profile-manual: Adding raw text.

Started to put in the usage chapter.  Adding text and
sectioning off by paragraph and formatting for literal
sections.

(From yocto-docs rev: c2d328d19023cd6fac6dcaeb8449e2203b5a17b7)

Signed-off-by: Scott Rifenbark <scott.m.rifenbark@intel.com>
Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org>

1 files changed, 862 insertions, 1088 deletions

diff --git a/documentation/profile-manual/profile-manual-usage.xml b/documentation/profile-manual/profile-manual-usage.xml
index 65e17e24a0..71feb418fd 100644
--- a/documentation/profile-manual/profile-manual-usage.xml
+++ b/documentation/profile-manual/profile-manual-usage.xml
@@ -2,1215 +2,989 @@
 "http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd"
 [<!ENTITY % poky SYSTEM "../poky.ent"> %poky; ] >
 
-<chapter id='dev-manual-newbie'>
+<chapter id='profile-manual-usage'>
 
-<title>The Yocto Project Open Source Development Environment</title>
+<title>Basic Usage (with examples) for each of the Yocto Tracing Tools</title>
 
 <para>
-    This chapter helps you understand the Yocto Project as an open source development project.
-    In general, working in an open source environment is very different from working in a
-    closed, proprietary environment.
-    Additionally, the Yocto Project uses specific tools and constructs as part of its development
-    environment.
-    This chapter specifically addresses open source philosophy, licensing issues, code repositories,
-    the open source distributed version control system Git, and best practices using the Yocto Project.
+    This chapter presents basic usage examples for each of the tracing
+    tools.
 </para>
 
-<section id='open-source-philosophy'>
-    <title>Open Source Philosophy</title>
+<section id='profile-manual-perf'>
+    <title>perf</title>
 
     <para>
-        Open source philosophy is characterized by software development directed by peer production
-        and collaboration through an active community of developers.
-        Contrast this to the more standard centralized development models used by commercial software
-        companies where a finite set of developers produces a product for sale using a defined set
-        of procedures that ultimately result in an end product whose architecture and source material
-        are closed to the public.
+        The 'perf' tool is the profiling and tracing tool that comes
+        bundled with the Linux kernel.
     </para>
 
     <para>
-        Open source projects conceptually have differing concurrent agendas, approaches, and production.
-        These facets of the development process can come from anyone in the public (community) that has a
-        stake in the software project.
-        The open source environment contains new copyright, licensing, domain, and consumer issues
-        that differ from the more traditional development environment.
-        In an open source environment, the end product, source material, and documentation are
-        all available to the public at no cost.
+        Don't let the fact that it's part of the kernel fool you into thinking
+        that it's only for tracing and profiling the kernel - you can indeed
+        use it to trace and profile just the kernel , but you can also use it
+        to profile specific applications separately (with or without kernel
+        context), and you can also use it to trace and profile the kernel
+        and all applications on the system simultaneously to gain a system-wide
+        view of what's going on.
     </para>
 
     <para>
-        A benchmark example of an open source project is the Linux Kernel, which was initially conceived
-        and created by Finnish computer science student Linus Torvalds in 1991.
-        Conversely, a good example of a non-open source project is the
-        <trademark class='registered'>Windows</trademark> family of operating
-        systems developed by <trademark class='registered'>Microsoft</trademark> Corporation.
+        In many ways, it aims to be a superset of all the tracing and profiling
+        tools available in Linux today, including all the other tools covered
+        in this HOWTO. The past couple of years have seen perf subsume a lot
+        of the functionality of those other tools, and at the same time those
+        other tools have removed large portions of their previous functionality
+        and replaced it with calls to the equivalent functionality now
+        implemented by the perf subsystem. Extrapolation suggests that at
+        some point those other tools will simply become completely redundant
+        and go away; until then, we'll cover those other tools in these pages
+        and in many cases show how the same things can be accomplished in
+        perf and the other tools when it seems useful to do so.
     </para>
 
     <para>
-        Wikipedia has a good historical description of the Open Source Philosophy
-        <ulink url='http://en.wikipedia.org/wiki/Open_source'>here</ulink>.
-        You can also find helpful information on how to participate in the Linux Community
-        <ulink url='http://ldn.linuxfoundation.org/book/how-participate-linux-community'>here</ulink>.
-    </para>
-</section>
-
-<section id="usingpoky-changes-collaborate">
-    <title>Using the Yocto Project in a Team Environment</title>
-
-    <para>
-        It might not be immediately clear how you can use the Yocto Project in a team environment,
-        or scale it for a large team of developers.
-        The specifics of any situation determine the best solution.
-        Granted that the Yocto Project offers immense flexibility regarding this, practices do exist
-        that experience has shown work well.
+        The coverage below details some of the most common ways you'll likely
+        want to apply the tool; full documentation can be found either within
+        the tool itself or in the man pages at
+        <ulink url='http://linux.die.net/man/1/perf'>perf(1)</ulink>.
     </para>
 
-    <para>
-        The core component of any development effort with the Yocto Project is often an
-        automated build and testing framework along with an image generation process.
-        You can use these core components to check that the metadata can be built,
-        highlight when commits break the build, and provide up-to-date images that
-        allow developers to test the end result and use it as a base platform for further
-        development.
-        Experience shows that buildbot is a good fit for this role.
-        What works well is to configure buildbot to make two types of builds:
-        incremental and full (from scratch).
-        See "<ulink url='http://autobuilder.yoctoproject.org:8010/'>Welcome to the buildbot for the Yocto Project</ulink>"
-        for an example implementation that uses buildbot.
-    </para>
+    <section id='perf-setup'>
+        <title>Setup</title>
 
-    <para>
-        You can tie an incremental build to a commit hook that triggers the build
-        each time a commit is made to the metadata.
-        This practice results in useful acid tests that determine whether a given commit
-        breaks the build in some serious way.
-        Associating a build to a commit can catch a lot of simple errors.
-        Furthermore, the tests are fast so developers can get quick feedback on changes.
-    </para>
-
-    <para>
-        Full builds build and test everything from the ground up.
-        These types of builds usually happen at predetermined times like during the
-        night when the machine load is low.
-    </para>
-
-    <para>
-        Most teams have many pieces of software undergoing active development at any given time.
-        You can derive large benefits by putting these pieces under the control of a source
-        control system that is compatible (i.e. Git or Subversion (SVN)) with the OpenEmbedded
-        build system that the Yocto Project uses.
-        You can then set the autobuilder to pull the latest revisions of the packages
-        and test the latest commits by the builds.
-        This practice quickly highlights issues.
-        The build system easily supports testing configurations that use both a
-        stable known good revision and a floating revision.
-        The build system can also take just the changes from specific source control branches.
-        This capability allows you to track and test specific changes.
-    </para>
-
-    <para>
-        Perhaps the hardest part of setting this up is defining the software project or
-        the metadata policies that surround the different source control systems.
-        Of course circumstances will be different in each case.
-        However, this situation reveals one of the Yocto Project's advantages -
-        the system itself does not
-        force any particular policy on users, unlike a lot of build systems.
-        The system allows the best policies to be chosen for the given circumstances.
-    </para>
-
-    <para>
-        In general, best practices exist that make your work with the Yocto
-        Project easier in a team environment.
-        This list presents some of these practices you might consider following.
-        Of course, you need to understand that you do not have to follow these
-        practices and your setup can be totally controlled and customized by
-        your team:
-        <itemizedlist>
-            <listitem><para>Use <link linkend='git'>Git</link>
-                as the source control system.</para></listitem>
-            <listitem><para>Maintain your metadata in layers that make sense
-                for your situation.
-                See the "<link linkend='understanding-and-creating-layers'>Understanding
-                and Creating Layers</link>" section for more information on
-                layers.</para></listitem>
-            <listitem><para>Separate the project's metadata and code by using
-                separate Git repositories.
-                See the "<link linkend='yocto-project-repositories'>Yocto Project
-                Source Repositories</link>" section for information on these
-                repositories.
-                See the "<link linkend='getting-setup'>Getting Set Up</link>" section
-                for information on how to set up various Yocto Project related
-                Git repositories.</para></listitem>
-            <listitem><para>Set up the directory for the shared state cache
-                (<ulink url='&YOCTO_DOCS_REF_URL;#var-SSTATE_DIR'><filename>SSTATE_DIR</filename></ulink>)
-                where they make sense.
-                For example, set up the sstate cache for developers using the
-                same office and share source directories on the developer's
-                machines.</para></listitem>
-            <listitem><para>Set up an autobuilder and have it populate the
-                sstate cache and source directories.</para></listitem>
-        </itemizedlist>
-    </para>
-</section>
+        <para>
+            For this section, we'll assume you've already performed the basic
+            setup outlined in the General Setup section.
+        </para>
 
