 +655,7 @@ Errors and Warnings
 - ``<packagename> contains perllocal.pod (<files>), should not be installed [perllocalpod]``

    ``perllocal.pod`` is an index file of locally installed modules and so shouldn't be
-    installed by any distribution packages. The :ref:`cpan <ref-classes-cpan>` class
+    installed by any distribution packages. The :ref:`ref-classes-cpan` class
    already sets ``NO_PERLLOCAL`` to stop this file being generated by most Perl recipes,
    but if a recipe is using ``MakeMaker`` directly then they might not be doing this
    correctly. This check ensures that perllocal.pod is not in any package in order to
@@ -667,8 +669,8 @@ Errors and Warnings

    If ``usrmerge`` is in :term:`DISTRO_FEATURES`, this check will ensure that no package
    installs files to root (``/bin``, ``/sbin``, ``/lib``, ``/lib64``) directories. If you are seeing this
-    message, it indicates that the ``do_install`` step (or perhaps the build process that
-    ``do_install`` is calling into, e.g. ``make install`` is using hardcoded paths instead
+    message, it indicates that the :ref:`ref-tasks-install` step (or perhaps the build process that
+    :ref:`ref-tasks-install` is calling into, e.g. ``make install`` is using hardcoded paths instead
    of the variables set up for this (``bindir``, ``sbindir``, etc.), and should be
    changed so that it does.

@@ -677,7 +679,7 @@ Errors and Warnings

 - ``Fuzz detected: <patch output> [patch-fuzz]``

-    This check looks for evidence of "fuzz" when applying patches within the ``do_patch``
+    This check looks for evidence of "fuzz" when applying patches within the :ref:`ref-tasks-patch`
    task. Patch fuzz is a situation when the ``patch`` tool ignores some of the context
    lines in order to apply the patch. Consider this example:

@@ -727,7 +729,7 @@ Errors and Warnings
            devtool modify <recipe>

    This will apply all of the patches, and create new commits out of them in
-    the workspace - with the patch context updated.
+    the workspace --- with the patch context updated.

    Then, replace the patches in the recipe layer::

@@ -748,6 +750,45 @@ Errors and Warnings
    other things in the patches, those can be discarded.


+.. _qa-check-patch-status:
+
+- ``Missing Upstream-Status in patch <patchfile> Please add according to <url> [patch-status-core/patch-status-noncore]``
+
+    The ``Upstream-Status`` value is missing in the specified patch file's header.
+    This value is intended to track whether or not the patch has been sent
+    upstream, whether or not it has been merged, etc.
+
+    There are two options for this same check - ``patch-status-core`` (for
+    recipes in OE-Core) and ``patch-status-noncore`` (for recipes in any other
+    layer).
+
+    For more information, see the
+    ":ref:`contributor-guide/recipe-style-guide:patch upstream status`"
+    section in the Yocto Project and OpenEmbedded Contributor Guide.
+
+- ``Malformed Upstream-Status in patch <patchfile> Please correct according to <url> [patch-status-core/patch-status-noncore]``
+
+    The ``Upstream-Status`` value in the specified patch file's header is invalid -
+    it must be a specific format. See the "Missing Upstream-Status" entry above
+    for more information.
+
+
+.. _qa-check-buildpaths:
+
+- ``File <filename> in package <packagename> contains reference to TMPDIR [buildpaths]``
+
+    This check ensures that build system paths (including :term:`TMPDIR`) do not
+    appear in output files, which not only leaks build system configuration into
+    the target, but also hinders binary reproducibility as the output will change
+    if the build system configuration changes.
+
+    Typically these paths will enter the output through some mechanism in the
+    configuration or compilation of the software being built by the recipe. To
+    resolve this issue you will need to determine how the detected path is
+    entering the output. Sometimes it may require adjusting scripts or code to
+    use a relative path rather than an absolute one, or to pick up the path from
+    runtime configuration or environment variables.
+

 Configuring and Disabling QA Checks
 ===================================
--- a/documentation/ref-manual/release-process.rst
+++ b/documentation/ref-manual/release-process.rst
@@ -18,9 +18,9 @@ Following are examples of some major YP releases with their codenames
 also shown. See the ":ref:`ref-manual/release-process:major release codenames`"
 section for information on codenames used with major releases.

-  - 2.2 (Morty) 
-  - 2.1 (Krogoth)
-  - 2.0 (Jethro) 
+  - 4.1 ("Langdale")
+  - 4.0 ("Kirkstone")
+  - 3.4 ("Honister")

 While the cadence is never perfect, this timescale facilitates
 regular releases that have strong QA cycles while not overwhelming users
@@ -32,9 +32,9 @@ basis and are usually driven by the accumulation of enough significant
 fixes or enhancements to the associated major release. Following are
 some example past point releases:

-  - 2.1.1
-  - 2.1.2
-  - 2.2.1 
+  - 4.1.3
+  - 4.0.8
+  - 3.4.4

 The point release
 indicates a point in the major release branch where a full QA cycle and
@@ -87,15 +87,51 @@ stable release.
   exception to this policy occurs when there is a strong reason such as
   the fix happens to also be the preferred upstream approach.

-Stable release branches have strong maintenance for about a year after
-their initial release. Should significant issues be found for any
-release regardless of its age, fixes could be backported to older
-releases. For issues that are not backported given an older release,
-Community LTS trees and branches allow community members to share
-patches for older releases. However, these types of patches do not go
-through the same release process as do point releases. You can find more
-information about stable branch maintenance at
-:yocto_wiki:`/Stable_branch_maintenance`.
+.. _ref-long-term-support-releases:
+
+Long Term Support Releases
+==========================
+
+While stable releases are supported for a duration of seven months,
+some specific ones are now supported for a longer period by the Yocto
+Project, and are called Long Term Support (:term:`LTS`) releases.
+
+When significant issues are found, :term:`LTS` releases allow to publish
+fixes not only for the current stable release, but also to the
+:term:`LTS` releases that are still supported. Older stable releases which
+have reached their End of Life (EOL) won't receive such updates.
+
+This started with version 3.1 ("Dunfell"), released in April 2020, which
+the project initially committed to supporting for two years, but this duration
+was later extended to four years. Similarly, the following :term:`LTS` release,
+version 4.0 ("Kirkstone"), was released two years later in May 2022 and the
+project committed to supporting it for four years too.
+
+Therefore, a new :term:`LTS` release is made every two years and is supported
+for four years. This offers more stability to project users and leaves more
+time to upgrade to the following :term:`LTS` release.
+
+See :yocto_wiki:`/Stable_Release_and_LTS` for details about the management
+of stable and :term:`LTS` releases.
+
+.. image:: svg/releases.*
+   :width: 100%
+
+.. note::
+
+   In some circumstances, a layer can be created by the community in order to
+   add a specific feature or support a new version of some package for an :term:`LTS`
+   release. This is called a :term:`Mixin` layer. These are thin and specific
+   purpose layers which can be stacked with an :term:`LTS` release to "mix" a specific
+   feature into that build. These are created on an as-needed basis and
+   maintained by the people who need them.
+
+   Policies on testing these layers depend on how widespread their usage is and
+   determined on a case-by-case basis. You can find some :term:`Mixin` layers in the
+   :yocto_git:`meta-lts-mixins </meta-lts-mixins>` repository. While the Yocto
+   Project provides hosting for those repositories, it does not provides
+   testing on them. Other :term:`Mixin` layers may be released elsewhere by the wider
+   community.

 Testing and Quality Assurance
 =============================
@@ -107,7 +143,7 @@ Additionally, because the test strategies are visible to you as a
 developer, you can validate your projects. This section overviews the
 available test infrastructure used in the Yocto Project. For information
 on how to run available tests on your projects, see the
-":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
 section in the Yocto Project Development Tasks Manual.

 The QA/testing infrastructure is woven into the project to the point
@@ -134,7 +170,7 @@ consists of the following pieces:
   operation and functions. However, the test can also use the IP
   address of a machine to test.

-  :ref:`ptest <dev-manual/common-tasks:testing packages with ptest>`:
+-  :ref:`ptest <dev-manual/packages:testing packages with ptest>`:
   Runs tests against packages produced during the build for a given
   piece of software. The test allows the packages to be run within a
   target image.
@@ -155,14 +191,12 @@ effort has been made to automate the tests so that more people can use
 them and the Yocto Project development team can run them faster and more
 efficiently.

-The Yocto Project's main Autobuilder (&YOCTO_AB_URL;)
-publicly tests each Yocto Project release's code in the
-:term:`OpenEmbedded-Core (OE-Core)`, Poky, and BitBake repositories. The testing
-occurs for both the current state of the "master" branch and also for
+The Yocto Project's main Autobuilder (&YOCTO_AB_URL;) publicly tests each Yocto
+Project release's code in the :oe_git:`openembedded-core </openembedded-core>`,
+:yocto_git:`poky </poky>` and :oe_git:`bitbake </bitbake>` repositories. The
+testing occurs for both the current state of the "master" branch and also for
 submitted patches. Testing for submitted patches usually occurs in the
-"ross/mut" branch in the ``poky-contrib`` repository (i.e. the
-master-under-test branch) or in the "master-next" branch in the ``poky``
-repository.
+in the "master-next" branch in the :yocto_git:`poky </poky>` repository.

 .. note::

--- a/documentation/ref-manual/resources.rst
+++ b/documentation/ref-manual/resources.rst
@@ -23,8 +23,7 @@ The Yocto Project gladly accepts contributions. You can submit changes
 to the project either by creating and sending pull requests, or by
 submitting patches through email. For information on how to do both as
 well as information on how to identify the maintainer for each area of
-code, see the ":ref:`dev-manual/common-tasks:submitting a change to the yocto project`" section in the
-Yocto Project Development Tasks Manual.
+code, see the :doc:`../contributor-guide/index`.

 .. _resources-bugtracker:

@@ -46,8 +45,8 @@ your expectations).
 For a general procedure and guidelines on how to use Bugzilla to submit a bug
 against the Yocto Project, see the following:

-  The ":ref:`dev-manual/common-tasks:submitting a defect against the yocto project`"
-   section in the Yocto Project Development Tasks Manual.
+-  The ":doc:`../contributor-guide/report-defect`"
+   section in the Yocto Project and OpenEmbedded Contributor Guide.

 -  The Yocto Project :yocto_wiki:`Bugzilla wiki page </Bugzilla_Configuration_and_Bug_Tracking>`

--- a/documentation/ref-manual/structure.rst
+++ b/documentation/ref-manual/structure.rst
@@ -175,7 +175,7 @@ within the :term:`Source Directory`. If you design a
 custom distribution, you can include your own version of this
 configuration file to mention the targets defined by your distribution.
 See the
-":ref:`dev-manual/common-tasks:creating a custom template configuration directory`"
+":ref:`dev-manual/custom-template-configuration-directory:creating a custom template configuration directory`"
 section in the Yocto Project Development Tasks Manual for more
 information.

@@ -191,7 +191,7 @@ Directory named ``mybuilds/`` that is outside of the :term:`Source Directory`::
 The OpenEmbedded build system uses the template configuration files, which
 are found by default in the ``meta-poky/conf/`` directory in the Source
 Directory. See the
-":ref:`dev-manual/common-tasks:creating a custom template configuration directory`"
+":ref:`dev-manual/custom-template-configuration-directory:creating a custom template configuration directory`"
 section in the Yocto Project Development Tasks Manual for more
 information.

@@ -234,7 +234,7 @@ The OpenEmbedded build system creates this directory when you enable
 build history via the :ref:`buildhistory <ref-classes-buildhistory>` class file. The directory
 organizes build information into image, packages, and SDK
 subdirectories. For information on the build history feature, see the
-":ref:`dev-manual/common-tasks:maintaining build output quality`"
+":ref:`dev-manual/build-quality:maintaining build output quality`"
 section in the Yocto Project Development Tasks Manual.

 .. _structure-build-conf-local.conf:
@@ -289,7 +289,7 @@ file, it uses ``sed`` to substitute final
 ----------------------------

 This configuration file defines
-:ref:`layers <dev-manual/common-tasks:understanding and creating layers>`,
+:ref:`layers <dev-manual/layers:understanding and creating layers>`,
 which are directory trees, traversed (or walked) by BitBake. The
 ``bblayers.conf`` file uses the :term:`BBLAYERS`
 variable to list the layers BitBake tries to find.
@@ -434,7 +434,7 @@ directory contains sub-directories for ``bash``, ``busybox``, and
 ``glibc`` (among others) that in turn contain appropriate ``COPYING``
 license files with other licensing information. For information on
 licensing, see the
-":ref:`dev-manual/common-tasks:maintaining open source license compliance during your product's lifecycle`"
+":ref:`dev-manual/licenses:maintaining open source license compliance during your product's lifecycle`"
 section in the Yocto Project Development Tasks Manual.

