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|
<!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd"
[<!ENTITY % poky SYSTEM "../poky.ent"> %poky; ] >
<chapter id='usingpoky'>
<title>Using the Yocto Project</title>
<para>
This chapter describes common usage for the Yocto Project.
The information is introductory in nature as other manuals in the Yocto Project
documentation set provide more details on how to use the Yocto Project.
</para>
<section id='usingpoky-build'>
<title>Running a Build</title>
<para>
This section provides a summary of the build process and provides information
for less obvious aspects of the build process.
For general information on how to build an image using the OpenEmbedded build
system, see the
"<ulink url='&YOCTO_DOCS_QS_URL;#building-image'>Building an Image</ulink>"
section of the Yocto Project Quick Start.
</para>
<section id='build-overview'>
<title>Build Overview</title>
<para>
The first thing you need to do is set up the OpenEmbedded build
environment by sourcing an environment setup script
(i.e.
<link linkend='structure-core-script'><filename>&OE_INIT_FILE;</filename></link>
or
<link linkend='structure-memres-core-script'><filename>oe-init-build-env-memres</filename></link>).
Here is an example:
<literallayout class='monospaced'>
$ source &OE_INIT_FILE; [<build_dir>]
</literallayout>
</para>
<para>
The <filename>build_dir</filename> argument is optional and specifies the directory the
OpenEmbedded build system uses for the build -
the <ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
If you do not specify a Build Directory, it defaults to a directory
named <filename>build</filename> in your current working directory.
A common practice is to use a different Build Directory for different targets.
For example, <filename>~/build/x86</filename> for a <filename>qemux86</filename>
target, and <filename>~/build/arm</filename> for a <filename>qemuarm</filename> target.
See the "<link linkend="structure-core-script"><filename>&OE_INIT_FILE;</filename></link>"
section for more information on this script.
</para>
<para>
Once the build environment is set up, you can build a target using:
<literallayout class='monospaced'>
$ bitbake <target>
</literallayout>
</para>
<para>
The <filename>target</filename> is the name of the recipe you want to build.
Common targets are the images in <filename>meta/recipes-core/images</filename>,
<filename>meta/recipes-sato/images</filename>, etc. all found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
Or, 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
"<link linkend="ref-images">Images</link>" chapter.
</para>
<note>
Building an image without GNU General Public License Version 3 (GPLv3) components
is supported for only minimal and base images.
See the "<link linkend='ref-images'>Images</link>" chapter for more information.
</note>
</section>
<section id='building-an-image-using-gpl-components'>
<title>Building an Image Using GPL Components</title>
<para>
When building an image using GPL components, you need to maintain your original
settings and not switch back and forth applying different versions of the GNU
General Public License.
If you rebuild using different versions of GPL, dependency errors might occur
due to some components not being rebuilt.
</para>
</section>
</section>
<section id='usingpoky-install'>
<title>Installing and Using the Result</title>
<para>
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
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink> in
<filename class="directory">tmp/deploy/images</filename>.
For information on how to run pre-built images such as <filename>qemux86</filename>
and <filename>qemuarm</filename>, see the
"<ulink url='&YOCTO_DOCS_QS_URL;#using-pre-built'>Using Pre-Built Binaries and QEMU</ulink>"
section in the Yocto Project Quick Start.
For information about how to install these images, see the documentation for your
particular board or machine.
</para>
</section>
<section id='usingpoky-debugging'>
<title>Debugging Build Failures</title>
<para>
The exact method for debugging build failures depends on the nature of the
problem and on the system's area from which the bug originates.
Standard debugging practices such as comparison against the last
known working version with examination of the changes and the re-application of steps
to identify the one causing the problem are
valid for the Yocto Project just as they are for any other system.
Even though it is impossible to detail every possible potential failure,
this section provides some general tips to aid in debugging.
</para>
<para>
For discussions on debugging, see the
"<ulink url='&YOCTO_DOCS_DEV_URL;#platdev-gdb-remotedebug'>Debugging With the GNU Project Debugger (GDB) Remotely</ulink>"
and
"<ulink url='&YOCTO_DOCS_DEV_URL;#adt-eclipse'>Working within Eclipse</ulink>"
sections in the Yocto Project Development Manual.