-<section id='yocto-project-repositories'>
-    <title>Yocto Project Source Repositories</title>
+        <para>
+            In particular, you'll get the most mileage out of perf if you
+            profile an image built with INHIBIT_PACKAGE_STRIP = "1" in your
+            local.conf.
+        </para>
 
-    <para>
-        The Yocto Project team maintains complete source repositories for all Yocto Project files
-        at <ulink url='&YOCTO_GIT_URL;/cgit/cgit.cgi'></ulink>.
-        This web-based source code browser is organized into categories by function such as
-        IDE Plugins, Matchbox, Poky, Yocto Linux Kernel, and so forth.
-        From the interface, you can click on any particular item in the "Name" column and
-        see the URL at the bottom of the page that you need to set up a Git repository for
-        that particular item.
-        Having a local Git repository of the Source Directory (poky) allows you to
-        make changes, contribute to the history, and ultimately enhance the Yocto Project's
-        tools, Board Support Packages, and so forth.
-    </para>
+        <para>
+            perf runs on the target system for the most part. You can archive
+            profile data and copy it to the host for analysis, but for the
+            rest of this document we assume you've ssh'ed to the host and
+            will be running the perf commands on the target.
+        </para>
+    </section>
 
-    <para>
-        Conversely, if you are a developer that is not interested in contributing back to the
-        Yocto Project, you have the ability to simply download and extract release tarballs
-        and use them within the Yocto Project environment.
-        All that is required is a particular release of the Yocto Project and
-        your application source code.
-    </para>
+    <section id='perf-basic-usage'>
+        <title>Basic Usage</title>
 
-    <para>
-        For any supported release of Yocto Project, you can go to the Yocto Project website’s
-        <ulink url='&YOCTO_HOME_URL;/download'>download page</ulink> and get a
-        tarball of the release.
-        You can also go to this site to download any supported BSP tarballs.
-        Unpacking the tarball gives you a hierarchical Source Directory that lets you develop
-        using the Yocto Project.
+        <para>
+            The perf tool is pretty much self-documenting. To remind yourself
+            of the available commands, simply type 'perf', which will show you
+            basic usage along with the available perf subcommands:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf
+
+     usage: perf [--version] [--help] COMMAND [ARGS]
+
+     The most commonly used perf commands are:
+       annotate        Read perf.data (created by perf record) and display annotated code
+       archive         Create archive with object files with build-ids found in perf.data file
+       bench           General framework for benchmark suites
+       buildid-cache   Manage build-id cache.
+       buildid-list    List the buildids in a perf.data file
+       diff            Read two perf.data files and display the differential profile
+       evlist          List the event names in a perf.data file
+       inject          Filter to augment the events stream with additional information
+       kmem            Tool to trace/measure kernel memory(slab) properties
+       kvm             Tool to trace/measure kvm guest os
+       list            List all symbolic event types
+       lock            Analyze lock events
+       probe           Define new dynamic tracepoints
+       record          Run a command and record its profile into perf.data
+       report          Read perf.data (created by perf record) and display the profile
+       sched           Tool to trace/measure scheduler properties (latencies)
+       script          Read perf.data (created by perf record) and display trace output
+       stat            Run a command and gather performance counter statistics
+       test            Runs sanity tests.
+       timechart       Tool to visualize total system behavior during a workload
+       top             System profiling tool.
+
+     See 'perf help COMMAND' for more information on a specific command.
+        </literallayout>
     </para>
 
-    <para>
-        Once you are set up through either tarball extraction or a checkout of Git repositories,
-        you are ready to develop.
-    </para>
+    <section id='using-perf-to-do-basic-profiling'>
+        <title>Using perf to do Basic Profiling</title>
 
-    <para>
-        In summary, here is where you can get the project files needed for development:
-        <itemizedlist>
-            <listitem><para id='source-repositories'><emphasis><ulink url='&YOCTO_GIT_URL;/cgit/cgit.cgi'>Source Repositories:</ulink></emphasis>
-                This area contains IDE Plugins, Matchbox, Poky, Poky Support, Tools, Yocto Linux Kernel, and Yocto
-                Metadata Layers.
-                You can create local copies of Git repositories for each of these areas.</para>
-                <para>
-                <imagedata fileref="figures/source-repos.png" align="center" width="6in" depth="4in" />
-                </para></listitem>
-            <listitem><para><anchor id='index-downloads' /><emphasis><ulink url='&YOCTO_DL_URL;/releases/'>Index of /releases:</ulink></emphasis>
-                This area contains index releases such as
-                the <trademark class='trade'>Eclipse</trademark>
-                Yocto Plug-in, miscellaneous support, poky, pseudo, installers for cross-development toolchains,
-                and all released versions of Yocto Project in the form of images or tarballs.
-                Downloading and extracting these files does not produce a local copy of the
-                Git repository but rather a snapshot of a particular release or image.</para>
-                <para>
-                <imagedata fileref="figures/index-downloads.png" align="center" width="6in" depth="4in" />
-                </para></listitem>
-            <listitem><para><emphasis><ulink url='&YOCTO_HOME_URL;/download'>Yocto Project Download Page</ulink></emphasis>
-                This page on the Yocto Project website allows you to download any Yocto Project
-                release or Board Support Package (BSP) in tarball form.
-                The tarballs are similar to those found in the
-                <ulink url='&YOCTO_DL_URL;/releases/'>Index of /releases:</ulink> area.</para>
-                <para>
-                <imagedata fileref="figures/yp-download.png" align="center" width="6in" depth="4in" />
-            </para></listitem>
-        </itemizedlist>
-    </para>
-</section>
+        <para>
+            As a simple test case, we'll profile the 'wget' of a fairly large
+            file, which is a minimally interesting case because it has both
+            file and network I/O aspects, and at least in the case of standard
+            Yocto images, it's implemented as part of busybox, so the methods
+            we use to analyze it can be used in a very similar way to the whole
+            host of supported busybox applets in Yocto.
+            <literallayout class='monospaced'>
+     root@crownbay:~# rm linux-2.6.19.2.tar.bz2; \
+     wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+            </literallayout>
+            The quickest and easiest way to get some basic overall data about
+            what's going on for a particular workload it to profile it using
+            'perf stat'. 'perf stat' basically profiles using a few default
+            counters and displays the summed counts at the end of the run:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf stat wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+     Connecting to downloads.yoctoproject.org (140.211.169.59:80)
+     linux-2.6.19.2.tar.b 100% |***************************************************| 41727k  0:00:00 ETA
+
+     Performance counter stats for 'wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2':
+
+           4597.223902 task-clock                #    0.077 CPUs utilized
+                 23568 context-switches          #    0.005 M/sec
+                    68 CPU-migrations            #    0.015 K/sec
+                   241 page-faults               #    0.052 K/sec
+            3045817293 cycles                    #    0.663 GHz
+       &lt;not supported&gt; stalled-cycles-frontend
+       &lt;not supported&gt; stalled-cycles-backend
+             858909167 instructions              #    0.28  insns per cycle
+             165441165 branches                  #   35.987 M/sec
+              19550329 branch-misses             #   11.82% of all branches
+
+          59.836627620 seconds time elapsed
+            </literallayout>
+            Many times such a simple-minded test doesn't yield much of
+            interest, but sometimes it does (see Real-world Yocto bug
+            (slow loop-mounted write speed)).
+        </para>
 
-<section id='yocto-project-terms'>
-    <title>Yocto Project Terms</title>
+        <para>
+            Also, note that 'perf stat' isn't restricted to a fixed set of
+            counters - basically any event listed in the output of 'perf list'
+            can be tallied by 'perf stat'. For example, suppose we wanted to
+            see a summary of all the events related to kernel memory
+            allocation/freeing along with cache hits and misses:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf stat -e kmem:* -e cache-references -e cache-misses wget http://    downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+     Connecting to downloads.yoctoproject.org (140.211.169.59:80)
+     linux-2.6.19.2.tar.b 100% |***************************************************| 41727k  0:00:00 ETA
+
+     Performance counter stats for 'wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2':
+
+                  5566 kmem:kmalloc
+                125517 kmem:kmem_cache_alloc
+                     0 kmem:kmalloc_node
+                     0 kmem:kmem_cache_alloc_node
+                 34401 kmem:kfree
+                 69920 kmem:kmem_cache_free
+                   133 kmem:mm_page_free
+                    41 kmem:mm_page_free_batched
+                 11502 kmem:mm_page_alloc
+                 11375 kmem:mm_page_alloc_zone_locked
+                     0 kmem:mm_page_pcpu_drain
+                     0 kmem:mm_page_alloc_extfrag
+              66848602 cache-references
+               2917740 cache-misses              #    4.365 % of all cache refs
+
+          44.831023415 seconds time elapsed
+            </literallayout>
+            So 'perf stat' gives us a nice easy way to get a quick overview of
+            what might be happening for a set of events, but normally we'd
+            need a little more detail in order to understand what's going on
+            in a way that we can act on in a useful way.
+        </para>
 