 .. _structure-build-tmp-deploy-images:
@@ -571,7 +571,7 @@ built within the Yocto Project. For this package, a work directory of
 ``tmp/work/qemux86-poky-linux/linux-yocto/3.0+git1+<.....>``, referred
 to as the :term:`WORKDIR`, is created. Within this directory, the source is
 unpacked to ``linux-qemux86-standard-build`` and then patched by Quilt.
-(See the ":ref:`dev-manual/common-tasks:using quilt in your workflow`" section in
+(See the ":ref:`dev-manual/quilt:using quilt in your workflow`" section in
 the Yocto Project Development Tasks Manual for more information.) Within
 the ``linux-qemux86-standard-build`` directory, standard Quilt
 directories ``linux-3.0/patches`` and ``linux-3.0/.pc`` are created, and
--- a/documentation/ref-manual/svg/releases.svg
+++ b/documentation/ref-manual/svg/releases.svg
--- a/documentation/ref-manual/system-requirements.rst
+++ b/documentation/ref-manual/system-requirements.rst
@@ -34,15 +34,38 @@ and conceptual information in the :doc:`/overview-manual/index`.
 Supported Linux Distributions
 =============================

-Currently, the Yocto Project is supported on the following
-distributions:
-
-  Ubuntu 18.04 (LTS)
+Currently, the &DISTRO; release ("&DISTRO_NAME;") of the Yocto Project is
+supported on the following distributions:

 -  Ubuntu 20.04 (LTS)

 -  Ubuntu 22.04 (LTS)

+-  Fedora 37
+
+-  Debian GNU/Linux 11.x (Bullseye)
+
+-  AlmaLinux 8.8
+
+The following distribution versions are still tested (being listed
+in :term:`SANITY_TESTED_DISTROS`), even though the organizations
+publishing them no longer make updates publicly available:
+
+-  Ubuntu 18.04 (LTS)
+
+-  OpenSUSE Leap 15.3
+
+Note that the Yocto Project doesn't have access to private updates
+that some of these versions may have. Therefore, our testing has
+limited value if you have access to such updates.
+
+Finally, here are the distribution versions which were previously
+tested on former revisions of "&DISTRO_NAME;", but no longer are:
+
+-  Ubuntu 16.04 (LTS)
+
+-  Ubuntu 21.10
+
 -  Fedora 34

 -  Fedora 35
@@ -61,10 +84,6 @@ distributions:

 -  Debian GNU/Linux 10.x (Buster)

-  Debian GNU/Linux 11.x (Bullseye)
-
-  OpenSUSE Leap 15.3
-
 .. note::

   -  While the Yocto Project Team attempts to ensure all Yocto Project
@@ -96,9 +115,8 @@ distributions:
      interested in hearing about your experience. For information on
      how to submit a bug, see the Yocto Project
      :yocto_wiki:`Bugzilla wiki page </Bugzilla_Configuration_and_Bug_Tracking>`
-      and the ":ref:`dev-manual/common-tasks:submitting a defect against the yocto project`"
-      section in the Yocto Project Development Tasks Manual.
-
+      and the ":doc:`../contributor-guide/report-defect`"
+      section in the Yocto Project and OpenEmbedded Contributor Guide.

 Required Packages for the Build Host
 ====================================
--- a/documentation/ref-manual/tasks.rst
+++ b/documentation/ref-manual/tasks.rst
@@ -343,7 +343,7 @@ while ``file2.patch`` would not be applied.
 You can find out more about the patching process in the
 ":ref:`overview-manual/concepts:patching`" section in
 the Yocto Project Overview and Concepts Manual and the
-":ref:`dev-manual/common-tasks:patching code`" section in the
+":ref:`dev-manual/new-recipe:patching code`" section in the
 Yocto Project Development Tasks Manual.

 .. _ref-tasks-populate_lic:
@@ -522,7 +522,7 @@ scratch is guaranteed.
 Starts a shell in which an interactive Python interpreter allows you to
 interact with the BitBake build environment. From within this shell, you
 can directly examine and set bits from the data store and execute
-functions as if within the BitBake environment. See the ":ref:`dev-manual/common-tasks:using a python development shell`" section in
+functions as if within the BitBake environment. See the ":ref:`dev-manual/python-development-shell:using a Python development shell`" section in
 the Yocto Project Development Tasks Manual for more information about
 using ``pydevshell``.

@@ -532,7 +532,7 @@ using ``pydevshell``.
 ---------------

 Starts a shell whose environment is set up for development, debugging,
-or both. See the ":ref:`dev-manual/common-tasks:using a development shell`" section in the
+or both. See the ":ref:`dev-manual/development-shell:using a development shell`" section in the
 Yocto Project Development Tasks Manual for more information about using
 ``devshell``.

@@ -597,7 +597,7 @@ information on how the root filesystem is created.

 Boots an image and performs runtime tests within the image. For
 information on automatically testing images, see the
-":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
 section in the Yocto Project Development Tasks Manual.

 .. _ref-tasks-testimage_auto:
@@ -610,7 +610,7 @@ after it has been built. This task is enabled when you set
 :term:`TESTIMAGE_AUTO` equal to "1".

 For information on automatically testing images, see the
-":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
 section in the Yocto Project Development Tasks Manual.

 Kernel-Related Tasks
--- a/documentation/ref-manual/terms.rst
+++ b/documentation/ref-manual/terms.rst
@@ -21,7 +21,7 @@ universal, the list includes them just in case:

      Information in append files extends or overrides the information in the
      similarly-named recipe file. For an example of an append file in use, see
-      the    ":ref:`dev-manual/common-tasks:appending other layers metadata with your layer`"
+      the    ":ref:`dev-manual/layers:appending other layers metadata with your layer`"
      section in the Yocto Project Development Tasks Manual.

      When you name an append file, you can use the "``%``" wildcard character
@@ -192,6 +192,48 @@ universal, the list includes them just in case:
      of the supported image types that the Yocto Project provides, see the
      ":ref:`ref-manual/images:Images`" chapter.

+   :term:`Initramfs`
+      An Initial RAM Filesystem (:term:`Initramfs`) is an optionally compressed
+      :wikipedia:`cpio <Cpio>` archive which is extracted
+      by the Linux kernel into RAM in a special :wikipedia:`tmpfs <Tmpfs>`
+      instance, used as the initial root filesystem.
+
+      This is a replacement for the legacy init RAM disk ("initrd")
+      technique, booting on an emulated block device in RAM, but being less
+      efficient because of the overhead of going through a filesystem and
+      having to duplicate accessed file contents in the file cache in RAM,
+      as for any block device.
+
+      .. note::
+
+         As far as bootloaders are concerned, :term:`Initramfs` and "initrd"
+         images are still copied to RAM in the same way. That's why most
+	 most bootloaders refer to :term:`Initramfs` images as "initrd"
+	 or "init RAM disk".
+
+      This kind of mechanism is typically used for two reasons:
+
+      -  For booting the same kernel binary on multiple systems requiring
+         different device drivers. The :term:`Initramfs` image is then customized
+	 for each type of system, to include the specific kernel modules
+         necessary to access the final root filesystem. This technique
+	 is used on all GNU / Linux distributions for desktops and servers.
+
+      -  For booting faster. As the root filesystem is extracted into RAM,
+         accessing the first user-space applications is very fast, compared
+         to having to initialize a block device, to access multiple blocks
+         from it, and to go through a filesystem having its own overhead.
+         For example, this allows to display a splashscreen very early,
+	 and to later take care of mounting the final root filesystem and
+         loading less time-critical kernel drivers.
+
+      This cpio archive can either be loaded to RAM by the bootloader,
+      or be included in the kernel binary.
+
+      For information on creating and using an :term:`Initramfs`, see the
+      ":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`"
+      section in the Yocto Project Development Tasks Manual.
+
   :term:`Layer`
      A collection of related recipes. Layers allow you to consolidate related
      metadata to customize your build. Layers also isolate information used
@@ -205,12 +247,18 @@ universal, the list includes them just in case:
      ":ref:`overview-manual/yp-intro:The Yocto Project Layer
      Model`" section in the Yocto Project Overview and Concepts Manual. For
      more detailed information on layers, see the
-      ":ref:`dev-manual/common-tasks:Understanding and Creating
+      ":ref:`dev-manual/layers:Understanding and Creating
      Layers`" section in the Yocto Project Development Tasks Manual. For a
      discussion specifically on BSP Layers, see the ":ref:`bsp-guide/bsp:BSP
      Layers`" section in the Yocto Project Board Support Packages (BSP)
      Developer's Guide.

+   :term:`LTS`
+      This term means "Long Term Support", and in the context of the Yocto
+      Project, it corresponds to selected stable releases for which bug and
+      security fixes are provided for at least four years. See
+      the :ref:`ref-long-term-support-releases` section for details.
+
   :term:`Metadata`
      A key element of the Yocto Project is the Metadata that
      is used to construct a Linux distribution and is contained in the
@@ -230,6 +278,12 @@ universal, the list includes them just in case:
      :yocto_git:`yocto-kernel-cache </yocto-kernel-cache>`
      Git repository.

+   :term:`Mixin`
+      A :term:`Mixin` layer is a layer which can be created by the community to
+      add a specific feature or support a new version of some package for an
+      :term:`LTS` release. See the :ref:`ref-long-term-support-releases`
+      section for details.
+
   :term:`OpenEmbedded-Core (OE-Core)`
      OE-Core is metadata comprised of
      foundational recipes, classes, and associated files that are meant to
@@ -337,7 +391,7 @@ universal, the list includes them just in case:

      The OpenEmbedded Build System can generate such documentation for your
      project, in :term:`SPDX` format, based on all the metadata it used to
-      build the software images. See the ":ref:`dev-manual/common-tasks:creating
+      build the software images. See the ":ref:`dev-manual/sbom:creating
      a software bill of materials`" section of the Development Tasks manual.

   :term:`Source Directory`
@@ -401,14 +455,14 @@ universal, the list includes them just in case:
     section in the Yocto Project Overview and Concepts Manual.

   :term:`SPDX`
-      This term means *Software Package Data Exchange*, and is used as a open
+      This term means *Software Package Data Exchange*, and is used as an open
      standard for providing a *Software Bill of Materials* (:term:`SBOM`).
      This standard is developed through a `Linux Foundation project
      <https://spdx.dev/>`__ and is used by the OpenEmbedded Build System to
-      provide an :term:`SBOM` associated to each a software image.
+      provide an :term:`SBOM` associated to each software image.

      For details, see Wikipedia's :wikipedia:`SPDX page <Software_Package_Data_Exchange>`
-      and the ":ref:`dev-manual/common-tasks:creating a software bill of materials`"
+      and the ":ref:`dev-manual/sbom:creating a software bill of materials`"
      section of the Development Tasks manual.

   :term:`Task`
--- a/documentation/ref-manual/variables.rst
+++ b/documentation/ref-manual/variables.rst
@@ -223,7 +223,7 @@ system and gives an overview of their function and contents.
      so that it does contain ``${SRCPV}``.

      For more information see the
-      ":ref:`dev-manual/common-tasks:automatically incrementing a package version number`"
+      ":ref:`dev-manual/packages:automatically incrementing a package version number`"
      section in the Yocto Project Development Tasks Manual.

   :term:`AUTO_SYSLINUXMENU`
@@ -239,7 +239,7 @@ system and gives an overview of their function and contents.
      The list simply presents the tunes that are available. Not all tunes
      may be compatible with a particular machine configuration, or with
      each other in a
-      :ref:`Multilib <dev-manual/common-tasks:combining multiple versions of library files into one image>`
+      :ref:`Multilib <dev-manual/libraries:combining multiple versions of library files into one image>`
      configuration.

      To add a tune to the list, be sure to append it with spaces using the
@@ -304,7 +304,7 @@ system and gives an overview of their function and contents.
   :term:`BASE_LIB`
      The library directory name for the CPU or Application Binary
      Interface (ABI) tune. The :term:`BASE_LIB` applies only in the Multilib
-      context. See the ":ref:`dev-manual/common-tasks:combining multiple versions of library files into one image`"
+      context. See the ":ref:`dev-manual/libraries:combining multiple versions of library files into one image`"
      section in the Yocto Project Development Tasks Manual for information
      on Multilib.

@@ -528,7 +528,7 @@ system and gives an overview of their function and contents.
      is not set higher than "20".

      For more information on speeding up builds, see the
-      ":ref:`dev-manual/common-tasks:speeding up a build`"
+      ":ref:`dev-manual/speeding-up-build:speeding up a build`"
      section in the Yocto Project Development Tasks Manual.