</para>
<section id='usingpoky-debugging-taskfailures'>
<title>Task Failures</title>
<para>The log file for shell tasks is available in
<filename>${WORKDIR}/temp/log.do_taskname.pid</filename>.
For example, the <filename>compile</filename> task for the QEMU minimal image for the x86
machine (<filename>qemux86</filename>) might be
<filename>tmp/work/qemux86-poky-linux/core-image-minimal/1.0-r0/temp/log.do_compile.20830</filename>.
To see what BitBake runs to generate that log, look at the corresponding
<filename>run.do_taskname.pid</filename> file located in the same directory.
</para>
<para>
Presently, the output from Python tasks is sent directly to the console.
</para>
</section>
<section id='usingpoky-debugging-taskrunning'>
<title>Running Specific Tasks</title>
<para>
Any given package consists of a set of tasks.
The standard BitBake behavior in most cases is: <filename>fetch</filename>,
<filename>unpack</filename>,
<filename>patch</filename>, <filename>configure</filename>,
<filename>compile</filename>, <filename>install</filename>, <filename>package</filename>,
<filename>package_write</filename>, and <filename>build</filename>.
The default task is <filename>build</filename> and any tasks on which it depends
build first.
Some tasks, such as <filename>devshell</filename>, are not part of the
default build chain.
If you wish to run a task that is not part of the default build chain, you can use the
<filename>-c</filename> option in BitBake.
Here is an example:
<literallayout class='monospaced'>
$ bitbake matchbox-desktop -c devshell
</literallayout>
</para>
<para>
If you wish to rerun a task, use the <filename>-f</filename> force
option.
For example, the following sequence forces recompilation after
changing files in the work directory.
<literallayout class='monospaced'>
$ bitbake matchbox-desktop
.
.
[make some changes to the source code in the work directory]
.
.
$ bitbake matchbox-desktop -c compile -f
$ bitbake matchbox-desktop
</literallayout>
</para>
<para>
This sequence first builds and then recompiles
<filename>matchbox-desktop</filename>.
The last command reruns all tasks (basically the packaging tasks) after the compile.
BitBake recognizes that the <filename>compile</filename> task was rerun and therefore
understands that the other tasks also need to be run again.
</para>
<para>
You can view a list of tasks in a given package by running the
<filename>listtasks</filename> task as follows:
<literallayout class='monospaced'>
$ bitbake matchbox-desktop -c listtasks
</literallayout>
The results are in the file <filename>${WORKDIR}/temp/log.do_listtasks</filename>.
</para>
</section>
<section id='usingpoky-debugging-dependencies'>
<title>Dependency Graphs</title>
<para>
Sometimes it can be hard to see why BitBake wants to build
other packages before building a given package you have specified.
The <filename>bitbake -g <targetname></filename> command
creates the <filename>pn-buildlist</filename>,
<filename>pn-depends.dot</filename>,
<filename>package-depends.dot</filename>, and
<filename>task-depends.dot</filename> files in the current
directory.
These files show what will be built and the package and task
dependencies, which are useful for debugging problems.
You can use the
<filename>bitbake -g -u depexp <targetname></filename>
command to display the results in a more human-readable form.
</para>
</section>
<section id='usingpoky-debugging-bitbake'>
<title>General BitBake Problems</title>
<para>
You can see debug output from BitBake by using the <filename>-D</filename> option.
The debug output gives more information about what BitBake
is doing and the reason behind it.
Each <filename>-D</filename> option you use increases the logging level.
The most common usage is <filename>-DDD</filename>.
</para>
<para>
The output from <filename>bitbake -DDD -v targetname</filename> can reveal why
BitBake chose a certain version of a package or why BitBake
picked a certain provider.
This command could also help you in a situation where you think BitBake did something
unexpected.
</para>
</section>
<section id='development-host-system-issues'>
<title>Development Host System Issues</title>
<para>
Sometimes issues on the host development system can cause your
build to fail.