-    <para>
-        Following is a list of terms and definitions users new to the Yocto Project development
-        environment might find helpful.
-        While some of these terms are universal, the list includes them just in case:
-        <itemizedlist>
-            <listitem><para><emphasis>Append Files:</emphasis> Files that append build information to
-                a recipe file.
-                Append files are known as BitBake append files and <filename>.bbappend</filename> files.
-                The OpenEmbedded build system expects every append file to have a corresponding and
-                underlying recipe (<filename>.bb</filename>) file.
-                Furthermore, the append file and the underlying recipe must have the same root filename.
-                The filenames can differ only in the file type suffix used (e.g.
-                <filename>formfactor_0.0.bb</filename> and <filename>formfactor_0.0.bbappend</filename>).
-                </para>
-                <para>Information in append files overrides the information in the similarly-named recipe file.
-                For an example of an append file in use, see the
-                "<link linkend='using-bbappend-files'>Using .bbappend Files</link>" section.
-                </para></listitem>
-            <listitem><para id='bitbake-term'><emphasis>BitBake:</emphasis>
-                The task executor and scheduler used by
-                the OpenEmbedded build system to build images.
-                For more information on BitBake, see the BitBake documentation
-                in the <filename>bitbake/doc/manual</filename> directory of the
-                <link linkend='source-directory'>Source Directory</link>.</para></listitem>
-            <listitem>
-                <para id='build-directory'><emphasis>Build Directory:</emphasis>
-                This term refers to the area used by the OpenEmbedded build system for builds.
-                The area is created when you <filename>source</filename> the setup
-                environment script that is found in the Source Directory
-                (i.e. <filename>&OE_INIT_FILE;</filename>).
-                The <ulink url='&YOCTO_DOCS_REF_URL;#var-TOPDIR'><filename>TOPDIR</filename></ulink>
-                variable points to the Build Directory.</para>
-
-                <para>You have a lot of flexibility when creating the Build Directory.
-                Following are some examples that show how to create the directory:
-                   <itemizedlist>
-                        <listitem><para>Create the Build Directory in your current working directory
-                            and name it <filename>build</filename>.
-                            This is the default behavior.
-                            <literallayout class='monospaced'>
-     $ source &OE_INIT_PATH;
-                            </literallayout></para></listitem>
-                        <listitem><para>Provide a directory path and specifically name the build
-                            directory.
-                            This next example creates a Build Directory named <filename>YP-&POKYVERSION;</filename>
-                            in your home directory within the directory <filename>mybuilds</filename>.
-                            If <filename>mybuilds</filename> does not exist, the directory is created for you:
-                            <literallayout class='monospaced'>
-     $ source &OE_INIT_PATH; $HOME/mybuilds/YP-&POKYVERSION;
-                            </literallayout></para></listitem>
-                        <listitem><para>Provide an existing directory to use as the Build Directory.
-                            This example uses the existing <filename>mybuilds</filename> directory
-                            as the Build Directory.
-                            <literallayout class='monospaced'>
-     $ source &OE_INIT_PATH; $HOME/mybuilds/
-                            </literallayout></para></listitem>
-                    </itemizedlist>
-                </para></listitem>
-            <listitem><para><emphasis>Build System:</emphasis> In the context of the Yocto Project
-                this term refers to the OpenEmbedded build system used by the project.
-                This build system is based on the project known as "Poky."
-                For some historical information about Poky, see the
-                <link linkend='poky'>Poky</link> term further along in this section.
-                </para></listitem>
-            <listitem><para><emphasis>Classes:</emphasis> Files that provide for logic encapsulation
-                and inheritance allowing commonly used patterns to be defined once and easily used
-                in multiple recipes.
-                Class files end with the <filename>.bbclass</filename> filename extension.
-                </para></listitem>
-            <listitem><para><emphasis>Configuration File:</emphasis>  Configuration information in various
-                <filename>.conf</filename> files provides global definitions of variables.
-                The <filename>conf/local.conf</filename> configuration file in the
-                <link linkend='build-directory'>Build Directory</link>
-                contains user-defined variables that affect each build.
-                The <filename>meta-yocto/conf/distro/poky.conf</filename> configuration file
-                defines Yocto ‘distro’ configuration
-                variables used only when building with this policy.
-                Machine configuration files, which
-                are located throughout the
-                <link linkend='source-directory'>Source Directory</link>, define
-                variables for specific hardware and are only used when building for that target
-                (e.g. the <filename>machine/beagleboard.conf</filename> configuration file defines
-                variables for the Texas Instruments ARM Cortex-A8 development board).
-                Configuration files end with a <filename>.conf</filename> filename extension.
-                </para></listitem>
-            <listitem><para><emphasis>Cross-Development Toolchain:</emphasis>
-                A collection of software development
-                tools and utilities that allow you to develop software for targeted architectures.
-                This toolchain contains cross-compilers, linkers, and debuggers that are specific to
-                an architecture.
-                You can use the OpenEmbedded build system to build a cross-development toolchain
-                installer that when run installs the toolchain that contains the development tools you
-                need to cross-compile and test your software.
-                The Yocto Project ships with images that contain installers for
-                toolchains for supported architectures as well.
-                Sometimes this toolchain is referred to as the meta-toolchain.</para></listitem>
-            <listitem><para><emphasis>Image:</emphasis> An image is the result produced when
-                BitBake processes a given collection of recipes and related metadata.
-                Images are the binary output that run on specific hardware or QEMU
-                and for specific use cases.
-                For a list of the supported image types that the Yocto Project provides, see the
-                "<ulink url='&YOCTO_DOCS_REF_URL;#ref-images'>Images</ulink>"
-                chapter in the Yocto Project Reference Manual.</para></listitem>
-            <listitem><para id='layer'><emphasis>Layer:</emphasis> A collection of recipes representing the core,
-                a BSP, or an application stack.
-                For a discussion on BSP Layers, see the
-                "<ulink url='&YOCTO_DOCS_BSP_URL;#bsp-layers'>BSP Layers</ulink>"
-                section in the Yocto Project Board Support Packages (BSP) Developer's Guide.</para></listitem>
-            <listitem><para id='metadata'><emphasis>Metadata:</emphasis> The files that BitBake parses when
-                building an image.
-                Metadata includes recipes, classes, and configuration files.</para></listitem>
-            <listitem><para id='oe-core'><emphasis>OE-Core:</emphasis> A core set of metadata originating
-                with OpenEmbedded (OE) that is shared between OE and the Yocto Project.
-                This metadata is found in the <filename>meta</filename> directory of the source
-                directory.</para></listitem>
-            <listitem><para><emphasis>Package:</emphasis> In the context of the Yocto Project,
-                this term refers to the packaged output from a baked recipe.
-                A package is generally the compiled binaries produced from the recipe's sources.
-                You ‘bake’ something by running it through BitBake.</para>
-                <para>It is worth noting that the term "package" can, in general, have subtle
-                meanings.  For example, the packages refered to in the
-                "<ulink url='&YOCTO_DOCS_QS_URL;#packages'>The Packages</ulink>" section are
-                compiled binaries that when installed add functionality to your Linux
-                distribution.</para>
-                <para>Another point worth noting is that historically within the Yocto Project,
-                recipes were referred to as packages - thus, the existence of several BitBake
-                variables that are seemingly mis-named,
-                (e.g. <ulink url='&YOCTO_DOCS_REF_URL;#var-PR'><filename>PR</filename></ulink>,
-                <ulink url='&YOCTO_DOCS_REF_URL;#var-PRINC'><filename>PRINC</filename></ulink>,
-                <ulink url='&YOCTO_DOCS_REF_URL;#var-PV'><filename>PV</filename></ulink>, and
-                <ulink url='&YOCTO_DOCS_REF_URL;#var-PE'><filename>PE</filename></ulink>).
-                </para></listitem>
-            <listitem><para id='poky'><emphasis>Poky:</emphasis> The term "poky" can mean several things.
-                In its most general sense, it is an open-source project that was initially developed
-                by OpenedHand.  With OpenedHand, poky was developed off of the existing OpenEmbedded
-                build system becoming a build system for embedded images.
-                After Intel Corporation acquired OpenedHand, the project poky became the basis for
-                the Yocto Project's build system.
-                Within the Yocto Project source repositories, poky exists as a separate Git repository
-                that can be cloned to yield a local copy on the host system.
-                Thus, "poky" can refer to the local copy of the Source Directory used to develop within
-                the Yocto Project.</para></listitem>
-            <listitem><para><emphasis>Recipe:</emphasis> A set of instructions for building packages.
-                A recipe describes where you get source code and which patches to apply.
-                Recipes describe dependencies for libraries or for other recipes, and they
-                also contain configuration and compilation options.
-                Recipes contain the logical unit of execution, the software/images to build, and
-                use the <filename>.bb</filename> file extension.</para></listitem>
-            <listitem>
-                <para id='source-directory'><emphasis>Source Directory:</emphasis>
-                This term refers to the directory structure created as a result of either downloading
-                and unpacking a Yocto Project release tarball or creating a local copy of
-                the <filename>poky</filename> Git repository
-                <filename>git://git.yoctoproject.org/poky</filename>.
-                Sometimes you might hear the term "poky directory" used to refer to this
-                directory structure.
-                <note>
-                    The OpenEmbedded build system does not support file or directory names that
-                    contain spaces.
-                    Be sure that the Source Directory you use does not contain these types
-                    of names.
-                </note></para>
-                <para>The Source Directory contains BitBake, Documentation, metadata and
-                other files that all support the Yocto Project.
-                Consequently, you must have the Source Directory in place on your development
-                system in order to do any development using the Yocto Project.</para>
-
-                <para>For tarball expansion, the name of the top-level directory of the Source Directory
-                is derived from the Yocto Project release tarball.
-                For example, downloading and unpacking <filename>&YOCTO_POKY_TARBALL;</filename>
-                results in a Source Directory whose top-level folder is named
-                <filename>&YOCTO_POKY;</filename>.
-                If you create a local copy of the Git repository, then you can name the repository
-                anything you like.
-                Throughout much of the documentation, <filename>poky</filename> is used as the name of
-                the top-level folder of the local copy of the poky Git repository.
-                So, for example, cloning the <filename>poky</filename> Git repository results in a
-                local Git repository whose top-level folder is also named <filename>poky</filename>.</para>
-
-                <para>It is important to understand the differences between the Source Directory created
-                by unpacking a released tarball as compared to cloning
-                <filename>git://git.yoctoproject.org/poky</filename>.
-                When you unpack a tarball, you have an exact copy of the files based on the time of
-                release - a fixed release point.
-                Any changes you make to your local files in the Source Directory are on top of the release.
-                On the other hand, when you clone the <filename>poky</filename> Git repository, you have an
-                active development repository.
-                In this case, any local changes you make to the Source Directory can be later applied
-                to active development branches of the upstream <filename>poky</filename> Git
-                repository.</para>
-
-                <para>Finally, if you want to track a set of local changes while starting from the same point
-                as a release tarball, you can create a local Git branch that
-                reflects the exact copy of the files at the time of their release.
-                You do this by using Git tags that are part of the repository.</para>
-
-                <para>For more information on concepts related to Git repositories, branches, and tags,
-                see the
-                "<link linkend='repositories-tags-and-branches'>Repositories, Tags, and Branches</link>"
-                section.</para></listitem>
-            <listitem><para><emphasis>Tasks:</emphasis> Arbitrary groups of software Recipes.
-                You simply use Tasks to hold recipes that, when built, usually accomplish a single task.
-                For example, a task could contain the recipes for a company’s proprietary or value-add software.
-                Or, the task could contain the recipes that enable graphics.
-                A task is really just another recipe.
-                Because task files are recipes, they end with the <filename>.bb</filename> filename
-                extension.</para></listitem>
-            <listitem><para><emphasis>Upstream:</emphasis> A reference to source code or repositories
-                that are not local to the development system but located in a master area that is controlled
-                by the maintainer of the source code.
-                For example, in order for a developer to work on a particular piece of code, they need to
-                first get a copy of it from an "upstream" source.</para></listitem>
-        </itemizedlist>
-    </para>
-</section>
+        <para>
+            To dive down into a next level of detail, we can use 'perf
+            record'/'perf report' which will collect profiling data and
+            present it to use using an interactive text-based UI (or
+            simply as text if we specify --stdio to 'perf report').
+        </para>
 