   :term:`BB_SERVER_TIMEOUT`
@@ -725,7 +725,7 @@ system and gives an overview of their function and contents.

      For information on how to use :term:`BBMULTICONFIG` in an environment
      that supports building targets with multiple configurations, see the
-      ":ref:`dev-manual/common-tasks:building images for multiple targets using multiple configurations`"
+      ":ref:`dev-manual/building:building images for multiple targets using multiple configurations`"
      section in the Yocto Project Development Tasks Manual.

   :term:`BBPATH`
@@ -971,7 +971,7 @@ system and gives an overview of their function and contents.
      When inheriting the :ref:`buildhistory <ref-classes-buildhistory>`
      class, this variable specifies the build history features to be
      enabled. For more information on how build history works, see the
-      ":ref:`dev-manual/common-tasks:maintaining build output quality`"
+      ":ref:`dev-manual/build-quality:maintaining build output quality`"
      section in the Yocto Project Development Tasks Manual.

      You can specify these features in the form of a space-separated list:
@@ -1156,6 +1156,26 @@ system and gives an overview of their function and contents.
      optional at the distribution level, in case the hardware supports
      Bluetooth but you do not ever intend to use it.

+   :term:`COMMERCIAL_AUDIO_PLUGINS`
+      This variable is specific to the :yocto_git:`GStreamer recipes
+      </poky/tree/meta/recipes-multimedia/gstreamer/gstreamer1.0-meta-base.bb>`.
+      It allows to build the GStreamer `"ugly"
+      <https://github.com/GStreamer/gst-plugins-ugly>`__ and
+      `"bad" <https://github.com/GStreamer/gst-plugins-bad>`__ audio plugins.
+
+      See the :ref:`dev-manual/licenses:other variables related to commercial licenses`
+      section for usage details.
+
+   :term:`COMMERCIAL_VIDEO_PLUGINS`
+      This variable is specific to the :yocto_git:`GStreamer recipes
+      </poky/tree/meta/recipes-multimedia/gstreamer/gstreamer1.0-meta-base.bb>`.
+      It allows to build the GStreamer `"ugly"
+      <https://github.com/GStreamer/gst-plugins-ugly>`__ and
+      `"bad" <https://github.com/GStreamer/gst-plugins-bad>`__ video plugins.
+
+      See the :ref:`dev-manual/licenses:other variables related to commercial licenses`
+      section for usage details.
+
   :term:`COMMON_LICENSE_DIR`
      Points to ``meta/files/common-licenses`` in the
      :term:`Source Directory`, which is where generic license
@@ -1274,8 +1294,8 @@ system and gives an overview of their function and contents.
      If you specify multiple directories and files, the initramfs image
      will be the aggregate of all of them.

-      For information on creating an initramfs, see the
-      ":ref:`dev-manual/common-tasks:building an initial ram filesystem (initramfs) image`" section
+      For information on creating an :term:`Initramfs`, see the
+      ":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`" section
      in the Yocto Project Development Tasks Manual.

   :term:`CONFIG_SITE`
@@ -1310,7 +1330,7 @@ system and gives an overview of their function and contents.
         newly installed packages to an image, which might be most suitable for
         read-only filesystems that cannot be upgraded. See the
         :term:`LICENSE_CREATE_PACKAGE` variable for additional information.
-         You can also reference the ":ref:`dev-manual/common-tasks:providing license text`"
+         You can also reference the ":ref:`dev-manual/licenses:providing license text`"
         section in the Yocto Project Development Tasks Manual for
         information on providing license text.

@@ -1326,7 +1346,7 @@ system and gives an overview of their function and contents.
         newly installed packages to an image, which might be most suitable for
         read-only filesystems that cannot be upgraded. See the
         :term:`LICENSE_CREATE_PACKAGE` variable for additional information.
-         You can also reference the ":ref:`dev-manual/common-tasks:providing license text`"
+         You can also reference the ":ref:`dev-manual/licenses:providing license text`"
         section in the Yocto Project Development Tasks Manual for
         information on providing license text.

@@ -2071,11 +2091,10 @@ system and gives an overview of their function and contents.
      less).

   :term:`ERR_REPORT_DIR`
-      When used with the :ref:`report-error <ref-classes-report-error>`
-      class, specifies the path used for storing the debug files created by
-      the :ref:`error reporting
-      tool <dev-manual/common-tasks:using the error reporting tool>`, which
-      allows you to submit build errors you encounter to a central
+      When used with the :ref:`ref-classes-report-error` class, specifies the
+      path used for storing the debug files created by the :ref:`error reporting
+      tool <dev-manual/error-reporting-tool:using the error reporting tool>`,
+      which allows you to submit build errors you encounter to a central
      database. By default, the value of this variable is
      ``${``\ :term:`LOG_DIR`\ ``}/error-report``.

@@ -2223,6 +2242,12 @@ system and gives an overview of their function and contents.
      :ref:`kernel-yocto <ref-classes-kernel-yocto>` class in
      ``meta/classes`` to see how the variable is used.

+   :term:`EXTERNAL_TOOLCHAIN`
+      When you intend to use an
+      :ref:`external toolchain <dev-manual/external-toolchain:optionally using an external toolchain>`,
+      this variable allows to specify the directory where this toolchain was
+      installed.
+
   :term:`EXTERNALSRC`
      When inheriting the :ref:`externalsrc <ref-classes-externalsrc>`
      class, this variable points to the source tree, which is outside of
@@ -2232,7 +2257,7 @@ system and gives an overview of their function and contents.

      See the ":ref:`ref-classes-externalsrc`" section for details. You
      can also find information on how to use this variable in the
-      ":ref:`dev-manual/common-tasks:building software from an external source`"
+      ":ref:`dev-manual/building:building software from an external source`"
      section in the Yocto Project Development Tasks Manual.

   :term:`EXTERNALSRC_BUILD`
@@ -2245,11 +2270,11 @@ system and gives an overview of their function and contents.

      See the ":ref:`ref-classes-externalsrc`" section for details. You
      can also find information on how to use this variable in the
-      ":ref:`dev-manual/common-tasks:building software from an external source`"
+      ":ref:`dev-manual/building:building software from an external source`"
      section in the Yocto Project Development Tasks Manual.

   :term:`EXTRA_AUTORECONF`
-      For recipes inheriting the :ref:`autotools <ref-classes-autotools>`
+      For recipes inheriting the :ref:`ref-classes-autotools`
      class, you can use :term:`EXTRA_AUTORECONF` to specify extra options to
      pass to the ``autoreconf`` command that is executed during the
      :ref:`ref-tasks-configure` task.
@@ -2283,7 +2308,7 @@ system and gives an overview of their function and contents.
          useful if you want to develop against the libraries in the image.
        - "read-only-rootfs" - Creates an image whose root filesystem is
          read-only. See the
-          ":ref:`dev-manual/common-tasks:creating a read-only root filesystem`"
+          ":ref:`dev-manual/read-only-rootfs:creating a read-only root filesystem`"
          section in the Yocto Project Development Tasks Manual for more
          information
        - "tools-debug" - Adds debugging tools such as gdb and strace.
@@ -2296,7 +2321,7 @@ system and gives an overview of their function and contents.
      Project, see the ":ref:`ref-features-image`" section.

      For an example that shows how to customize your image by using this
-      variable, see the ":ref:`dev-manual/common-tasks:customizing images using custom \`\`image_features\`\` and \`\`extra_image_features\`\``"
+      variable, see the ":ref:`dev-manual/customizing-images:customizing images using custom \`\`image_features\`\` and \`\`extra_image_features\`\``"
      section in the Yocto Project Development Tasks Manual.

   :term:`EXTRA_IMAGECMD`
@@ -2345,6 +2370,20 @@ system and gives an overview of their function and contents.
      variable specifies additional configuration options you want to pass
      to the ``scons`` command line.

+   :term:`EXTRA_OEMESON`
+      Additional `Meson <https://mesonbuild.com/>`__ options. See the
+      :ref:`ref-classes-meson` class for additional information.
+
+      In addition to standard Meson options, such options correspond to
+      `Meson build options <https://mesonbuild.com/Build-options.html>`__
+      defined in the ``meson_options.txt`` file in the sources to build.
+      Here is an example::
+
+         EXTRA_OEMESON = "-Dpython=disabled -Dvalgrind=disabled"
+
+      Note that any custom value for the Meson ``--buildtype`` option
+      should be set through the :term:`MESON_BUILDTYPE` variable.
+
   :term:`EXTRA_USERS_PARAMS`
      When inheriting the :ref:`extrausers <ref-classes-extrausers>`
      class, this variable provides image level user and group operations.
@@ -2641,7 +2680,7 @@ system and gives an overview of their function and contents.
      You can find out more about the patching process in the
      ":ref:`overview-manual/concepts:patching`" section
      in the Yocto Project Overview and Concepts Manual and the
-      ":ref:`dev-manual/common-tasks:patching code`" section in
+      ":ref:`dev-manual/new-recipe:patching code`" section in
      the Yocto Project Development Tasks Manual. See the
      :ref:`ref-tasks-patch` task as well.

@@ -2773,7 +2812,7 @@ system and gives an overview of their function and contents.
      Allows to specify an extra search path for ``.so`` files
      in GLib related recipes using GObject introspection,
      and which do not compile without this setting.
-      See the ":ref:`dev-manual/common-tasks:enabling gobject introspection support`"
+      See the ":ref:`dev-manual/gobject-introspection:enabling gobject introspection support`"
      section for details.

   :term:`GITDIR`
@@ -3058,7 +3097,7 @@ system and gives an overview of their function and contents.
      the same files into a ``boot`` directory within the target partition.

      You can find information on how to use the Wic tool in the
-      ":ref:`dev-manual/common-tasks:creating partitioned images using wic`"
+      ":ref:`dev-manual/wic:creating partitioned images using wic`"
      section of the Yocto Project Development Tasks Manual. Reference
      material for Wic is located in the
      ":doc:`/ref-manual/kickstart`" chapter.
@@ -3130,7 +3169,7 @@ system and gives an overview of their function and contents.
      the same files into a ``boot`` directory within the target partition.

      You can find information on how to use the Wic tool in the
-      ":ref:`dev-manual/common-tasks:creating partitioned images using wic`"
+      ":ref:`dev-manual/wic:creating partitioned images using wic`"
      section of the Yocto Project Development Tasks Manual. Reference
      material for Wic is located in the
      ":doc:`/ref-manual/kickstart`" chapter.
@@ -3151,7 +3190,7 @@ system and gives an overview of their function and contents.
      the ":ref:`ref-features-image`" section.

      For an example that shows how to customize your image by using this
-      variable, see the ":ref:`dev-manual/common-tasks:customizing images using custom \`\`image_features\`\` and \`\`extra_image_features\`\``"
+      variable, see the ":ref:`dev-manual/customizing-images:customizing images using custom \`\`image_features\`\` and \`\`extra_image_features\`\``"
      section in the Yocto Project Development Tasks Manual.

   :term:`IMAGE_FSTYPES`
@@ -3206,8 +3245,8 @@ system and gives an overview of their function and contents.
            :term:`PACKAGE_INSTALL` variable, which
            allows the initial RAM filesystem (initramfs) recipe to use a
            fixed set of packages and not be affected by :term:`IMAGE_INSTALL`.
-            For information on creating an initramfs, see the
-            ":ref:`dev-manual/common-tasks:building an initial ram filesystem (initramfs) image`"
+            For information on creating an :term:`Initramfs`, see the
+            ":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`"
            section in the Yocto Project Development Tasks Manual.

         -  Using :term:`IMAGE_INSTALL` with the
@@ -3547,9 +3586,18 @@ system and gives an overview of their function and contents.
   :term:`INCOMPATIBLE_LICENSE`
      Specifies a space-separated list of license names (as they would
      appear in :term:`LICENSE`) that should be excluded
-      from the build. Recipes that provide no alternatives to listed
+      from the build (if set globally), or from an image (if set locally
+      in an image recipe).
+
+      When the variable is set globally, recipes that provide no alternatives to listed
      incompatible licenses are not built. Packages that are individually
      licensed with the specified incompatible licenses will be deleted.
+      Most of the time this does not allow a feasible build (because it becomes impossible
+      to satisfy build time dependencies), so the recommended way to
+      implement license restrictions is to set the variable in specific
+      image recipes where the restrictions must apply. That way there
+      are no build time restrictions, but the license check is still
+      performed when the image's filesystem is assembled from packages.