Following are known, host-specific problems.
Be sure to always consult the
<ulink url='&YOCTO_RELEASE_NOTES;'>Release Notes</ulink>
for a look at all release-related issues.
<itemizedlist>
<listitem><para><emphasis><filename>eglibc-initial</filename> fails to build</emphasis>:
If your development host system has the unpatched
<filename>GNU Make 3.82</filename>,
the <filename>do_install</filename> task
fails for <filename>eglibc-initial</filename> during the
build.</para>
<para>Typically, every distribution that ships
<filename>GNU Make 3.82</filename> as
the default already has the patched version.
However, some distributions, such as Debian, have
<filename>GNU Make 3.82</filename> as an option, which
is unpatched.
You will see this error on these types of distributions.
Switch to <filename>GNU Make 3.81</filename> or patch
your <filename>make</filename> to solve the problem.
</para></listitem>
</itemizedlist>
</para>
</section>
<section id='usingpoky-debugging-buildfile'>
<title>Building with No Dependencies</title>
<para>
To build a specific recipe (<filename>.bb</filename> file),
you can use the following command form:
<literallayout class='monospaced'>
$ bitbake -b <somepath/somerecipe.bb>
</literallayout>
This command form does not check for dependencies.
Consequently, you should use it
only when you know dependencies already exist.
<note>
You can also specify fragments of the filename.
In this case, BitBake checks for a unique match.
</note>
</para>
</section>
<section id='usingpoky-debugging-variables'>
<title>Variables</title>
<para>
You can use the <filename>-e</filename> BitBake option to
display the parsing environment for a configuration.
The following displays the general parsing environment:
<literallayout class='monospaced'>
$ bitbake -e
</literallayout>
This next example shows the parsing environment for a specific
recipe:
<literallayout class='monospaced'>
$ bitbake -e <recipename>
</literallayout>
</para>
</section>
<section id='recipe-logging-mechanisms'>
<title>Recipe Logging Mechanisms</title>
<para>
Best practices exist while writing recipes that both log build progress and
act on build conditions such as warnings and errors.
Both Python and Bash language bindings exist for the logging mechanism:
<itemizedlist>
<listitem><para><emphasis>Python:</emphasis> For Python functions, BitBake
supports several loglevels: <filename>bb.fatal</filename>,
<filename>bb.error</filename>, <filename>bb.warn</filename>,
<filename>bb.note</filename>, <filename>bb.plain</filename>,
and <filename>bb.debug</filename>.</para></listitem>
<listitem><para><emphasis>Bash:</emphasis> For Bash functions, the same set
of loglevels exist and are accessed with a similar syntax:
<filename>bbfatal</filename>, <filename>bberror</filename>,
<filename>bbwarn</filename>, <filename>bbnote</filename>,
<filename>bbplain</filename>, and <filename>bbdebug</filename>.</para></listitem>
</itemizedlist>
</para>
<para>
For guidance on how logging is handled in both Python and Bash recipes, see the
<filename>logging.bbclass</filename> file in the
<filename>meta/classes</filename> folder of the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
</para>
<section id='logging-with-python'>
<title>Logging With Python</title>
<para>
When creating recipes using Python and inserting code that handles build logs,
keep in mind the goal is to have informative logs while keeping the console as
"silent" as possible.
Also, if you want status messages in the log, use the "debug" loglevel.
</para>
<para>
Following is an example written in Python.
The code handles logging for a function that determines the number of tasks
needed to be run:
<literallayout class='monospaced'>
python do_listtasks() {
bb.debug(2, "Starting to figure out the task list")
if noteworthy_condition:
bb.note("There are 47 tasks to run")
bb.debug(2, "Got to point xyz")
if warning_trigger:
bb.warn("Detected warning_trigger, this might be a problem later.")
if recoverable_error:
bb.error("Hit recoverable_error, you really need to fix this!")
if fatal_error:
bb.fatal("fatal_error detected, unable to print the task list")
bb.plain("The tasks present are abc")
bb.debug(2, "Finished figuring out the tasklist")
}
</literallayout>
</para>
</section>
<section id='logging-with-bash'>
<title>Logging With Bash</title>
<para>
When creating recipes using Bash and inserting code that handles build
logs, you have the same goals - informative with minimal console output.