-<section id='licensing'>
-    <title>Licensing</title>
+        <para>
+            As our first attempt at profiling this workload, we'll simply
+            run 'perf record', handing it the workload we want to profile
+            (everything after 'perf record' and any perf options we hand
+            it - here none - will be executedin a new shell). perf collects
+            samples until the process exits and records them in a file named
+            'perf.data' in the current working directory.
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf record wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
 
-    <para>
-        Because open source projects are open to the public, they have different licensing structures in place.
-        License evolution for both Open Source and Free Software has an interesting history.
-        If you are interested in this history, you can find basic information here:
-    <itemizedlist>
-        <listitem><para><ulink url='http://en.wikipedia.org/wiki/Open-source_license'>Open source license history</ulink>
-            </para></listitem>
-        <listitem><para><ulink url='http://en.wikipedia.org/wiki/Free_software_license'>Free software license
-            history</ulink></para></listitem>
-    </itemizedlist>
-    </para>
+     Connecting to downloads.yoctoproject.org (140.211.169.59:80)
+     linux-2.6.19.2.tar.b 100% |************************************************| 41727k  0:00:00 ETA
+     [ perf record: Woken up 1 times to write data ]
+     [ perf record: Captured and wrote 0.176 MB perf.data (~7700 samples) ]
+            </literallayout>
+            To see the results in a 'text-based UI' (tui), simply run
+            'perf report', which will read the perf.data file in the current
+            working directory and display the results in an interactive UI:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf report
+            </literallayout>
+        </para>
 
-    <para>
-        In general, the Yocto Project is broadly licensed under the Massachusetts Institute of Technology
-        (MIT) License.
-        MIT licensing permits the reuse of software within proprietary software as long as the
-        license is distributed with that software.
-        MIT is also compatible with the GNU General Public License (GPL).
-        Patches to the Yocto Project follow the upstream licensing scheme.
-        You can find information on the MIT license at
-        <ulink url='http://www.opensource.org/licenses/mit-license.php'>here</ulink>.
-        You can find information on the GNU GPL <ulink url='http://www.opensource.org/licenses/LGPL-3.0'>
-        here</ulink>.
-    </para>
+        <para>
+            <imagedata fileref="figures/perf-wget-flat-stripped.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        When you build an image using the Yocto Project, the build process uses a
-        known list of licenses to ensure compliance.
-        You can find this list in the Yocto Project files directory at
-        <filename>meta/files/common-licenses</filename>.
-        Once the build completes, the list of all licenses found and used during that build are
-        kept in the
-        <link linkend='build-directory'>Build Directory</link> at
-        <filename>tmp/deploy/images/licenses</filename>.
-    </para>
+        <para>
+            The above screenshot displays a 'flat' profile, one entry for
+            each 'bucket' corresponding to the functions that were profiled
+            during the profiling run, ordered from the most popular to the
+            least (perf has options to sort in various orders and keys as
+            well as display entries only above a certain threshold and so
+            on - see the perf documentation for details). Note that this
+            includes both userspace functions (entries containing a [.]) and
+            kernel functions accounted to the process (entries containing
+            a [k]). (perf has command-line modifiers that can be used to
+            restrict the profiling to kernel or userspace, among others).
+        </para>
 
-    <para>
-        If a module requires a license that is not in the base list, the build process
-        generates a warning during the build.
-        These tools make it easier for a developer to be certain of the licenses with which
-        their shipped products must comply.
-        However, even with these tools it is still up to the developer to resolve potential licensing issues.
-    </para>
+        <para>
+            Notice also that the above report shows an entry for 'busybox',
+            which is the executable that implements 'wget' in Yocto, but that
+            instead of a useful function name in that entry, it displays
+            an not-so-friendly hex value instead. The steps below will show
+            how to fix that problem.
+        </para>
 