      There is some support for wildcards in this variable's value,
      however it is restricted to specific licenses. Currently only
@@ -3700,8 +3748,8 @@ system and gives an overview of their function and contents.
      For more information, you can also see the
      :term:`INITRAMFS_IMAGE_BUNDLE`
      variable, which allows the generated image to be bundled inside the
-      kernel image. Additionally, for information on creating an initramfs
-      image, see the ":ref:`dev-manual/common-tasks:building an initial ram filesystem (initramfs) image`" section
+      kernel image. Additionally, for information on creating an :term:`Initramfs`
+      image, see the ":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`" section
      in the Yocto Project Development Tasks Manual.

   :term:`INITRAMFS_IMAGE_BUNDLE`
@@ -3753,7 +3801,7 @@ system and gives an overview of their function and contents.
      See the
      :yocto_git:`local.conf.sample.extended </poky/tree/meta-poky/conf/local.conf.sample.extended>`
      file for additional information. Also, for information on creating an
-      initramfs, see the ":ref:`dev-manual/common-tasks:building an initial ram filesystem (initramfs) image`" section
+      :term:`Initramfs`, see the ":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`" section
      in the Yocto Project Development Tasks Manual.

   :term:`INITRAMFS_LINK_NAME`
@@ -3778,8 +3826,8 @@ system and gives an overview of their function and contents.
      This allows the kernel to bundle an :term:`INITRAMFS_IMAGE` coming from
      a separate multiconfig, this is meant to be used in addition to :term:`INITRAMFS_DEPLOY_DIR_IMAGE`.

-      For more information on how to bundle an initramfs image from a separate
-      multiconfig see the ":ref:`dev-manual/common-tasks:Bundling an Initramfs Image From a Separate Multiconfig`"
+      For more information on how to bundle an :term:`Initramfs` image from a separate
+      multiconfig see the ":ref:`dev-manual/building:Bundling an Initramfs Image From a Separate Multiconfig`"
      section in the Yocto Project Development Tasks Manual.

   :term:`INITRAMFS_NAME`
@@ -4373,7 +4421,7 @@ system and gives an overview of their function and contents.
         The OpenEmbedded build system produces a warning if the variable
         is not set for any given layer.

-      See the ":ref:`dev-manual/common-tasks:creating your own layer`"
+      See the ":ref:`dev-manual/layers:creating your own layer`"
      section in the Yocto Project Development Tasks Manual.

   :term:`LAYERVERSION`
@@ -4422,7 +4470,7 @@ system and gives an overview of their function and contents.
      This variable must be defined for all recipes (unless
      :term:`LICENSE` is set to "CLOSED").

-      For more information, see the ":ref:`dev-manual/common-tasks:tracking license changes`"
+      For more information, see the ":ref:`dev-manual/licenses:tracking license changes`"
      section in the Yocto Project Development Tasks Manual.

   :term:`LICENSE`
@@ -4486,7 +4534,7 @@ system and gives an overview of their function and contents.
      For related information on providing license text, see the
      :term:`COPY_LIC_DIRS` variable, the
      :term:`COPY_LIC_MANIFEST` variable, and the
-      ":ref:`dev-manual/common-tasks:providing license text`"
+      ":ref:`dev-manual/licenses:providing license text`"
      section in the Yocto Project Development Tasks Manual.

   :term:`LICENSE_FLAGS`
@@ -4499,14 +4547,14 @@ system and gives an overview of their function and contents.
      typically used to mark recipes that might require additional licenses
      in order to be used in a commercial product. For more information,
      see the
-      ":ref:`dev-manual/common-tasks:enabling commercially licensed recipes`"
+      ":ref:`dev-manual/licenses:enabling commercially licensed recipes`"
      section in the Yocto Project Development Tasks Manual.

   :term:`LICENSE_FLAGS_ACCEPTED`
      Lists license flags that when specified in
      :term:`LICENSE_FLAGS` within a recipe should not
      prevent that recipe from being built.  For more information, see the
-      ":ref:`dev-manual/common-tasks:enabling commercially licensed recipes`"
+      ":ref:`dev-manual/licenses:enabling commercially licensed recipes`"
      section in the Yocto Project Development Tasks Manual.

   :term:`LICENSE_PATH`
@@ -4785,6 +4833,17 @@ system and gives an overview of their function and contents.
   :term:`MAINTAINER`
      The email address of the distribution maintainer.

+   :term:`MESON_BUILDTYPE`
+      Value of the Meson ``--buildtype`` argument used by the
+      :ref:`ref-classes-meson` class. It defaults to ``debug`` if
+      :term:`DEBUG_BUILD` is set to "1", and ``plain`` otherwise.
+
+      See `Meson build options <https://mesonbuild.com/Builtin-options.html>`__
+      for the values you could set in a recipe. Values such as ``plain``,
+      ``debug``, ``debugoptimized``, ``release`` and ``minsize`` allow
+      you to specify the inclusion of debugging symbols and the compiler
+      optimizations (none, performance or size).
+
   :term:`METADATA_BRANCH`
      The branch currently checked out for the OpenEmbedded-Core layer (path
      determined by :term:`COREBASE`).
@@ -4793,6 +4852,13 @@ system and gives an overview of their function and contents.
      The revision currently checked out for the OpenEmbedded-Core layer (path
      determined by :term:`COREBASE`).

+   :term:`MIME_XDG_PACKAGES`
+      The current implementation of the :ref:`mime-xdg <ref-classes-mime-xdg>`
+      class cannot detect ``.desktop`` files installed through absolute
+      symbolic links. Use this setting to make the class create post-install
+      and post-remove scripts for these packages anyway, to invoke the
+      ``update-destop-database`` command.
+
   :term:`MIRRORS`
      Specifies additional paths from which the OpenEmbedded build system
      gets source code. When the build system searches for source code, it
@@ -5055,7 +5121,7 @@ system and gives an overview of their function and contents.
      Controls how the OpenEmbedded build system spawns interactive
      terminals on the host development system (e.g. using the BitBake
      command with the ``-c devshell`` command-line option). For more
-      information, see the ":ref:`dev-manual/common-tasks:using a development shell`" section in
+      information, see the ":ref:`dev-manual/development-shell:using a development shell`" section in
      the Yocto Project Development Tasks Manual.

      You can use the following values for the :term:`OE_TERMINAL` variable:
@@ -5122,7 +5188,7 @@ system and gives an overview of their function and contents.

         An easy way to see what overrides apply is to search for :term:`OVERRIDES`
         in the output of the ``bitbake -e`` command. See the
-         ":ref:`dev-manual/common-tasks:viewing variable values`" section in the Yocto
+         ":ref:`dev-manual/debugging:viewing variable values`" section in the Yocto
         Project Development Tasks Manual for more information.

   :term:`P`
@@ -5143,7 +5209,7 @@ system and gives an overview of their function and contents.
      specific by using the package name as a suffix.

      You can find out more about applying this variable in the
-      ":ref:`dev-manual/common-tasks:adding custom metadata to packages`"
+      ":ref:`dev-manual/packages:adding custom metadata to packages`"
      section in the Yocto Project Development Tasks Manual.

   :term:`PACKAGE_ARCH`
@@ -5250,7 +5316,7 @@ system and gives an overview of their function and contents.
         use of the :term:`INHIBIT_PACKAGE_DEBUG_SPLIT` variable.

      You can find out more about debugging using GDB by reading the
-      ":ref:`dev-manual/common-tasks:debugging with the gnu project debugger (gdb) remotely`" section
+      ":ref:`dev-manual/debugging:debugging with the gnu project debugger (gdb) remotely`" section
      in the Yocto Project Development Tasks Manual.

   :term:`PACKAGE_EXCLUDE`
@@ -5409,7 +5475,7 @@ system and gives an overview of their function and contents.
      the :ref:`core-image-minimal-initramfs <ref-manual/images:images>`
      image. When working with an initial RAM filesystem (initramfs) image,
      use the :term:`PACKAGE_INSTALL` variable. For information on creating an
-      initramfs, see the ":ref:`dev-manual/common-tasks:building an initial ram filesystem (initramfs) image`" section
+      :term:`Initramfs`, see the ":ref:`dev-manual/building:building an initial ram filesystem (Initramfs) image`" section
      in the Yocto Project Development Tasks Manual.

   :term:`PACKAGE_INSTALL_ATTEMPTONLY`
@@ -5432,7 +5498,7 @@ system and gives an overview of their function and contents.
      :term:`PACKAGE_WRITE_DEPS`.

      For information on running post-installation scripts, see the
-      ":ref:`dev-manual/common-tasks:post-installation scripts`"
+      ":ref:`dev-manual/new-recipe:post-installation scripts`"
      section in the Yocto Project Development Tasks Manual.

   :term:`PACKAGECONFIG`
@@ -5583,7 +5649,7 @@ system and gives an overview of their function and contents.

      For an example of how to use the :term:`PACKAGES_DYNAMIC` variable when
      you are splitting packages, see the
-      ":ref:`dev-manual/common-tasks:handling optional module packaging`"
+      ":ref:`dev-manual/packages:handling optional module packaging`"
      section in the Yocto Project Development Tasks Manual.

   :term:`PACKAGESPLITFUNCS`
@@ -5618,7 +5684,7 @@ system and gives an overview of their function and contents.
         the ``do_compile`` task that result in race conditions, you can clear
         the :term:`PARALLEL_MAKE` variable within the recipe as a workaround. For
         information on addressing race conditions, see the
-         ":ref:`dev-manual/common-tasks:debugging parallel make races`"
+         ":ref:`dev-manual/debugging:debugging parallel make races`"
         section in the Yocto Project Development Tasks Manual.

      For single socket systems (i.e. one CPU), you should not have to
@@ -5628,7 +5694,7 @@ system and gives an overview of their function and contents.
      not set higher than "-j 20".

      For more information on speeding up builds, see the
-      ":ref:`dev-manual/common-tasks:speeding up a build`"
+      ":ref:`dev-manual/speeding-up-build:speeding up a build`"
      section in the Yocto Project Development Tasks Manual.

   :term:`PARALLEL_MAKEINST`
@@ -5648,7 +5714,7 @@ system and gives an overview of their function and contents.
         the ``do_install`` task that result in race conditions, you can
         clear the :term:`PARALLEL_MAKEINST` variable within the recipe as a
         workaround. For information on addressing race conditions, see the
-         ":ref:`dev-manual/common-tasks:debugging parallel make races`"
+         ":ref:`dev-manual/debugging:debugging parallel make races`"
         section in the Yocto Project Development Tasks Manual.

   :term:`PATCHRESOLVE`
@@ -5748,7 +5814,7 @@ system and gives an overview of their function and contents.
      For examples of how this data is used, see the
      ":ref:`overview-manual/concepts:automatically added runtime dependencies`"
      section in the Yocto Project Overview and Concepts Manual and the
-      ":ref:`dev-manual/common-tasks:viewing package information with \`\`oe-pkgdata-util\`\``"
+      ":ref:`dev-manual/debugging:viewing package information with \`\`oe-pkgdata-util\`\``"
      section in the Yocto Project Development Tasks Manual. For more
      information on the shared, global-state directory, see
      :term:`STAGING_DIR_HOST`.
@@ -5864,7 +5930,7 @@ system and gives an overview of their function and contents.

      Because manually managing :term:`PR` can be cumbersome and error-prone,
      an automated solution exists. See the
-      ":ref:`dev-manual/common-tasks:working with a pr service`" section
+      ":ref:`dev-manual/packages:working with a pr service`" section
      in the Yocto Project Development Tasks Manual for more information.

   :term:`PREFERRED_PROVIDER`
@@ -5887,7 +5953,7 @@ system and gives an overview of their function and contents.
         PREFERRED_PROVIDER_virtual/libgl ?= "mesa"

      For more
-      information, see the ":ref:`dev-manual/common-tasks:using virtual providers`"
+      information, see the ":ref:`dev-manual/new-recipe:using virtual providers`"
      section in the Yocto Project Development Tasks Manual.

      .. note::
@@ -6087,7 +6153,7 @@ system and gives an overview of their function and contents.

      You must
      set the variable if you want to automatically start a local :ref:`PR
-      service <dev-manual/common-tasks:working with a pr service>`. You can
+      service <dev-manual/packages:working with a pr service>`. You can
      set :term:`PRSERV_HOST` to other values to use a remote PR service.


@@ -6101,7 +6167,7 @@ system and gives an overview of their function and contents.

   :term:`PTEST_ENABLED`
      Specifies whether or not :ref:`Package
-      Test <dev-manual/common-tasks:testing packages with ptest>` (ptest)
+      Test <dev-manual/packages:testing packages with ptest>` (ptest)
      functionality is enabled when building a recipe. You should not set
      this variable directly. Enabling and disabling building Package Tests
      at build time should be done by adding "ptest" to (or removing it
@@ -7213,10 +7279,42 @@ system and gives an overview of their function and contents.
      various ``SPL_*`` variables used by the OpenEmbedded build system.