The syntax you use for recipes written in Bash is similar to that of
recipes written in Python described in the previous section.
</para>
<para>
Following is an example written in Bash.
The code logs the progress of the <filename>do_my_function</filename> function.
<literallayout class='monospaced'>
do_my_function() {
bbdebug 2 "Running do_my_function"
if [ exceptional_condition ]; then
bbnote "Hit exceptional_condition"
fi
bbdebug 2 "Got to point xyz"
if [ warning_trigger ]; then
bbwarn "Detected warning_trigger, this might cause a problem later."
fi
if [ recoverable_error ]; then
bberror "Hit recoverable_error, correcting"
fi
if [ fatal_error ]; then
bbfatal "fatal_error detected"
fi
bbdebug 2 "Completed do_my_function"
}
</literallayout>
</para>
</section>
</section>
<section id='usingpoky-debugging-others'>
<title>Other Tips</title>
<para>
Here are some other tips that you might find useful:
<itemizedlist>
<listitem><para>When adding new packages, it is worth watching for
undesirable items making their way into compiler command lines.
For example, you do not want references to local system files like
<filename>/usr/lib/</filename> or <filename>/usr/include/</filename>.
</para></listitem>
<listitem><para>If you want to remove the <filename>psplash</filename>
boot splashscreen,
add <filename>psplash=false</filename> to the kernel command line.
Doing so prevents <filename>psplash</filename> from loading
and thus allows you to see the console.
It is also possible to switch out of the splashscreen by
switching the virtual console (e.g. Fn+Left or Fn+Right on a Zaurus).
</para></listitem>
</itemizedlist>
</para>
</section>
</section>
<section id='maintaining-build-output-quality'>
<title>Maintaining Build Output Quality</title>
<para>
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.
</para>
<para>
The
<link linkend='ref-classes-buildhistory'><filename>buildhistory</filename></link>
class exists to help 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.
</para>
<para>
The remainder of this section describes the following:
<itemizedlist>
<listitem><para>How you can enable and disable
build history</para></listitem>
<listitem><para>How to understand what the build history contains
</para></listitem>
<listitem><para>How to limit the information used for build history
</para></listitem>
<listitem><para>How to examine the build history from both a
command-line and web interface</para></listitem>
</itemizedlist>
</para>
<section id='enabling-and-disabling-build-history'>
<title>Enabling and Disabling Build History</title>
<para>
Build history is disabled by default.
To enable it, add the following statements to the end of your
<filename>conf/local.conf</filename> file found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>:
<literallayout class='monospaced'>
INHERIT += "buildhistory"
BUILDHISTORY_COMMIT = "1"
</literallayout>
Enabling build history as previously described
causes the build process to collect build
output information and commit it to a local
<ulink url='&YOCTO_DOCS_DEV_URL;#git'>Git</ulink> repository.
<note>
Enabling build history increases your build times slightly,
particularly for images, and increases the amount of disk
space used during the build.
</note>
</para>
<para>
You can disable build history by removing the previous statements
from your <filename>conf/local.conf</filename> file.
However, you should realize that enabling and disabling
build history in this manner can change the
<filename>do_package</filename> task checksums which, if you
are using the OEBasicHash signature generator (the default
for many current distro configurations including
<filename>DISTRO = "poky"</filename> and
<filename>DISTRO = ""</filename>) will result in the packaging
tasks being re-run during the subsequent build.