-    <para>
-        The base list of licenses used by the build process is a combination of the Software Package
-        Data Exchange (SPDX) list and the Open Source Initiative (OSI) projects.
-        <ulink url='http://spdx.org'>SPDX Group</ulink> is a working group of the Linux Foundation
-        that maintains a specification
-        for a standard format for communicating the components, licenses, and copyrights
-        associated with a software package.
-        <ulink url='http://opensource.org'>OSI</ulink> is a corporation dedicated to the Open Source
-        Definition and the effort for reviewing and approving licenses that are OSD-conformant.
-    </para>
+        <para>
+            Before we do that, however, let's try running a different profile,
+            one which shows something a little more interesting. The only
+            difference between the new profile and the previous one is that
+            we'll add the -g option, which will record not just the address
+            of a sampled function, but the entire callchain to the sampled
+            function as well:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf record -g wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+     Connecting to downloads.yoctoproject.org (140.211.169.59:80)
+     linux-2.6.19.2.tar.b 100% |************************************************| 41727k  0:00:00 ETA
+     [ perf record: Woken up 3 times to write data ]
+     [ perf record: Captured and wrote 0.652 MB perf.data (~28476 samples) ]
 
-    <para>
-        You can find a list of the combined SPDX and OSI licenses that the Yocto Project uses
-        <ulink url='&YOCTO_GIT_URL;/cgit/cgit.cgi/poky/tree/meta/files/common-licenses'>here</ulink>.
-        This wiki page discusses the license infrastructure used by the Yocto Project.
-    </para>
 
-    <para>
-        For information that can help you to maintain compliance with various open source licensing
-        during the lifecycle of a product created using the Yocto Project, see the
-        "<link linkend='maintaining-open-source-license-compliance-during-your-products-lifecycle'>Maintaining Open Source License Compliance During Your Product's Lifecycle</link>" section.
-    </para>
-</section>
+     root@crownbay:~# perf report
+            </literallayout>
+        </para>
 
-<section id='git'>
-    <title>Git</title>
+        <para>
+            <imagedata fileref="figures/perf-wget-g-copy-to-user-expanded-stripped.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        The Yocto Project uses Git, which is a free, open source distributed version control system.
-        Git supports distributed development, non-linear development, and can handle large projects.
-        It is best that you have some fundamental understanding of how Git tracks projects and
-        how to work with Git if you are going to use Yocto Project for development.
-        This section provides a quick overview of how Git works and provides you with a summary
-        of some essential Git commands.
-    </para>
+        <para>
+            Using the callgraph view, we can actually see not only which
+            functions took the most time, but we can also see a summary of
+            how those functions were called and learn something about how the
+            program interacts with the kernel in the process.
+        </para>
 
-    <para>
-        For more information on Git, see
-        <ulink url='http://git-scm.com/documentation'></ulink>.
-        If you need to download Git, go to <ulink url='http://git-scm.com/download'></ulink>.
-    </para>
+        <para>
+            Notice that each entry in the above screenshot now contains a '+'
+            on the left-hand side. This means that we can expand the entry and
+            drill down into the callchains that feed into that entry.
+            Pressing 'enter' on any one of them will expand the callchain
+            (you can also press 'E' to expand them all at the same time or 'C'
+            to collapse them all).
+        </para>
 
-    <section id='repositories-tags-and-branches'>
-        <title>Repositories, Tags, and Branches</title>
+        <para>
+            In the screenshot above, we've toggled the __copy_to_user_ll()
+            entry and several subnodes all the way down. This lets us see
+            which callchains contributed to the profiled __copy_to_user_ll()
+            function which contributed 1.77% to the total profile.
+        </para>
 
         <para>
-            As mentioned earlier in section
-            "<link linkend='yocto-project-repositories'>Yocto Project Source Repositories</link>",
-            the Yocto Project maintains source repositories at
-            <ulink url='&YOCTO_GIT_URL;/cgit.cgi'></ulink>.
-            If you look at this web-interface of the repositories, each item is a separate
-            Git repository.
+            As a bit of background explanation for these callchains, think
+            about what happens at a high level when you run wget to get a file
+            out on the network. Basically what happens is that the data comes
+            into the kernel via the network connection (socket) and is passed
+            to the userspace program 'wget' (which is actually a part of
+            busybox, but that's not important for now), which takes the buffers
+            the kernel passes to it and writes it to a disk file to save it.
         </para>
 
         <para>
-            Git repositories use branching techniques that track content change (not files)
-            within a project (e.g. a new feature or updated documentation).
-            Creating a tree-like structure based on project divergence allows for excellent historical
-            information over the life of a project.
-            This methodology also allows for an environment in which you can do lots of
-            local experimentation on a project as you develop changes or new features.
+            The part of this process that we're looking at in the above call
+            stacks is the part where the kernel passes the data it's read from
+            the socket down to wget i.e. a copy-to-user.
         </para>
 
         <para>
-            A Git repository represents all development efforts for a given project.
-            For example, the Git repository <filename>poky</filename> contains all changes
-            and developments for Poky over the course of its entire life.
-            That means that all changes that make up all releases are captured.
-            The repository maintains a complete history of changes.
+            Notice also that here there's also a case where the a hex value
+            is displayed in the callstack, here in the expanded
+            sys_clock_gettime() function. Later we'll see it resolve to a
+            userspace function call in busybox.
         </para>
 
         <para>
-            You can create a local copy of any repository by "cloning" it with the Git
-            <filename>clone</filename> command.
-            When you clone a Git repository, you end up with an identical copy of the
-            repository on your development system.
-            Once you have a local copy of a repository, you can take steps to develop locally.
-            For examples on how to clone Git repositories, see the section
-            "<link linkend='getting-setup'>Getting Set Up</link>" earlier in this manual.
+            <imagedata fileref="figures/perf-wget-g-copy-from-user-expanded-stripped.png" width="6in" depth="7in" align="center" scalefit="1" />
         </para>
 
         <para>
-            It is important to understand that Git tracks content change and not files.
-            Git uses "branches" to organize different development efforts.
-            For example, the <filename>poky</filename> repository has
-            <filename>bernard</filename>,
-            <filename>edison</filename>, <filename>denzil</filename>, <filename>danny</filename>
-            and <filename>master</filename> branches among others.
-            You can see all the branches by going to
-            <ulink url='&YOCTO_GIT_URL;/cgit.cgi/poky/'></ulink> and
-            clicking on the
-            <filename><ulink url='&YOCTO_GIT_URL;/cgit.cgi/poky/refs/heads'>[...]</ulink></filename>
-            link beneath the "Branch" heading.
+            The above screenshot shows the other half of the journey for the
+            data - from the wget program's userspace buffers to disk. To get
+            the buffers to disk, the wget program issues a write(2), which
+            does a copy-from-user to the kernel, which then takes care via
+            some circuitous path (probably also present somewhere in the
+            profile data), to get it safely to disk.
         </para>
 
         <para>
-            Each of these branches represents a specific area of development.
-            The <filename>master</filename> branch represents the current or most recent
-            development.
-            All other branches represent off-shoots of the <filename>master</filename>
-            branch.
+            Now that we've seen the basic layout of the profile data and the
+            basics of how to extract useful information out of it, let's get
+            back to the task at hand and see if we can get some basic idea
+            about where the time is spent in the program we're profiling,
+            wget. Remember that wget is actually implemented as an applet
+            in busybox, so while the process name is 'wget', the executable
+            we're actually interested in is busybox. So let's expand the
+            first entry containing busybox:
         </para>
 
         <para>
-            When you create a local copy of a Git repository, the copy has the same set
-            of branches as the original.
-            This means you can use Git to create a local working area (also called a branch)
-            that tracks a specific development branch from the source Git repository.
-            in other words, you can define your local Git environment to work on any development
-            branch in the repository.
-            To help illustrate, here is a set of commands that creates a local copy of the
-            <filename>poky</filename> Git repository and then creates and checks out a local
-            Git branch that tracks the Yocto Project &DISTRO; Release (&DISTRO_NAME;) development:
-            <literallayout class='monospaced'>
-     $ cd ~
-     $ git clone git://git.yoctoproject.org/poky
-     $ cd poky
-     $ git checkout -b &DISTRO_NAME; origin/&DISTRO_NAME;
-            </literallayout>
-            In this example, the name of the top-level directory of your local Yocto Project
-            Files Git repository is <filename>poky</filename>,
-            and the name of the local working area (or local branch) you have created and checked
-            out is <filename>&DISTRO_NAME;</filename>.
-            The files in your repository now reflect the same files that are in the
-            <filename>&DISTRO_NAME;</filename> development branch of the Yocto Project's
-            <filename>poky</filename> repository.
-            It is important to understand that when you create and checkout a
-            local working branch based on a branch name,
-            your local environment matches the "tip" of that development branch
-            at the time you created your local branch, which could be
-            different than the files at the time of a similarly named release.
-            In other words, creating and checking out a local branch based on the
-            <filename>&DISTRO_NAME;</filename> branch name is not the same as
-            cloning and checking out the <filename>master</filename> branch.
-            Keep reading to see how you create a local snapshot of a Yocto Project Release.
+            <imagedata fileref="figures/perf-wget-busybox-expanded-stripped.png" width="6in" depth="7in" align="center" scalefit="1" />
         </para>
 