      See the BeagleBone machine configuration example in the
-      ":ref:`dev-manual/common-tasks:adding a layer using the \`\`bitbake-layers\`\` script`"
+      ":ref:`dev-manual/layers:adding a layer using the \`\`bitbake-layers\`\` script`"
      section in the Yocto Project Board Support Package Developer's Guide
      for additional information.

+   :term:`SPLASH_IMAGES`
+      This variable, used by the ``psplash`` recipe, allows to customize
+      the default splashscreen image.
+
+      Specified images in PNG format are converted to ``.h`` files by the recipe,
+      and are included in the ``psplash`` binary, so you won't find them in
+      the root filesystem.
+
+      To make such a change, it is recommended to customize the
+      ``psplash`` recipe in a custom layer. Here is an example structure for
+      an ``ACME`` board::
+
+          meta-acme/recipes-core/psplash
+          ├── files
+          │   └── logo-acme.png
+          └── psplash_%.bbappend
+
+      And here are the contents of the ``psplash_%.bbappend`` file in
+      this example::
+
+          SPLASH_IMAGES = "file://logo-acme.png;outsuffix=default"
+          FILESEXTRAPATHS:prepend := "${THISDIR}/files:"
+
+      You could even add specific configuration options for ``psplash``,
+      for example::
+
+          EXTRA_OECONF += "--disable-startup-msg --enable-img-fullscreen"
+
+      For information on append files, see the
+      ":ref:`dev-manual/layers:appending other layers metadata with your layer`"
+      section.
+
   :term:`SRC_URI`

      See the BitBake manual for the initial description for this variable:
@@ -7305,7 +7403,7 @@ system and gives an overview of their function and contents.
         For information on limitations when inheriting the latest revision
         of software using :term:`SRCREV`, see the :term:`AUTOREV` variable
         description and the
-         ":ref:`dev-manual/common-tasks:automatically incrementing a package version number`"
+         ":ref:`dev-manual/packages:automatically incrementing a package version number`"
         section, which is in the Yocto Project Development Tasks Manual.

   :term:`SRCTREECOVEREDTASKS`
@@ -7807,8 +7905,7 @@ system and gives an overview of their function and contents.
         SYSTEMD_SERVICE:${PN} = "connman.service"

   :term:`SYSVINIT_ENABLED_GETTYS`
-      When using
-      :ref:`SysVinit <dev-manual/common-tasks:enabling system services>`,
+      When using :ref:`SysVinit <dev-manual/new-recipe:enabling system services>`,
      specifies a space-separated list of the virtual terminals that should
      run a `getty <https://en.wikipedia.org/wiki/Getty_%28Unix%29>`__
      (allowing login), assuming :term:`USE_VT` is not set to
@@ -8090,7 +8187,7 @@ system and gives an overview of their function and contents.
      file.

      For more information on testing images, see the
-      ":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+      ":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
      section in the Yocto Project Development Tasks Manual.

   :term:`TEST_SERIALCONTROL_CMD`
@@ -8163,7 +8260,7 @@ system and gives an overview of their function and contents.
         TEST_SUITES = "test_A test_B"

      For more information on testing images, see the
-      ":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+      ":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
      section in the Yocto Project Development Tasks Manual.

   :term:`TEST_TARGET`
@@ -8182,7 +8279,7 @@ system and gives an overview of their function and contents.
      You can provide the following arguments with :term:`TEST_TARGET`:

      -  *"qemu":* Boots a QEMU image and runs the tests. See the
-         ":ref:`dev-manual/common-tasks:enabling runtime tests on qemu`" section
+         ":ref:`dev-manual/runtime-testing:enabling runtime tests on qemu`" section
         in the Yocto Project Development Tasks Manual for more
         information.

@@ -8198,7 +8295,7 @@ system and gives an overview of their function and contents.
            ``meta/lib/oeqa/controllers/simpleremote.py``.

      For information on running tests on hardware, see the
-      ":ref:`dev-manual/common-tasks:enabling runtime tests on hardware`"
+      ":ref:`dev-manual/runtime-testing:enabling runtime tests on hardware`"
      section in the Yocto Project Development Tasks Manual.

   :term:`TEST_TARGET_IP`
@@ -8235,7 +8332,7 @@ system and gives an overview of their function and contents.

      For more information
      on enabling, running, and writing these tests, see the
-      ":ref:`dev-manual/common-tasks:performing automated runtime testing`"
+      ":ref:`dev-manual/runtime-testing:performing automated runtime testing`"
      section in the Yocto Project Development Tasks Manual and the
      ":ref:`ref-classes-testimage*`" section.

@@ -8694,16 +8791,15 @@ system and gives an overview of their function and contents.
      specifically set. Typically, you would set :term:`USE_DEVFS` to "0" for a
      statically populated ``/dev`` directory.

-      See the ":ref:`dev-manual/common-tasks:selecting a device manager`" section in
+      See the ":ref:`dev-manual/device-manager:selecting a device manager`" section in
      the Yocto Project Development Tasks Manual for information on how to
      use this variable.

   :term:`USE_VT`
      When using
-      :ref:`SysVinit <dev-manual/common-tasks:enabling system services>`,
-      determines whether or not to run a
-      `getty <https://en.wikipedia.org/wiki/Getty_%28Unix%29>`__ on any
-      virtual terminals in order to enable logging in through those
+      :ref:`SysVinit <dev-manual/new-recipe:enabling system services>`,
+      determines whether or not to run a :wikipedia:`getty <Getty_(Unix)>`
+      on any virtual terminals in order to enable logging in through those
      terminals.

      The default value used for :term:`USE_VT` is "1" when no default value is
@@ -8868,7 +8964,7 @@ system and gives an overview of their function and contents.
      OpenEmbedded build system to create a partitioned image
      (``image.wic``). For information on how to create a partitioned
      image, see the
-      ":ref:`dev-manual/common-tasks:creating partitioned images using wic`"
+      ":ref:`dev-manual/wic:creating partitioned images using wic`"
      section in the Yocto Project Development Tasks Manual. For details on
      the kickstart file format, see the ":doc:`/ref-manual/kickstart`" Chapter.

@@ -8896,6 +8992,19 @@ system and gives an overview of their function and contents.
      previous example, some-native-tool would be replaced with an actual
      native tool on which the build would depend.

+   :term:`WKS_FILES`
+      Specifies a list of candidate Wic kickstart files to be used by the
+      OpenEmbedded build system to create a partitioned image. Only the
+      first one that is found, from left to right, will be used.
+
+      This is only useful when there are multiple ``.wks`` files that can be
+      used to produce an image. A typical case is when multiple layers are
+      used for different hardware platforms, each supplying a different
+      ``.wks`` file. In this case, you specify all possible ones through
+      :term:`WKS_FILES`.
+
+      If only one ``.wks`` file is used, set :term:`WKS_FILE` instead.
+
   :term:`WORKDIR`
      The pathname of the work directory in which the OpenEmbedded build
      system builds a recipe. This directory is located within the
--- a/documentation/sdk-manual/extensible.rst
+++ b/documentation/sdk-manual/extensible.rst
@@ -41,6 +41,44 @@ functionality.
 Installing the Extensible SDK
 =============================

+Two ways to install the Extensible SDK
+--------------------------------------
+
+Extensible SDK can be installed in two different ways, and both have
+their own pros and cons:
+
+#. *Setting up the Extensible SDK environment directly in a Yocto build*. This
+   avoids having to produce, test, distribute and maintain separate SDK
+   installer archives, which can get very large. There is only one environment
+   for the regular Yocto build and the SDK and less code paths where things can
+   go not according to plan. It's easier to update the SDK: it simply means
+   updating the Yocto layers with git fetch or layer management tooling. The
+   SDK extensibility is better than in the second option: just run ``bitbake``
+   again to add more things to the sysroot, or add layers if even more things
+   are required.
+
+#. *Setting up the Extensible SDK from a standalone installer*. This has the
+   benefit of having a single, self-contained archive that includes all the
+   needed binary artifacts. So nothing needs to be rebuilt, and there is no
+   need to provide a well-functioning binary artefact cache over the network
+   for developers with underpowered laptops.
+
+Setting up the Extensible SDK environment directly in a Yocto build
+-------------------------------------------------------------------
+
+#. Set up all the needed layers and a Yocto :term:`Build Directory`, e.g. a regular Yocto
+   build where ``bitbake`` can be executed.
+
+#. Run::
+
+      $ bitbake meta-ide-support
+      $ bitbake -c populate_sysroot gtk+3
+      # or any other target or native item that the application developer would need
+      $ bitbake build-sysroots
+
+Setting up the Extensible SDK from a standalone installer
+---------------------------------------------------------
+
 The first thing you need to do is install the SDK on your :term:`Build
 Host` by running the ``*.sh`` installation script.

@@ -102,16 +140,7 @@ must be writable for whichever users need to use the SDK.
 The following command shows how to run the installer given a toolchain
 tarball for a 64-bit x86 development host system and a 64-bit x86 target
 architecture. The example assumes the SDK installer is located in
-``~/Downloads/`` and has execution rights.
-
-.. note::
-
-   If you do not have write permissions for the directory into which you
-   are installing the SDK, the installer notifies you and exits. For
-   that case, set up the proper permissions in the directory and run the
-   installer again.
-
-::
+``~/Downloads/`` and has execution rights::

   $ ./Downloads/poky-glibc-x86_64-core-image-minimal-core2-64-toolchain-ext-2.5.sh
   Poky (Yocto Project Reference Distro) Extensible SDK installer version 2.5
@@ -132,11 +161,23 @@ architecture. The example assumes the SDK installer is located in
   Each time you wish to use the SDK in a new shell session, you need to source the environment setup script e.g.
    $ . /home/scottrif/poky_sdk/environment-setup-core2-64-poky-linux

+.. note::
+
+   If you do not have write permissions for the directory into which you
+   are installing the SDK, the installer notifies you and exits. For
+   that case, set up the proper permissions in the directory and run the
+   installer again.
+
 Running the Extensible SDK Environment Setup Script
 ===================================================

 Once you have the SDK installed, you must run the SDK environment setup
-script before you can actually use the SDK. This setup script resides in
+script before you can actually use the SDK.
+
+When using a SDK directly in a Yocto build, you will find the script in
+``tmp/deploy/images/qemux86-64/`` in your :term:`Build Directory`.
+
+When using a standalone SDK installer, this setup script resides in
 the directory you chose when you installed the SDK, which is either the
 default ``poky_sdk`` directory or the directory you chose during
 installation.
@@ -154,11 +195,14 @@ script is for an IA-based target machine using i586 tuning::
   SDK environment now set up; additionally you may now run devtool to perform development tasks.
   Run devtool --help for further details.

-Running the setup script defines many environment variables needed in
-order to use the SDK (e.g. ``PATH``,
-:term:`CC`,
-:term:`LD`, and so forth). If you want to
-see all the environment variables the script exports, examine the
+When using the environment script directly in a Yocto build, it can
+be run similarly::
+
+   $ source tmp/deploy/images/qemux86-64/environment-setup-core2-64-poky-linux
+
+Running the setup script defines many environment variables needed in order to
+use the SDK (e.g. ``PATH``, :term:`CC`, :term:`LD`, and so forth). If you want
+to see all the environment variables the script exports, examine the
 installation file itself.

 Using ``devtool`` in Your SDK Workflow
@@ -172,11 +216,8 @@ system.

 .. note::

-   The use of
-   devtool
-   is not limited to the extensible SDK. You can use
-   devtool
-   to help you easily develop any project whose build output must be
+   The use of ``devtool`` is not limited to the extensible SDK. You can use
+   ``devtool`` to help you easily develop any project whose build output must be
   part of an image built using the build system.

 The ``devtool`` command line is organized similarly to
@@ -186,15 +227,10 @@ all the commands.

 .. note::

-   See the "
-   devtool
-    Quick Reference
-   " in the Yocto Project Reference Manual for a
-   devtool
-   quick reference.
+   See the ":doc:`/ref-manual/devtool-reference`"
+   section in the Yocto Project Reference Manual.

-Three ``devtool`` subcommands provide entry-points into
-development:
+Three ``devtool`` subcommands provide entry-points into development:

 -  *devtool add*: Assists in adding new software to be built.

@@ -233,9 +269,9 @@ shows common development flows you would use with the ``devtool add``
 command:

 .. image:: figures/sdk-devtool-add-flow.png
-   :align: center
+   :width: 100%

-1. *Generating the New Recipe*: The top part of the flow shows three
+#. *Generating the New Recipe*: The top part of the flow shows three
   scenarios by which you could use ``devtool add`` to generate a recipe
   based on existing source code.