</para>
<para>
To disable the build history functionality without causing the
packaging tasks to be re-run, set the
<link linkend='var-BUILDHISTORY_FEATURES'><filename>BUILDHISTORY_FEATURES</filename></link>
variable as follows in your <filename>conf/local.conf</filename>
file:
<literallayout class='monospaced'>
BUILDHISTORY_FEATURES = ""
</literallayout>
</para>
</section>
<section id='understanding-what-the-build-history-contains'>
<title>Understanding What the Build History Contains</title>
<para>
Build history information is kept in
<filename>$</filename><link linkend='var-TMPDIR'><filename>TMPDIR</filename></link><filename>/buildhistory</filename>
in the Build Directory as defined by the
<link linkend='var-BUILDHISTORY_DIR'><filename>BUILDHISTORY_DIR</filename></link>
variable.
The following is an example abbreviated listing:
<imagedata fileref="figures/buildhistory.png" align="center" width="6in" depth="4in" />
</para>
<para>
At the top level, there is a <filename>metadata-revs</filename> file
that lists the revisions of the repositories for the layers enabled
when the build was produced.
The rest of the data splits into separate
<filename>packages</filename>, <filename>images</filename> and
<filename>sdk</filename> directories, the contents of which are
described below.
</para>
<section id='build-history-package-information'>
<title>Build History Package Information</title>
<para>
The history for each package contains a text file that has
name-value pairs with information about the package.
For example, <filename>buildhistory/packages/core2-poky-linux/busybox/busybox/latest</filename>
contains the following:
<literallayout class='monospaced'>
PV = 1.19.3
PR = r3
RDEPENDS = update-rc.d eglibc (>= 2.13)
RRECOMMENDS = busybox-syslog busybox-udhcpc
PKGSIZE = 564701
FILES = /usr/bin/* /usr/sbin/* /usr/libexec/* /usr/lib/lib*.so.* \
/etc /com /var /bin/* /sbin/* /lib/*.so.* /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 = /etc/busybox.links /etc/init.d/hwclock.sh /bin/busybox /bin/sh
</literallayout>
Most of these name-value pairs correspond to variables used
to produce the package.
The exceptions are <filename>FILELIST</filename>, which is the
actual list of files in the package, and
<filename>PKGSIZE</filename>, which is the total size of files
in the package in bytes.
</para>
<para>
There is also a file corresponding to the recipe from which the
package came (e.g.
<filename>buildhistory/packages/core2-poky-linux/busybox/latest</filename>):
<literallayout class='monospaced'>
PV = 1.19.3
PR = r3
DEPENDS = virtual/i586-poky-linux-gcc virtual/i586-poky-linux-compilerlibs \
virtual/libc update-rc.d-native
PACKAGES = busybox-httpd busybox-udhcpd busybox-udhcpc busybox-syslog \
busybox-mdev busybox-dbg busybox busybox-doc busybox-dev \
busybox-staticdev busybox-locale
</literallayout>
</para>
<para>
Finally, for those recipes fetched from a version control
system (e.g., Git), a file exists that lists source revisions
that are specified in the recipe and lists the actual revisions
used during the build.
Listed and actual revisions might differ when
<link linkend='var-SRCREV'><filename>SRCREV</filename></link>
is set to
<filename>${<link linkend='var-AUTOREV'>AUTOREV</link>}</filename>.
Here is an example assuming
<filename>buildhistory/packages/emenlow-poky-linux/linux-yocto/latest_srcrev</filename>):
<literallayout class='monospaced'>
# SRCREV_machine = "b5c37fe6e24eec194bb29d22fdd55d73bcc709bf"
SRCREV_machine = "b5c37fe6e24eec194bb29d22fdd55d73bcc709bf"
# SRCREV_emgd = "caea08c988e0f41103bbe18eafca20348f95da02"
SRCREV_emgd = "caea08c988e0f41103bbe18eafca20348f95da02"
# SRCREV_meta = "c2ed0f16fdec628242a682897d5d86df4547cf24"
SRCREV_meta = "c2ed0f16fdec628242a682897d5d86df4547cf24"
</literallayout>
You can use the <filename>buildhistory-collect-srcrevs</filename>
command to collect the stored <filename>SRCREV</filename> values
from build history and report them in a format suitable for use in
global configuration (e.g., <filename>local.conf</filename>
or a distro include file) to override floating
<filename>AUTOREV</filename> values to a fixed set of revisions.