         <para>
-            Git uses "tags" to mark specific changes in a repository.
-            Typically, a tag is used to mark a special point such as the final change
-            before a project is released.
-            You can see the tags used with the <filename>poky</filename> Git repository
-            by going to <ulink url='&YOCTO_GIT_URL;/cgit.cgi/poky/'></ulink> and
-            clicking on the
-            <filename><ulink url='&YOCTO_GIT_URL;/cgit.cgi/poky/refs/tags'>[...]</ulink></filename>
-            link beneath the "Tag" heading.
+            Again, before we expanded we saw that the function was labeled
+            with a hex value instead of a symbol as with most of the kernel
+            entries. Expanding the busybox entry doesn't make it any better.
         </para>
 
         <para>
-            Some key tags are <filename>bernard-5.0</filename>, <filename>denzil-7.0</filename>,
-            and <filename>&DISTRO_NAME;-&POKYVERSION;</filename>.
-            These tags represent Yocto Project releases.
+            The problem is that perf can't find the symbol information for the
+            busybox binary, which is actually stripped out by the Yocto build
+            system.
         </para>
 
         <para>
-            When you create a local copy of the Git repository, you also have access to all the
-            tags.
-            Similar to branches, you can create and checkout a local working Git branch based
-            on a tag name.
-            When you do this, you get a snapshot of the Git repository that reflects
-            the state of the files when the change was made associated with that tag.
-            The most common use is to checkout a working branch that matches a specific
-            Yocto Project release.
-            Here is an example:
+            One way around that is to put the following in your local.conf
+            when you build the image:
             <literallayout class='monospaced'>
-     $ cd ~
-     $ git clone git://git.yoctoproject.org/poky
-     $ cd poky
-     $ git checkout -b my-&DISTRO_NAME;-&POKYVERSION; &DISTRO_NAME;-&POKYVERSION;
+     INHIBIT_PACKAGE_STRIP = "1"
             </literallayout>
-            In this example, the name of the top-level directory of your local Yocto Project
-            Files Git repository is <filename>poky</filename>.
-            And, the name of the local branch you have created and checked out is
-            <filename>my-&DISTRO_NAME;-&POKYVERSION;</filename>.
-            The files in your repository now exactly match the Yocto Project &DISTRO;
-            Release tag (<filename>&DISTRO_NAME;-&POKYVERSION;</filename>).
-            It is important to understand that when you create and checkout a local
-            working branch based on a tag, your environment matches a specific point
-            in time and not a development branch.
+            However, we already have an image with the binaries stripped,
+            so what can we do to get perf to resolve the symbols? Basically
+            we need to install the debuginfo for the busybox package.
         </para>
-    </section>
 
-    <section id='basic-commands'>
-        <title>Basic Commands</title>
+        <para>
+            To generate the debug info for the packages in the image, we can
+            to add dbg-pkgs to EXTRA_IMAGE_FEATURES in local.conf. For example:
+            <literallayout class='monospaced'>
+     EXTRA_IMAGE_FEATURES = "debug-tweaks tools-profile dbg-pkgs"
+            </literallayout>
+            Additionally, in order to generate the type of debuginfo that
+            perf understands, we also need to add the following to local.conf:
+            <literallayout class='monospaced'>
+     PACKAGE_DEBUG_SPLIT_STYLE = 'debug-file-directory'
+            </literallayout>
+            Once we've done that, we can install the debuginfo for busybox.
+            The debug packages once built can be found in
+            build/tmp/deploy/rpm/* on the host system. Find the
+            busybox-dbg-...rpm file and copy it to the target. For example:
+            <literallayout class='monospaced'>
+     [trz@empanada core2]$ scp /home/trz/yocto/crownbay-tracing-dbg/build/tmp/deploy/rpm/core2/busybox-dbg-1.20.2-r2.core2.rpm root@192.168.1.31:
+     root@192.168.1.31's password:
+     busybox-dbg-1.20.2-r2.core2.rpm                     100% 1826KB   1.8MB/s   00:01
+            </literallayout>
+            Now install the debug rpm on the target:
+            <literallayout class='monospaced'>
+     root@crownbay:~# rpm -i busybox-dbg-1.20.2-r2.core2.rpm
+            </literallayout>
+            Now that the debuginfo is installed, we see that the busybox
+            entries now display their functions symbolically:
+        </para>
 
         <para>
-            Git has an extensive set of commands that lets you manage changes and perform
-            collaboration over the life of a project.
-            Conveniently though, you can manage with a small set of basic operations and workflows
-            once you understand the basic philosophy behind Git.
-            You do not have to be an expert in Git to be functional.
-            A good place to look for instruction on a minimal set of Git commands is
-            <ulink url='http://git-scm.com/documentation'>here</ulink>.
-            If you need to download Git, you can do so
-            <ulink url='http://git-scm.com/download'>here</ulink>.
+            <imagedata fileref="figures/perf-wget-busybox-debuginfo.png" width="6in" depth="7in" align="center" scalefit="1" />
         </para>
 
         <para>
-            If you don’t know much about Git, we suggest you educate
-            yourself by visiting the links previously mentioned.
+            If we expand one of the entries and press 'enter' on a leaf node,
+            we're presented with a menu of actions we can take to get more
+            information related to that entry:
         </para>
 
         <para>
-            The following list briefly describes some basic Git operations as a way to get started.
-            As with any set of commands, this list (in most cases) simply shows the base command and
-            omits the many arguments they support.
-            See the Git documentation for complete descriptions and strategies on how to use these commands:
-            <itemizedlist>
-                <listitem><para><emphasis><filename>git init</filename>:</emphasis> Initializes an empty Git repository.
-                    You cannot use Git commands unless you have a <filename>.git</filename> repository.</para></listitem>
-                <listitem><para><emphasis><filename>git clone</filename>:</emphasis> Creates a clone of a repository.
-                    During collaboration, this command allows you to create a local repository that is on
-                    equal footing with a fellow developer’s repository.</para></listitem>
-                <listitem><para><emphasis><filename>git add</filename>:</emphasis> Adds updated file contents
-                    to the index that
-                    Git uses to track changes.
-                    You must add all files that have changed before you can commit them.</para></listitem>
-                <listitem><para><emphasis><filename>git commit</filename>:</emphasis> Creates a “commit” that documents
-                    the changes you made.
-                    Commits are used for historical purposes, for determining if a maintainer of a project
-                    will allow the change, and for ultimately pushing the change from your local Git repository
-                    into the project’s upstream (or master) repository.</para></listitem>
-                <listitem><para><emphasis><filename>git status</filename>:</emphasis> Reports any modified files that
-                    possibly need to be added and committed.</para></listitem>
-                <listitem><para><emphasis><filename>git checkout &lt;branch-name&gt;</filename>:</emphasis> Changes
-                    your working branch.
-                    This command is analogous to “cd”.</para></listitem>
-                <listitem><para><emphasis><filename>git checkout –b &lt;working-branch&gt;</filename>:</emphasis> Creates
-                    a working branch on your local machine where you can isolate work.
-                    It is a good idea to use local branches when adding specific features or changes.
-                    This way if you don’t like what you have done you can easily get rid of the work.</para></listitem>
-                <listitem><para><emphasis><filename>git branch</filename>:</emphasis> Reports
-                    existing local branches and
-                    tells you the branch in which you are currently working.</para></listitem>
-                <listitem><para><emphasis><filename>git branch -D &lt;branch-name&gt;</filename>:</emphasis>
-                    Deletes an existing local branch.
-                    You need to be in a local branch other than the one you are deleting
-                    in order to delete <filename>&lt;branch-name&gt;</filename>.</para></listitem>
-                <listitem><para><emphasis><filename>git pull</filename>:</emphasis> Retrieves information
-                    from an upstream Git
-                    repository and places it in your local Git repository.
-                    You use this command to make sure you are synchronized with the repository
-                    from which you are basing changes (.e.g. the master branch).</para></listitem>
-                <listitem><para><emphasis><filename>git push</filename>:</emphasis> Sends all your local changes you
-                    have committed to an upstream Git repository (e.g. a contribution repository).
-                    The maintainer of the project draws from these repositories when adding your changes to the
-                    project’s master repository.</para></listitem>
-                <listitem><para><emphasis><filename>git merge</filename>:</emphasis> Combines or adds changes from one
-                    local branch of your repository with another branch.
-                    When you create a local Git repository, the default branch is named “master”.
-                    A typical workflow is to create a temporary branch for isolated work, make and commit your
-                    changes, switch to your local master branch, merge the changes from the temporary branch into the
-                    local master branch, and then delete the temporary branch.</para></listitem>
-                <listitem><para><emphasis><filename>git cherry-pick</filename>:</emphasis> Choose and apply specific
-                    commits from one branch into another branch.
-                    There are times when you might not be able to merge all the changes in one branch with
-                    another but need to pick out certain ones.</para></listitem>
-                <listitem><para><emphasis><filename>gitk</filename>:</emphasis> Provides a GUI view of the branches
-                    and changes in your local Git repository.
-                    This command is a good way to graphically see where things have diverged in your
-                    local repository.</para></listitem>
-                <listitem><para><emphasis><filename>git log</filename>:</emphasis> Reports a history of your changes to the
-                    repository.</para></listitem>
-                <listitem><para><emphasis><filename>git diff</filename>:</emphasis> Displays line-by-line differences
-                    between your local working files and the same files in the upstream Git repository that your
-                    branch currently tracks.</para></listitem>
-            </itemizedlist>
+            <imagedata fileref="figures/perf-wget-busybox-dso-zoom-menu.png" width="6in" depth="7in" align="center" scalefit="1" />
         </para>
-    </section>
-</section>
 