@@ -252,7 +288,7 @@ command:
   -  *Left*: The left scenario in the figure represents a common
      situation where the source code does not exist locally and needs
      to be extracted. In this situation, the source code is extracted
-      to the default workspace - you do not want the files in some
+      to the default workspace --- you do not want the files in some
      specific location outside of the workspace. Thus, everything you
      need will be located in the workspace::

@@ -267,13 +303,12 @@ command:
   -  *Middle*: The middle scenario in the figure also represents a
      situation where the source code does not exist locally. In this
      case, the code is again upstream and needs to be extracted to some
-      local area - this time outside of the default workspace.
+      local area --- this time outside of the default workspace.

      .. note::

-         If required,
-         devtool
-         always creates a Git repository locally during the extraction.
+         If required, ``devtool`` always creates a Git repository locally
+         during the extraction.

      Furthermore, the first positional argument ``srctree`` in this case
      identifies where the ``devtool add`` command will locate the
@@ -282,8 +317,7 @@ command:

         $ devtool add recipe srctree fetchuri

-      In summary,
-      the source code is pulled from fetchuri and extracted into the
+      In summary, the source code is pulled from fetchuri and extracted into the
      location defined by ``srctree`` as a local Git repository.

      Within workspace, ``devtool`` creates a recipe named recipe along
@@ -302,28 +336,26 @@ command:
      recipe for the code and places the recipe into the workspace.

      Because the extracted source code already exists, ``devtool`` does
-      not try to relocate the source code into the workspace - only the
+      not try to relocate the source code into the workspace --- only the
      new recipe is placed in the workspace.

      Aside from a recipe folder, the command also creates an associated
      append folder and places an initial ``*.bbappend`` file within.

-2. *Edit the Recipe*: You can use ``devtool edit-recipe`` to open up the
+#. *Edit the Recipe*: You can use ``devtool edit-recipe`` to open up the
   editor as defined by the ``$EDITOR`` environment variable and modify
   the file::

      $ devtool edit-recipe recipe

-   From within the editor, you
-   can make modifications to the recipe that take effect when you build
-   it later.
+   From within the editor, you can make modifications to the recipe that
+   take effect when you build it later.

-3. *Build the Recipe or Rebuild the Image*: The next step you take
+#. *Build the Recipe or Rebuild the Image*: The next step you take
   depends on what you are going to do with the new code.

   If you need to eventually move the build output to the target
-   hardware, use the following ``devtool`` command:
-   :;
+   hardware, use the following ``devtool`` command::

      $ devtool build recipe

@@ -334,7 +366,7 @@ command:

      $ devtool build-image image

-4. *Deploy the Build Output*: When you use the ``devtool build`` command
+#. *Deploy the Build Output*: When you use the ``devtool build`` command
   to build out your recipe, you probably want to see if the resulting
   build output works as expected on the target hardware.

@@ -348,20 +380,22 @@ command:
      development machine.

   You can deploy your build output to that target hardware by using the
-   ``devtool deploy-target`` command: $ devtool deploy-target recipe
-   target The target is a live target machine running as an SSH server.
+   ``devtool deploy-target`` command::
+
+      $ devtool deploy-target recipe target
+
+   The target is a live target machine running as an SSH server.

   You can, of course, also deploy the image you build to actual
   hardware by using the ``devtool build-image`` command. However,
   ``devtool`` does not provide a specific command that allows you to
   deploy the image to actual hardware.

-5. *Finish Your Work With the Recipe*: The ``devtool finish`` command
+#. *Finish Your Work With the Recipe*: The ``devtool finish`` command
   creates any patches corresponding to commits in the local Git
   repository, moves the new recipe to a more permanent layer, and then
   resets the recipe so that the recipe is built normally rather than
-   from the workspace.
-   ::
+   from the workspace::

      $ devtool finish recipe layer

@@ -379,11 +413,9 @@ command:

   .. note::

-      You can use the
-      devtool reset
-      command to put things back should you decide you do not want to
-      proceed with your work. If you do use this command, realize that
-      the source tree is preserved.
+      You can use the ``devtool reset`` command to put things back should you
+      decide you do not want to proceed with your work. If you do use this
+      command, realize that the source tree is preserved.

 Use ``devtool modify`` to Modify the Source of an Existing Component
 --------------------------------------------------------------------
@@ -401,9 +433,9 @@ diagram shows common development flows for the ``devtool modify``
 command:

 .. image:: figures/sdk-devtool-modify-flow.png
-   :align: center
+   :width: 100%

-1. *Preparing to Modify the Code*: The top part of the flow shows three
+#. *Preparing to Modify the Code*: The top part of the flow shows three
   scenarios by which you could use ``devtool modify`` to prepare to
   work on source files. Each scenario assumes the following:

@@ -430,11 +462,9 @@ command:

         $ devtool modify recipe

-      Once
-      ``devtool``\ locates the recipe, ``devtool`` uses the recipe's
-      :term:`SRC_URI` statements to
-      locate the source code and any local patch files from other
-      developers.
+      Once ``devtool`` locates the recipe, ``devtool`` uses the recipe's
+      :term:`SRC_URI` statements to locate the source code and any local
+      patch files from other developers.

      With this scenario, there is no ``srctree`` argument. Consequently, the
      default behavior of the ``devtool modify`` command is to extract
@@ -470,11 +500,7 @@ command:

      .. note::

-         You cannot provide a URL for
-         srctree
-         using the
-         devtool
-         command.
+         You cannot provide a URL for ``srctree`` using the ``devtool`` command.

      As with all extractions, the command uses the recipe's :term:`SRC_URI`
      statements to locate the source files and any associated patch
@@ -512,11 +538,11 @@ command:
      append file for the recipe in the ``devtool`` workspace. The
      recipe and the source code remain in their original locations.

-2. *Edit the Source*: Once you have used the ``devtool modify`` command,
+#. *Edit the Source*: Once you have used the ``devtool modify`` command,
   you are free to make changes to the source files. You can use any
   editor you like to make and save your source code modifications.

-3. *Build the Recipe or Rebuild the Image*: The next step you take
+#. *Build the Recipe or Rebuild the Image*: The next step you take
   depends on what you are going to do with the new code.

   If you need to eventually move the build output to the target
@@ -527,9 +553,11 @@ command:
   On the other hand, if you want an image to contain the recipe's
   packages from the workspace for immediate deployment onto a device
   (e.g. for testing purposes), you can use the ``devtool build-image``
-   command: $ devtool build-image image
+   command::

-4. *Deploy the Build Output*: When you use the ``devtool build`` command
+      $ devtool build-image image
+
+#. *Deploy the Build Output*: When you use the ``devtool build`` command
   to build out your recipe, you probably want to see if the resulting
   build output works as expected on target hardware.

@@ -554,13 +582,12 @@ command:
   ``devtool`` does not provide a specific command to deploy the image
   to actual hardware.

-5. *Finish Your Work With the Recipe*: The ``devtool finish`` command
+#. *Finish Your Work With the Recipe*: The ``devtool finish`` command
   creates any patches corresponding to commits in the local Git
   repository, updates the recipe to point to them (or creates a
   ``.bbappend`` file to do so, depending on the specified destination
   layer), and then resets the recipe so that the recipe is built
-   normally rather than from the workspace.
-   ::
+   normally rather than from the workspace::

      $ devtool finish recipe layer

@@ -568,8 +595,7 @@ command:

      Any changes you want to turn into patches must be staged and
      committed within the local Git repository before you use the
-      devtool finish
-      command.
+      ``devtool finish`` command.

   Because there is no need to move the recipe, ``devtool finish``
   either updates the original recipe in the original layer or the
@@ -584,11 +610,9 @@ command:

   .. note::

-      You can use the
-      devtool reset
-      command to put things back should you decide you do not want to
-      proceed with your work. If you do use this command, realize that
-      the source tree is preserved.
+      You can use the ``devtool reset`` command to put things back should you
+      decide you do not want to proceed with your work. If you do use this
+      command, realize that the source tree is preserved.

 Use ``devtool upgrade`` to Create a Version of the Recipe that Supports a Newer Version of the Software
 -------------------------------------------------------------------------------------------------------
@@ -602,27 +626,25 @@ counterparts.

 .. note::

-   Several methods exist by which you can upgrade recipes -
-   ``devtool upgrade``
-   happens to be one. You can read about all the methods by which you
-   can upgrade recipes in the
-   :ref:`dev-manual/common-tasks:upgrading recipes` section
-   of the Yocto Project Development Tasks Manual.
+   Several methods exist by which you can upgrade recipes ---
+   ``devtool upgrade`` happens to be one. You can read about all the methods by
+   which you can upgrade recipes in the
+   :ref:`dev-manual/upgrading-recipes:upgrading recipes` section of the Yocto
+   Project Development Tasks Manual.

-The ``devtool upgrade`` command is flexible enough to allow you to
-specify source code revision and versioning schemes, extract code into
-or out of the ``devtool``
-:ref:`devtool-the-workspace-layer-structure`,
-and work with any source file forms that the
-:ref:`bitbake:bitbake-user-manual/bitbake-user-manual-fetching:fetchers` support.
+The ``devtool upgrade`` command is flexible enough to allow you to specify
+source code revision and versioning schemes, extract code into or out of the
+``devtool`` :ref:`devtool-the-workspace-layer-structure`, and work with any
+source file forms that the
+:ref:`bitbake-user-manual/bitbake-user-manual-fetching:fetchers` support.

 The following diagram shows the common development flow used with the
 ``devtool upgrade`` command:

 .. image:: figures/sdk-devtool-upgrade-flow.png
-   :align: center
+   :width: 100%

-1. *Initiate the Upgrade*: The top part of the flow shows the typical
+#. *Initiate the Upgrade*: The top part of the flow shows the typical
   scenario by which you use the ``devtool upgrade`` command. The
   following conditions exist:

@@ -674,7 +696,7 @@ The following diagram shows the common development flow used with the
   are incorporated into the build the next time you build the software
   just as are other changes you might have made to the source.

-2. *Resolve any Conflicts created by the Upgrade*: Conflicts could happen
+#. *Resolve any Conflicts created by the Upgrade*: Conflicts could happen
   after upgrading the software to a new version. Conflicts occur
   if your recipe specifies some patch files in :term:`SRC_URI` that
   conflict with changes made in the new version of the software. For
@@ -685,7 +707,7 @@ The following diagram shows the common development flow used with the
   conflicts created through use of a newer or different version of the
   software.

-3. *Build the Recipe or Rebuild the Image*: The next step you take
+#. *Build the Recipe or Rebuild the Image*: The next step you take
   depends on what you are going to do with the new code.

   If you need to eventually move the build output to the target
@@ -700,7 +722,7 @@ The following diagram shows the common development flow used with the

      $ devtool build-image image

-4. *Deploy the Build Output*: When you use the ``devtool build`` command
+#. *Deploy the Build Output*: When you use the ``devtool build`` command
   or ``bitbake`` to build your recipe, you probably want to see if the
   resulting build output works as expected on target hardware.

@@ -714,15 +736,18 @@ The following diagram shows the common development flow used with the
      development machine.

   You can deploy your build output to that target hardware by using the
-   ``devtool deploy-target`` command: $ devtool deploy-target recipe
-   target The target is a live target machine running as an SSH server.
+   ``devtool deploy-target`` command::
+
+      $ devtool deploy-target recipe target
+
+   The target is a live target machine running as an SSH server.

   You can, of course, also deploy the image you build using the
   ``devtool build-image`` command to actual hardware. However,
   ``devtool`` does not provide a specific command that allows you to do
   this.

-5. *Finish Your Work With the Recipe*: The ``devtool finish`` command
+#. *Finish Your Work With the Recipe*: The ``devtool finish`` command
   creates any patches corresponding to commits in the local Git
   repository, moves the new recipe to a more permanent layer, and then
   resets the recipe so that the recipe is built normally rather than
@@ -734,8 +759,7 @@ The following diagram shows the common development flow used with the

   If you specify a destination layer that is the same as the original
   source, then the old version of the recipe and associated files are
-   removed prior to adding the new version.
-   ::
+   removed prior to adding the new version::

      $ devtool finish recipe layer

@@ -750,11 +774,9 @@ The following diagram shows the common development flow used with the

   .. note::

-      You can use the
-      devtool reset
-      command to put things back should you decide you do not want to
-      proceed with your work. If you do use this command, realize that
-      the source tree is preserved.
+      You can use the ``devtool reset`` command to put things back should you
+      decide you do not want to proceed with your work. If you do use this
+      command, realize that the source tree is preserved.