Here is some example output from this command:
<literallayout class='monospaced'>
# emenlow-poky-linux
SRCREV_machine_pn-linux-yocto = "b5c37fe6e24eec194bb29d22fdd55d73bcc709bf"
SRCREV_emgd_pn-linux-yocto = "caea08c988e0f41103bbe18eafca20348f95da02"
SRCREV_meta_pn-linux-yocto = "c2ed0f16fdec628242a682897d5d86df4547cf24"
# core2-poky-linux
SRCREV_pn-kmod = "62081c0f68905b22f375156d4532fd37fa5c8d33"
SRCREV_pn-blktrace = "d6918c8832793b4205ed3bfede78c2f915c23385"
SRCREV_pn-opkg = "649"
</literallayout>
<note>
Here are some notes on using the
<filename>buildhistory-collect-srcrevs</filename> command:
<itemizedlist>
<listitem><para>By default, only values where the
<filename>SRCREV</filename> was
not hardcoded (usually when <filename>AUTOREV</filename>
was used) are reported.
Use the <filename>-a</filename> option to see all
<filename>SRCREV</filename> values.
</para></listitem>
<listitem><para>The output statements might not have any effect
if overrides are applied elsewhere in the build system
configuration.
Use the <filename>-f</filename> option to add the
<filename>forcevariable</filename> override to each output line
if you need to work around this restriction.
</para></listitem>
<listitem><para>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 shown above
(e.g., <filename>emenlow-poky-linux</filename>).
</para></listitem>
</itemizedlist>
</note>
</para>
</section>
<section id='build-history-image-information'>
<title>Build History Image Information</title>
<para>
The files produced for each image are as follows:
<itemizedlist>
<listitem><para><filename>image-files:</filename>
A directory containing selected files from the root
filesystem.
The files are defined by
<filename>BUILDHISTORY_IMAGE_FILES</filename>.
</para></listitem>
<listitem><para><filename>build-id:</filename>
Human-readable information about the build configuration
and metadata source revisions.</para></listitem>
<listitem><para><filename>*.dot:</filename>
Dependency graphs for the image that are
compatible with <filename>graphviz</filename>.
</para></listitem>
<listitem><para><filename>files-in-image.txt:</filename>
A list of files in the image with permissions,
owner, group, size, and symlink information.
</para></listitem>
<listitem><para><filename>image-info.txt:</filename>
A text file containing name-value pairs with information
about the image.
See the following listing example for more information.
</para></listitem>
<listitem><para><filename>installed-package-names.txt:</filename>
A list of installed packages by name only.</para></listitem>
<listitem><para><filename>installed-package-sizes.txt:</filename>
A list of installed packages ordered by size.
</para></listitem>
<listitem><para><filename>installed-packages.txt:</filename>
A list of installed packages with full package
filenames.</para></listitem>
</itemizedlist>
<note>
Installed package information is able to be gathered and
produced even if package management is disabled for the final
image.
</note>
</para>
<para>
Here is an example of <filename>image-info.txt</filename>:
<literallayout class='monospaced'>
DISTRO = poky
DISTRO_VERSION = 1.1+snapshot-20120207
USER_CLASSES = image-mklibs image-prelink
IMAGE_CLASSES = image_types
IMAGE_FEATURES = debug-tweaks x11-base apps-x11-core \
package-management ssh-server-dropbear package-management
IMAGE_LINGUAS = en-us en-gb
IMAGE_INSTALL = task-core-boot task-base-extended
BAD_RECOMMENDATIONS =
ROOTFS_POSTPROCESS_COMMAND = buildhistory_get_image_installed ; rootfs_update_timestamp ;
IMAGE_POSTPROCESS_COMMAND = buildhistory_get_imageinfo ;
IMAGESIZE = 171816
</literallayout>
Other than <filename>IMAGESIZE</filename>, 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.