-<section id='workflows'>
-    <title>Workflows</title>
+        <para>
+            One of these actions allows us to show a view that displays a
+            busybox-centric view of the profiled functions (in this case we've
+            also expanded all the nodes using the 'E' key):
+        </para>
 
-    <para>
-        This section provides some overview on workflows using Git.
-        In particular, the information covers basic practices that describe roles and actions in a
-        collaborative development environment.
-        Again, if you are familiar with this type of development environment, you might want to just
-        skip this section.
-    </para>
+        <para>
+            <imagedata fileref="figures/perf-wget-busybox-dso-zoom.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        The Yocto Project files are maintained using Git in a "master" branch whose Git history
-        tracks every change and whose structure provides branches for all diverging functionality.
-        Although there is no need to use Git, many open source projects do so.
-        For the Yocto Project, a key individual called the "maintainer" is responsible for the "master"
-        branch of the Git repository.
-        The "master" branch is the “upstream” repository where the final builds of the project occur.
-        The maintainer is responsible for allowing changes in from other developers and for
-        organizing the underlying branch structure to reflect release strategies and so forth.
-        <note>You can see who is the maintainer for Yocto Project files by examining the
-        <filename>maintainers.inc</filename> file in the Yocto Project
-        <filename>meta-yocto/conf/distro/include</filename> directory.</note>
-    </para>
+        <para>
+            Finally, we can see that now that the busybox debuginfo is
+            installed, the previously unresolved symbol in the
+            sys_clock_gettime() entry mentioned previously is now resolved,
+            and shows that the sys_clock_gettime system call that was the
+            source of 6.75% of the copy-to-user overhead was initiated by
+            the handle_input() busybox function:
+        </para>
 
-    <para>
-        The project also has contribution repositories known as “contrib” areas.
-        These areas temporarily hold changes to the project that have been submitted or committed
-        by the Yocto Project development team and by community members that contribute to the project.
-        The maintainer determines if the changes are qualified to be moved from the "contrib" areas
-        into the "master" branch of the Git repository.
-    </para>
+        <para>
+            <imagedata fileref="figures/perf-wget-g-copy-to-user-expanded-debuginfo.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        Developers (including contributing community members) create and maintain cloned repositories
-        of the upstream "master" branch.
-        These repositories are local to their development platforms and are used to develop changes.
-        When a developer is satisfied with a particular feature or change, they “push” the changes
-        to the appropriate "contrib" repository.
-    </para>
+        <para>
+            At the lowest level of detail, we can dive down to the assembly
+            level and see which instructions caused the most overhead in a
+            function. Pressing 'enter' on the 'udhcpc_main' function, we're
+            again presented with a menu:
+        </para>
 
-    <para>
-        Developers are responsible for keeping their local repository up-to-date with "master".
-        They are also responsible for straightening out any conflicts that might arise within files
-        that are being worked on simultaneously by more than one person.
-        All this work is done locally on the developer’s machine before anything is pushed to a
-        "contrib" area and examined at the maintainer’s level.
-    </para>
+        <para>
+            <imagedata fileref="figures/perf-wget-busybox-annotate-menu.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        A somewhat formal method exists by which developers commit changes and push them into the
-        "contrib" area and subsequently request that the maintainer include them into "master"
-        This process is called “submitting a patch” or “submitting a change.”
-        For information on submitting patches and changes, see the
-        "<link linkend='how-to-submit-a-change'>How to Submit a Change</link>" section.
-    </para>
+        <para>
+            Selecting 'Annotate udhcpc_main', we get a detailed listing of
+            percentages by instruction for the udhcpc_main function. From the
+            display, we can see that over 50% of the time spent in this
+            function is taken up by a couple tests and the move of a
+            constant (1) to a register:
+        </para>
 
-    <para>
-        To summarize the environment:  we have a single point of entry for changes into the project’s
-        "master" branch of the Git repository, which is controlled by the project’s maintainer.
-        And, we have a set of developers who independently develop, test, and submit changes
-        to "contrib" areas for the maintainer to examine.
-        The maintainer then chooses which changes are going to become a permanent part of the project.
-    </para>
+        <para>
+            <imagedata fileref="figures/perf-wget-busybox-annotate-udhcpc.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        <imagedata fileref="figures/git-workflow.png" width="6in" depth="3in" align="left" scalefit="1" />
-    </para>
+        <para>
+            As a segue into tracing, let's try another profile using a
+            different counter, something other than the default 'cycles'.
+        </para>
 
-    <para>
-        While each development environment is unique, there are some best practices or methods
-        that help development run smoothly.
-        The following list describes some of these practices.
-        For more information about Git workflows, see the workflow topics in the
-        <ulink url='http://book.git-scm.com'>Git Community Book</ulink>.
-        <itemizedlist>
-            <listitem><para><emphasis>Make Small Changes:</emphasis> It is best to keep the changes you commit
-                small as compared to bundling many disparate changes into a single commit.
-                This practice not only keeps things manageable but also allows the maintainer
-                to more easily include or refuse changes.</para>
-                <para>It is also good practice to leave the repository in a state that allows you to
-                still successfully build your project.  In other words, do not commit half of a feature,
-                then add the other half in a separate, later commit.
-                Each commit should take you from one buildable project state to another
-                buildable state.</para></listitem>
-            <listitem><para><emphasis>Use Branches Liberally:</emphasis> It is very easy to create, use, and
-                delete local branches in your working Git repository.
-                You can name these branches anything you like.
-                It is helpful to give them names associated with the particular feature or change
-                on which you are working.
-                Once you are done with a feature or change, simply discard the branch.</para></listitem>
-            <listitem><para><emphasis>Merge Changes:</emphasis> The <filename>git merge</filename>
-                command allows you to take the
-                changes from one branch and fold them into another branch.
-                This process is especially helpful when more than a single developer might be working
-                on different parts of the same feature.
-                Merging changes also automatically identifies any collisions or “conflicts”
-                that might happen as a result of the same lines of code being altered by two different
-                developers.</para></listitem>
-            <listitem><para><emphasis>Manage Branches:</emphasis> Because branches are easy to use, you should
-                use a system where branches indicate varying levels of code readiness.
-                For example, you can have a “work” branch to develop in, a “test” branch where the code or
-                change is tested, a “stage” branch where changes are ready to be committed, and so forth.
-                As your project develops, you can merge code across the branches to reflect ever-increasing
-                stable states of the development.</para></listitem>
-            <listitem><para><emphasis>Use Push and Pull:</emphasis> The push-pull workflow is based on the
-                concept of developers “pushing” local commits to a remote repository, which is
-                usually a contribution repository.
-                This workflow is also based on developers “pulling” known states of the project down into their
-                local development repositories.
-                The workflow easily allows you to pull changes submitted by other developers from the
-                upstream repository into your work area ensuring that you have the most recent software
-                on which to develop.
-                The Yocto Project has two scripts named <filename>create-pull-request</filename> and
-                <filename>send-pull-request</filename> that ship with the release to facilitate this
-                workflow.
-                You can find these scripts in the local Yocto Project files Git repository in
-                the <filename>scripts</filename> directory.</para>
-                <para>You can find more information on these scripts in the
-                "<link linkend='pushing-a-change-upstream'>Using
-                Scripts to Push a Change Upstream and Request a Pull</link>" section.
-                </para></listitem>
-            <listitem><para><emphasis>Patch Workflow:</emphasis> This workflow allows you to notify the
-                maintainer through an email that you have a change (or patch) you would like considered
-                for the "master" branch of the Git repository.
-                To send this type of change you format the patch and then send the email using the Git commands
-                <filename>git format-patch</filename> and <filename>git send-email</filename>.
-                You can find information on how to submit changes
-                later in this chapter.</para></listitem>
-        </itemizedlist>
-    </para>
-</section>
+        <para>
+            The tracing and profiling infrastructure in Linux has become
+            unified in a way that allows us to use the same tool with a
+            completely different set of counters, not just the standard
+            hardware counters that traditionally tools have had to restrict
+            themselves to (of course the traditional tools can also make use
+            of the expanded possibilities now available to them, and in some
+            cases have, as mentioned previously).
+        </para>
 