 A Closer Look at ``devtool add``
 ================================
@@ -822,10 +844,9 @@ run ``devtool add`` again and provide the name or the version.
 Dependency Detection and Mapping
 --------------------------------

-The ``devtool add`` command attempts to detect build-time dependencies
-and map them to other recipes in the system. During this mapping, the
-command fills in the names of those recipes as part of the
-:term:`DEPENDS` variable within the
+The ``devtool add`` command attempts to detect build-time dependencies and map
+them to other recipes in the system. During this mapping, the command fills in
+the names of those recipes as part of the :term:`DEPENDS` variable within the
 recipe. If a dependency cannot be mapped, ``devtool`` places a comment
 in the recipe indicating such. The inability to map a dependency can
 result from naming not being recognized or because the dependency simply
@@ -842,10 +863,8 @@ following to your recipe::

 .. note::

-   The
-   devtool add
-   command often cannot distinguish between mandatory and optional
-   dependencies. Consequently, some of the detected dependencies might
+   The ``devtool add`` command often cannot distinguish between mandatory and
+   optional dependencies. Consequently, some of the detected dependencies might
   in fact be optional. When in doubt, consult the documentation or the
   configure script for the software the recipe is building for further
   details. In some cases, you might find you can substitute the
@@ -855,16 +874,14 @@ following to your recipe::
 License Detection
 -----------------

-The ``devtool add`` command attempts to determine if the software you
-are adding is able to be distributed under a common, open-source
-license. If so, the command sets the
-:term:`LICENSE` value accordingly.
+The ``devtool add`` command attempts to determine if the software you are
+adding is able to be distributed under a common, open-source license. If
+so, the command sets the :term:`LICENSE` value accordingly.
 You should double-check the value added by the command against the
 documentation or source files for the software you are building and, if
 necessary, update that :term:`LICENSE` value.

-The ``devtool add`` command also sets the
-:term:`LIC_FILES_CHKSUM`
+The ``devtool add`` command also sets the :term:`LIC_FILES_CHKSUM`
 value to point to all files that appear to be license-related. Realize
 that license statements often appear in comments at the top of source
 files or within the documentation. In such cases, the command does not
@@ -944,10 +961,9 @@ mind:
 Adding Native Tools
 -------------------

-Often, you need to build additional tools that run on the :term:`Build
-Host` as opposed to
-the target. You should indicate this requirement by using one of the
-following methods when you run ``devtool add``:
+Often, you need to build additional tools that run on the :term:`Build Host`
+as opposed to the target. You should indicate this requirement by using one of
+the following methods when you run ``devtool add``:

 -  Specify the name of the recipe such that it ends with "-native".
   Specifying the name like this produces a recipe that only builds for
@@ -971,8 +987,7 @@ Adding Node.js Modules
 ----------------------

 You can use the ``devtool add`` command two different ways to add
-Node.js modules: 1) Through ``npm`` and, 2) from a repository or local
-source.
+Node.js modules: through ``npm`` or from a repository or local source.

 Use the following form to add Node.js modules through ``npm``::

@@ -987,7 +1002,7 @@ these behaviors ensure the reproducibility and integrity of the build.

 .. note::

-   -  You must use quotes around the URL. The ``devtool add`` does not
+   -  You must use quotes around the URL. ``devtool add`` does not
      require the quotes, but the shell considers ";" as a splitter
      between multiple commands. Thus, without the quotes,
      ``devtool add`` does not receive the other parts, which results in
@@ -1002,9 +1017,8 @@ repository or local source tree. To add modules this way, use

   $ devtool add https://github.com/diversario/node-ssdp

-In this example, ``devtool``
-fetches the specified Git repository, detects the code as Node.js code,
-fetches dependencies using ``npm``, and sets
+In this example, ``devtool`` fetches the specified Git repository, detects the
+code as Node.js code, fetches dependencies using ``npm``, and sets
 :term:`SRC_URI` accordingly.

 Working With Recipes
@@ -1013,17 +1027,17 @@ Working With Recipes
 When building a recipe using the ``devtool build`` command, the typical
 build progresses as follows:

-1. Fetch the source
+#. Fetch the source

-2. Unpack the source
+#. Unpack the source

-3. Configure the source
+#. Configure the source

-4. Compile the source
+#. Compile the source

-5. Install the build output
+#. Install the build output

-6. Package the installed output
+#. Package the installed output

 For recipes in the workspace, fetching and unpacking is disabled as the
 source tree has already been prepared and is persistent. Each of these
@@ -1038,9 +1052,8 @@ does not include complete instructions for building the software.
 Instead, common functionality is encapsulated in classes inherited with
 the ``inherit`` directive. This technique leaves the recipe to describe
 just the things that are specific to the software being built. There is
-a :ref:`base <ref-classes-base>` class that
-is implicitly inherited by all recipes and provides the functionality
-that most recipes typically need.
+a :ref:`ref-classes-base` class that is implicitly inherited by all recipes
+and provides the functionality that most recipes typically need.

 The remainder of this section presents information useful when working
 with recipes.
@@ -1066,9 +1079,9 @@ links created within the source tree:
      ``${``\ :term:`D`\ ``}``.

   -  ``sysroot-destdir/``: Contains a subset of files installed within
-      ``do_install`` that have been put into the shared sysroot. For
+      :ref:`ref-tasks-install` that have been put into the shared sysroot. For
      more information, see the
-      ":ref:`dev-manual/common-tasks:sharing files between recipes`" section.
+      ":ref:`dev-manual/new-recipe:sharing files between recipes`" section.

   -  ``packages-split/``: Contains subdirectories for each package
      produced by the recipe. For more information, see the
@@ -1082,18 +1095,13 @@ Setting Configure Arguments

 If the software your recipe is building uses GNU autoconf, then a fixed
 set of arguments is passed to it to enable cross-compilation plus any
-extras specified by
-:term:`EXTRA_OECONF` or
-:term:`PACKAGECONFIG_CONFARGS`
+extras specified by :term:`EXTRA_OECONF` or :term:`PACKAGECONFIG_CONFARGS`
 set within the recipe. If you wish to pass additional options, add them
 to :term:`EXTRA_OECONF` or :term:`PACKAGECONFIG_CONFARGS`. Other supported build
-tools have similar variables (e.g.
-:term:`EXTRA_OECMAKE` for
-CMake, :term:`EXTRA_OESCONS`
-for Scons, and so forth). If you need to pass anything on the ``make``
-command line, you can use :term:`EXTRA_OEMAKE` or the
-:term:`PACKAGECONFIG_CONFARGS`
-variables to do so.
+tools have similar variables (e.g.  :term:`EXTRA_OECMAKE` for CMake,
+:term:`EXTRA_OESCONS` for Scons, and so forth). If you need to pass anything on
+the ``make`` command line, you can use :term:`EXTRA_OEMAKE` or the
+:term:`PACKAGECONFIG_CONFARGS` variables to do so.

 You can use the ``devtool configure-help`` command to help you set the
 arguments listed in the previous paragraph. The command determines the
@@ -1117,8 +1125,7 @@ the build host.

 Recipes should never write files directly into the sysroot. Instead,
 files should be installed into standard locations during the
-:ref:`ref-tasks-install` task within
-the ``${``\ :term:`D`\ ``}`` directory. A
+:ref:`ref-tasks-install` task within the ``${``\ :term:`D`\ ``}`` directory. A
 subset of these files automatically goes into the sysroot. The reason
 for this limitation is that almost all files that go into the sysroot
 are cataloged in manifests in order to ensure they can be removed later
@@ -1134,14 +1141,12 @@ the target device, it is important to understand packaging because the
 contents of the image are expressed in terms of packages and not
 recipes.

-During the :ref:`ref-tasks-package`
-task, files installed during the
-:ref:`ref-tasks-install` task are
-split into one main package, which is almost always named the same as
-the recipe, and into several other packages. This separation exists
-because not all of those installed files are useful in every image. For
-example, you probably do not need any of the documentation installed in
-a production image. Consequently, for each recipe the documentation
+During the :ref:`ref-tasks-package` task, files installed during the
+:ref:`ref-tasks-install` task are split into one main package, which is almost
+always named the same as the recipe, and into several other packages. This
+separation exists because not all of those installed files are useful in every
+image. For example, you probably do not need any of the documentation installed
+in a production image. Consequently, for each recipe the documentation
 files are separated into a ``-doc`` package. Recipes that package
 software containing optional modules or plugins might undergo additional
 package splitting as well.
@@ -1149,8 +1154,7 @@ package splitting as well.
 After building a recipe, you can see where files have gone by looking in
 the ``oe-workdir/packages-split`` directory, which contains a
 subdirectory for each package. Apart from some advanced cases, the
-:term:`PACKAGES` and
-:term:`FILES` variables controls
+:term:`PACKAGES` and :term:`FILES` variables controls
 splitting. The :term:`PACKAGES` variable lists all of the packages to be
 produced, while the :term:`FILES` variable specifies which files to include
 in each package by using an override to specify the package. For
@@ -1192,16 +1196,11 @@ target machine.

 .. note::

-   The
-   devtool deploy-target
-   and
-   devtool undeploy-target
-   commands do not currently interact with any package management system
-   on the target device (e.g. RPM or OPKG). Consequently, you should not
-   intermingle
-   devtool deploy-target
-   and package manager operations on the target device. Doing so could
-   result in a conflicting set of files.
+   The ``devtool deploy-target`` and ``devtool undeploy-target`` commands do
+   not currently interact with any package management system on the target
+   device (e.g. RPM or OPKG). Consequently, you should not intermingle
+   ``devtool deploy-target`` and package manager operations on the target
+   device. Doing so could result in a conflicting set of files.

 Installing Additional Items Into the Extensible SDK
 ===================================================
@@ -1215,9 +1214,25 @@ need to link to libGL but you are not sure which recipe provides libGL.
 You can use the following command to find out::

   $ devtool search libGL mesa
+   A free implementation of the OpenGL API

-A free implementation of the OpenGL API Once you know the recipe
-(i.e. ``mesa`` in this example), you can install it::
+Once you know the recipe
+(i.e. ``mesa`` in this example), you can install it.
+
+When using the extensible SDK directly in a Yocto build
+-------------------------------------------------------
+
+In this scenario, the Yocto build tooling, e.g. ``bitbake``
+is directly accessible to build additional items, and it
+can simply be executed directly::
+
+   $ bitbake mesa
+   $ bitbake build-sysroots
+
+When using a standalone installer for the Extensible SDK
+--------------------------------------------------------
+
+::

   $ devtool sdk-install mesa

@@ -1244,13 +1259,13 @@ To update your installed SDK, use ``devtool`` as follows::

   $ devtool sdk-update

-The previous command assumes your SDK provider has set the
-default update URL for you through the :term:`SDK_UPDATE_URL`
-variable as described in the
+The previous command assumes your SDK provider has set the default update URL
+for you through the :term:`SDK_UPDATE_URL` variable as described in the
 ":ref:`sdk-manual/appendix-customizing:Providing Updates to the Extensible SDK After Installation`"
 section. If the SDK provider has not set that default URL, you need to
-specify it yourself in the command as follows: $ devtool sdk-update
-path_to_update_directory
+specify it yourself in the command as follows::
+
+   $ devtool sdk-update path_to_update_directory

 .. note::

@@ -1267,15 +1282,15 @@ those customers need an SDK that has custom libraries. In such a case,
 you can produce a derivative SDK based on the currently installed SDK
 fairly easily by following these steps:

-1. If necessary, install an extensible SDK that you want to use as a
+#. If necessary, install an extensible SDK that you want to use as a
   base for your derivative SDK.

-2. Source the environment script for the SDK.
+#. Source the environment script for the SDK.

-3. Add the extra libraries or other components you want by using the
+#. Add the extra libraries or other components you want by using the
   ``devtool add`` command.

-4. Run the ``devtool build-sdk`` command.
+#. Run the ``devtool build-sdk`` command.