</para>
</section>
<section id='using-build-history-to-gather-image-information-only'>
<title>Using Build History to Gather Image Information Only</title>
<para>
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
<filename>conf/local.conf</filename> file found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>:
<literallayout class='monospaced'>
INHERIT += "buildhistory"
BUILDHISTORY_COMMIT = "0"
BUILDHISTORY_FEATURES = "image"
</literallayout>
Here, you set the
<link linkend='var-BUILDHISTORY_FEATURES'><filename>BUILDHISTORY_FEATURES</filename></link>
variable to use the image feature only.
</para>
</section>
<section id='build-history-sdk-information'>
<title>Build History SDK Information</title>
<para>
Build history collects similar information on the contents
of SDKs (e.g., <filename>meta-toolchain</filename>
or <filename>bitbake -c populate_sdk imagename</filename>)
as compared to information it collects for images.
If you want information on the SDK, you need to list that
feature using the
<link linkend='var-BUILDHISTORY_FEATURES'><filename>BUILDHISTORY_FEATURES</filename></link>
variable as follows in your <filename>conf/local.conf</filename>
file found in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>:
<literallayout class='monospaced'>
INHERIT += "buildhistory"
BUILDHISTORY_COMMIT = "0"
BUILDHISTORY_FEATURES = "sdk"
</literallayout>:
The following list shows the files produced for each SDK:
<itemizedlist>
<listitem><para><filename>files-in-sdk.txt:</filename>
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.
</para></listitem>
<listitem><para><filename>sdk-info.txt:</filename>
A text file containing name-value pairs with information
about the SDK.
See the following listing example for more information.
</para></listitem>
<listitem><para>The following information appears under
each of the <filename>host</filename>
and <filename>target</filename> directories
for the portions of the SDK that run on the host and
on the target, respectively:
<itemizedlist>
<listitem><para><filename>depends.dot:</filename>
Dependency graph for the SDK that is
compatible with <filename>graphviz</filename>.
</para></listitem>
<listitem><para><filename>installed-package-names.txt:</filename>
A list of installed packages by name only.
</para></listitem>
<listitem><para><filename>installed-package-sizes.txt:</filename>
A list of installed packages ordered by size.
</para></listitem>
<listitem><para><filename>installed-packages.txt:</filename>
A list of installed packages with full package
filenames.</para></listitem>
</itemizedlist>
</para></listitem>
</itemizedlist>
</para>
<para>
Here is an example of <filename>sdk-info.txt</filename>:
<literallayout class='monospaced'>
DISTRO = poky
DISTRO_VERSION = 1.3+snapshot-20130327
SDK_NAME = poky-eglibc-i686-arm
SDK_VERSION = 1.3+snapshot
SDKMACHINE =
SDKIMAGE_FEATURES = dev-pkgs dbg-pkgs
BAD_RECOMMENDATIONS =
SDKSIZE = 352712
</literallayout>
Other than <filename>SDKSIZE</filename>, 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.
</para>
</section>
<section id='examining-build-history-information'>
<title>Examining Build History Information</title>
<para>
You can examine build history output from the command line or
from a web interface.
</para>
<para>
To see any changes that have occurred (assuming you have
<filename>BUILDHISTORY_COMMIT = "1"</filename>), you can simply
use any Git command that allows you to view the history of
a repository.
Here is one method:
<literallayout class='monospaced'>
$ git log -p
</literallayout>
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).
</para>
<para>
A command-line tool called <filename>buildhistory-diff</filename>
does exist, though, that queries the Git repository and prints just
the differences that might be significant in human-readable form.
Here is an example:
<literallayout class='monospaced'>
$ ~/poky/poky/scripts/buildhistory-diff . HEAD^
Changes to images/qemux86_64/eglibc/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/eglibc/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"
</literallayout>
</para>
<para>
To see changes to the build history using a web interface, follow
the instruction in the <filename>README</filename> file here.
<ulink url='http://git.yoctoproject.org/cgit/cgit.cgi/buildhistory-web/'></ulink>.
</para>
<para>
Here is a sample screenshot of the interface:
<imagedata fileref="figures/buildhistory-web.png" align="center" scalefit="1" width="130%" contentdepth="130%" />
</para>
</section>
</section>
</section>
</chapter>
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