 The previous steps take the recipes added to the workspace and construct
 a new SDK installer that contains those recipes and the resulting binary
--- a/documentation/template/template.svg
+++ b/documentation/template/template.svg
@@ -1019,7 +1019,7 @@
         id="tspan1183-1-8"
         x="-52.348656"
         y="518.42615"
-         style="font-style:normal;font-variant:normal;font-weight:bold;font-stretch:normal;font-size:37.3333px;font-family:'Liberation Sans';-inkscape-font-specification:'Liberation Sans, Bold';font-variant-ligatures:normal;font-variant-caps:normal;font-variant-numeric:normal;font-variant-east-asian:normal;stroke:none">Objets</tspan></text>
+         style="font-style:normal;font-variant:normal;font-weight:bold;font-stretch:normal;font-size:37.3333px;font-family:'Liberation Sans';-inkscape-font-specification:'Liberation Sans, Bold';font-variant-ligatures:normal;font-variant-caps:normal;font-variant-numeric:normal;font-variant-east-asian:normal;stroke:none">Objects</tspan></text>
    <text
       xml:space="preserve"
       style="font-weight:bold;font-size:13.3333px;line-height:125%;font-family:'Nimbus Roman';-inkscape-font-specification:'Nimbus Roman, Bold';letter-spacing:0px;word-spacing:0px;writing-mode:lr-tb;fill:#000000;fill-opacity:1;stroke:#000000;stroke-width:1px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1"
--- a/documentation/test-manual/intro.rst
+++ b/documentation/test-manual/intro.rst
@@ -142,7 +142,7 @@ the following types of tests:
 -  *Package Testing:* A Package Test (ptest) runs tests against packages
   built by the OpenEmbedded build system on the target machine. See the
   :ref:`Testing Packages With
-   ptest <dev-manual/common-tasks:Testing Packages With ptest>` section
+   ptest <dev-manual/packages:Testing Packages With ptest>` section
   in the Yocto Project Development Tasks Manual and the
   ":yocto_wiki:`Ptest </Ptest>`" Wiki page for more
   information on Ptest.
--- a/documentation/test-manual/yocto-project-compatible.rst
+++ b/documentation/test-manual/yocto-project-compatible.rst
@@ -27,7 +27,7 @@ In the second version of the program, a script was added to make validation
 easier and clearer, the script is called  ``yocto-check-layer`` and is
 available in :term:`OpenEmbedded-Core (OE-Core)`.

-See :ref:`dev-manual/common-tasks:making sure your layer is compatible with yocto project`
+See :ref:`dev-manual/layers:making sure your layer is compatible with yocto project`
 for details.

 ========
--- a/documentation/toaster-manual/reference.rst
+++ b/documentation/toaster-manual/reference.rst
@@ -66,7 +66,7 @@ layers.
 For general information on layers, see the
 ":ref:`overview-manual/yp-intro:the yocto project layer model`"
 section in the Yocto Project Overview and Concepts Manual. For information on how
-to create layers, see the ":ref:`dev-manual/common-tasks:understanding and creating layers`"
+to create layers, see the ":ref:`dev-manual/layers:understanding and creating layers`"
 section in the Yocto Project Development Tasks Manual.

 Configuring Toaster to Hook Into Your Layer Index
--- a/documentation/transitioning-to-a-custom-environment.rst
+++ b/documentation/transitioning-to-a-custom-environment.rst
@@ -42,7 +42,7 @@ Transitioning to a custom environment for systems development
   You might want to start with the build specification that Poky provides
   (which is reference embedded distribution) and then add your newly chosen
   layers to that. Here is the information :ref:`about adding layers
-   <dev-manual/common-tasks:Understanding and Creating Layers>`.
+   <dev-manual/layers:Understanding and Creating Layers>`.

 #. **Based on the layers you've chosen, make needed changes in your
   configuration**.
@@ -58,7 +58,7 @@ Transitioning to a custom environment for systems development
   releases. If you are using a Yocto Project release earlier than 2.4, use the
   ``yocto-layer create`` tool. The ``bitbake-layers`` tool also provides a number
   of other useful layer-related commands. See
-   :ref:`dev-manual/common-tasks:creating a general layer using the
+   :ref:`dev-manual/layers:creating a general layer using the
   \`\`bitbake-layers\`\` script` section.

 #. **Create your own layer for the BSP you're going to use**.
@@ -79,7 +79,7 @@ Transitioning to a custom environment for systems development
   process of refinement. Start by getting each step of the build process
   working beginning with fetching all the way through packaging. Next, run the
   software on your target and refine further as needed. See :ref:`Writing a New
-   Recipe <dev-manual/common-tasks:writing a new recipe>` in the
+   Recipe <dev-manual/new-recipe:writing a new recipe>` in the
   Yocto Project Development Tasks Manual for more information.

 #. **Now you're ready to create an image recipe**.
@@ -103,7 +103,7 @@ Transitioning to a custom environment for systems development
   needs to change for your distribution. If you find yourself adding a lot of
   configuration to your local.conf file aside from paths and other typical
   local settings, it's time to :ref:`consider creating your own distribution
-   <dev-manual/common-tasks:creating your own distribution>`.
+   <dev-manual/custom-distribution:creating your own distribution>`.

   You can add product specifications that can customize the distribution if
   needed in other layers. You can also add other functionality specific to the
--- a/documentation/what-i-wish-id-known.rst
+++ b/documentation/what-i-wish-id-known.rst
@@ -131,7 +131,7 @@ contact us with other suggestions.
   say "bitbake foo" where "foo" is the name for a specific recipe.  As you
   become more advanced using the Yocto Project, and if builds are failing, it
   can be useful to make sure the fetch itself works as desired. Here are some
-   valuable links: :ref:`dev-manual/common-tasks:Using a Development
+   valuable links: :ref:`dev-manual/development-shell:Using a Development
   Shell` for information on how to build and run a specific task using
   devshell. Also, the :ref:`SDK manual shows how to build out a specific recipe
   <sdk-manual/extensible:use \`\`devtool modify\`\` to modify the source of an existing component>`.
--- a/meta-poky/conf/distro/poky.conf
+++ b/meta-poky/conf/distro/poky.conf
@@ -1,7 +1,7 @@
 DISTRO = "poky"
 DISTRO_NAME = "Poky (Yocto Project Reference Distro)"
 #DISTRO_VERSION = "3.4+snapshot-${METADATA_REVISION}"
-DISTRO_VERSION = "4.0.11"
+DISTRO_VERSION = "4.0.13"
 DISTRO_CODENAME = "kirkstone"
 SDK_VENDOR = "-pokysdk"
 SDK_VERSION = "${@d.getVar('DISTRO_VERSION').replace('snapshot-${METADATA_REVISION}', 'snapshot')}"
@@ -34,22 +34,13 @@ TCLIBCAPPEND = ""
 SANITY_TESTED_DISTROS ?= " \
            poky-3.3 \n \
            poky-3.4 \n \
-            ubuntu-16.04 \n \
            ubuntu-18.04 \n \
            ubuntu-20.04 \n \
-            ubuntu-21.10 \n \
            ubuntu-22.04 \n \
-            fedora-34 \n \
-            fedora-35 \n \
-            fedora-36 \n \
-            centos-7 \n \
-            centos-8 \n \
-            debian-9 \n \
-            debian-10 \n \
+            fedora-37 \n \
            debian-11 \n \
            opensuseleap-15.3 \n \
-            almalinux-8.5 \n \
-            almalinux-8.7 \n \
+            almalinux-8.8 \n \
            "
 # add poky sanity bbclass
 INHERIT += "poky-sanity"
--- a/meta-selftest/recipes-test/license/incompatible-license-alias.bb
+++ b/meta-selftest/recipes-test/license/incompatible-license-alias.bb
@@ -1,3 +1,5 @@
 SUMMARY = "Recipe with an alias of an SPDX license"
 DESCRIPTION = "Is licensed with an alias of an SPDX license to be used for testing"
 LICENSE = "GPLv3"
+
+EXCLUDE_FROM_WORLD = "1"
--- a/meta-selftest/recipes-test/license/incompatible-license.bb
+++ b/meta-selftest/recipes-test/license/incompatible-license.bb
@@ -1,3 +1,5 @@
 SUMMARY = "Recipe with an SPDX license"
 DESCRIPTION = "Is licensed with an SPDX license to be used for testing"
 LICENSE = "GPL-3.0-only"
+
+EXCLUDE_FROM_WORLD = "1"
--- a/meta-selftest/recipes-test/license/incompatible-licenses.bb
+++ b/meta-selftest/recipes-test/license/incompatible-licenses.bb
@@ -1,3 +1,5 @@
 SUMMARY = "Recipe with multiple SPDX licenses"
 DESCRIPTION = "Is licensed with multiple SPDX licenses to be used for testing"
 LICENSE = "GPL-2.0-only & GPL-3.0-only & LGPL-3.0-only"
+
+EXCLUDE_FROM_WORLD = "1"
--- a/meta-selftest/recipes-test/license/incompatible-nonspdx-license.bb
+++ b/meta-selftest/recipes-test/license/incompatible-nonspdx-license.bb
@@ -1,3 +1,5 @@
 SUMMARY = "Recipe with a non-SPDX license"
 DESCRIPTION = "Is licensed with a non-SPDX license to be used for testing"
 LICENSE = "FooLicense"
+
+EXCLUDE_FROM_WORLD = "1"
--- a/meta/classes/cargo.bbclass
+++ b/meta/classes/cargo.bbclass
@@ -49,7 +49,6 @@ oe_cargo_build () {

 do_compile[progress] = "outof:\s+(\d+)/(\d+)"
 cargo_do_compile () {
-	oe_cargo_fix_env
 	oe_cargo_build
 }

--- a/meta/classes/cargo_common.bbclass
+++ b/meta/classes/cargo_common.bbclass
@@ -101,6 +101,10 @@ cargo_common_do_configure () {
 	EOF
 }

+do_compile:prepend () {
+        oe_cargo_fix_env
+}
+
 oe_cargo_fix_env () {
 	export CC="${RUST_TARGET_CC}"
 	export CXX="${RUST_TARGET_CXX}"
--- a/meta/classes/externalsrc.bbclass
+++ b/meta/classes/externalsrc.bbclass
@@ -76,6 +76,8 @@ python () {

        # Dummy value because the default function can't be called with blank SRC_URI
        d.setVar('SRCPV', '999')
+        # sstate is never going to work for external source trees, disable it
+        d.setVar('SSTATE_SKIP_CREATION', '1')

        if d.getVar('CONFIGUREOPT_DEPTRACK') == '--disable-dependency-tracking':
            d.setVar('CONFIGUREOPT_DEPTRACK', '')
@@ -83,10 +85,7 @@ python () {
        tasks = filter(lambda k: d.getVarFlag(k, "task"), d.keys())

        for task in tasks:
-            if task.endswith("_setscene"):
-                # sstate is never going to work for external source trees, disable it
-                bb.build.deltask(task, d)
-            elif os.path.realpath(d.getVar('S')) == os.path.realpath(d.getVar('B')):
+            if os.path.realpath(d.getVar('S')) == os.path.realpath(d.getVar('B')):
                # Since configure will likely touch ${S}, ensure only we lock so one task has access at a time
                d.appendVarFlag(task, "lockfiles", " ${S}/singletask.lock")

--- a/meta/classes/image_types.bbclass
+++ b/meta/classes/image_types.bbclass
@@ -130,10 +130,11 @@ IMAGE_CMD:cpio () {
 		if [ ! -L ${IMAGE_ROOTFS}/init ] && [ ! -e ${IMAGE_ROOTFS}/init ]; then
 			if [ -L ${IMAGE_ROOTFS}/sbin/init ] || [ -e ${IMAGE_ROOTFS}/sbin/init ]; then
 				ln -sf /sbin/init ${WORKDIR}/cpio_append/init
+                                touch -h -r ${IMAGE_ROOTFS}/sbin/init ${WORKDIR}/cpio_append/init
 			else
-				touch ${WORKDIR}/cpio_append/init
+                                touch -r ${IMAGE_ROOTFS} ${WORKDIR}/cpio_append/init
 			fi
-			(cd  ${WORKDIR}/cpio_append && echo ./init | cpio -oA -H newc -F ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.cpio)
+			(cd  ${WORKDIR}/cpio_append && echo ./init | cpio --reproducible -oA -H newc -F ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.cpio)
 		fi
 	fi
 }
--- a/meta/classes/image_types_wic.bbclass
+++ b/meta/classes/image_types_wic.bbclass
@@ -83,7 +83,7 @@ do_image_wic[recrdeptask] += "do_deploy"
 do_image_wic[deptask] += "do_image_complete"

 WKS_FILE_DEPENDS_DEFAULT = '${@bb.utils.contains_any("BUILD_ARCH", [ 'x86_64', 'i686' ], "syslinux-native", "",d)}'
-WKS_FILE_DEPENDS_DEFAULT += "bmap-tools-native cdrtools-native btrfs-tools-native squashfs-tools-native e2fsprogs-native"
+WKS_FILE_DEPENDS_DEFAULT += "bmap-tools-native cdrtools-native btrfs-tools-native squashfs-tools-native e2fsprogs-native erofs-utils-native"
 # Unified kernel images need objcopy
 WKS_FILE_DEPENDS_DEFAULT += "virtual/${MLPREFIX}${TARGET_PREFIX}binutils"
 WKS_FILE_DEPENDS_BOOTLOADERS = ""
--- a/Show More
+++ b/Show More