-<section id='tracking-bugs'>
-    <title>Tracking Bugs</title>
+        <para>
+            We can get a list of the available events that can be used to
+            profile a workload via 'perf list':
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf list
+
+     List of pre-defined events (to be used in -e):
+      cpu-cycles OR cycles                               [Hardware event]
+      stalled-cycles-frontend OR idle-cycles-frontend    [Hardware event]
+      stalled-cycles-backend OR idle-cycles-backend      [Hardware event]
+      instructions                                       [Hardware event]
+      cache-references                                   [Hardware event]
+      cache-misses                                       [Hardware event]
+      branch-instructions OR branches                    [Hardware event]
+      branch-misses                                      [Hardware event]
+      bus-cycles                                         [Hardware event]
+      ref-cycles                                         [Hardware event]
+
+      cpu-clock                                          [Software event]
+      task-clock                                         [Software event]
+      page-faults OR faults                              [Software event]
+      minor-faults                                       [Software event]
+      major-faults                                       [Software event]
+      context-switches OR cs                             [Software event]
+      cpu-migrations OR migrations                       [Software event]
+      alignment-faults                                   [Software event]
+      emulation-faults                                   [Software event]
+
+      L1-dcache-loads                                    [Hardware cache event]
+      L1-dcache-load-misses                              [Hardware cache event]
+      L1-dcache-prefetch-misses                          [Hardware cache event]
+      L1-icache-loads                                    [Hardware cache event]
+      L1-icache-load-misses                              [Hardware cache event]
+      .
+      .
+      .
+      rNNN                                               [Raw hardware event descriptor]
+      cpu/t1=v1[,t2=v2,t3 ...]/modifier                  [Raw hardware event descriptor]
+       (see 'perf list --help' on how to encode it)
+
+      mem:&lt;addr&gt;[:access]                                [Hardware breakpoint]
+
+      sunrpc:rpc_call_status                             [Tracepoint event]
+      sunrpc:rpc_bind_status                             [Tracepoint event]
+      sunrpc:rpc_connect_status                          [Tracepoint event]
+      sunrpc:rpc_task_begin                              [Tracepoint event]
+      skb:kfree_skb                                      [Tracepoint event]
+      skb:consume_skb                                    [Tracepoint event]
+      skb:skb_copy_datagram_iovec                        [Tracepoint event]
+      net:net_dev_xmit                                   [Tracepoint event]
+      net:net_dev_queue                                  [Tracepoint event]
+      net:netif_receive_skb                              [Tracepoint event]
+      net:netif_rx                                       [Tracepoint event]
+      napi:napi_poll                                     [Tracepoint event]
+      sock:sock_rcvqueue_full                            [Tracepoint event]
+      sock:sock_exceed_buf_limit                         [Tracepoint event]
+      udp:udp_fail_queue_rcv_skb                         [Tracepoint event]
+      hda:hda_send_cmd                                   [Tracepoint event]
+      hda:hda_get_response                               [Tracepoint event]
+      hda:hda_bus_reset                                  [Tracepoint event]
+      scsi:scsi_dispatch_cmd_start                       [Tracepoint event]
+      scsi:scsi_dispatch_cmd_error                       [Tracepoint event]
+      scsi:scsi_eh_wakeup                                [Tracepoint event]
+      drm:drm_vblank_event                               [Tracepoint event]
+      drm:drm_vblank_event_queued                        [Tracepoint event]
+      drm:drm_vblank_event_delivered                     [Tracepoint event]
+      random:mix_pool_bytes                              [Tracepoint event]
+      random:mix_pool_bytes_nolock                       [Tracepoint event]
+      random:credit_entropy_bits                         [Tracepoint event]
+      gpio:gpio_direction                                [Tracepoint event]
+      gpio:gpio_value                                    [Tracepoint event]
+      block:block_rq_abort                               [Tracepoint event]
+      block:block_rq_requeue                             [Tracepoint event]
+      block:block_rq_issue                               [Tracepoint event]
+      block:block_bio_bounce                             [Tracepoint event]
+      block:block_bio_complete                           [Tracepoint event]
+      block:block_bio_backmerge                          [Tracepoint event]
+      .
+      .
+      writeback:writeback_wake_thread                    [Tracepoint event]
+      writeback:writeback_wake_forker_thread             [Tracepoint event]
+      writeback:writeback_bdi_register                   [Tracepoint event]
+      .
+      .
+      writeback:writeback_single_inode_requeue           [Tracepoint event]
+      writeback:writeback_single_inode                   [Tracepoint event]
+      kmem:kmalloc                                       [Tracepoint event]
+      kmem:kmem_cache_alloc                              [Tracepoint event]
+      kmem:mm_page_alloc                                 [Tracepoint event]
+      kmem:mm_page_alloc_zone_locked                     [Tracepoint event]
+      kmem:mm_page_pcpu_drain                            [Tracepoint event]
+      kmem:mm_page_alloc_extfrag                         [Tracepoint event]
+      vmscan:mm_vmscan_kswapd_sleep                      [Tracepoint event]
+      vmscan:mm_vmscan_kswapd_wake                       [Tracepoint event]
+      vmscan:mm_vmscan_wakeup_kswapd                     [Tracepoint event]
+      vmscan:mm_vmscan_direct_reclaim_begin              [Tracepoint event]
+      .
+      .
+      module:module_get                                  [Tracepoint event]
+      module:module_put                                  [Tracepoint event]
+      module:module_request                              [Tracepoint event]
+      sched:sched_kthread_stop                           [Tracepoint event]
+      sched:sched_wakeup                                 [Tracepoint event]
+      sched:sched_wakeup_new                             [Tracepoint event]
+      sched:sched_process_fork                           [Tracepoint event]
+      sched:sched_process_exec                           [Tracepoint event]
+      sched:sched_stat_runtime                           [Tracepoint event]
+      rcu:rcu_utilization                                [Tracepoint event]
+      workqueue:workqueue_queue_work                     [Tracepoint event]
+      workqueue:workqueue_execute_end                    [Tracepoint event]
+      signal:signal_generate                             [Tracepoint event]
+      signal:signal_deliver                              [Tracepoint event]
+      timer:timer_init                                   [Tracepoint event]
+      timer:timer_start                                  [Tracepoint event]
+      timer:hrtimer_cancel                               [Tracepoint event]
+      timer:itimer_state                                 [Tracepoint event]
+      timer:itimer_expire                                [Tracepoint event]
+      irq:irq_handler_entry                              [Tracepoint event]
+      irq:irq_handler_exit                               [Tracepoint event]
+      irq:softirq_entry                                  [Tracepoint event]
+      irq:softirq_exit                                   [Tracepoint event]
+      irq:softirq_raise                                  [Tracepoint event]
+      printk:console                                     [Tracepoint event]
+      task:task_newtask                                  [Tracepoint event]
+      task:task_rename                                   [Tracepoint event]
+      syscalls:sys_enter_socketcall                      [Tracepoint event]
+      syscalls:sys_exit_socketcall                       [Tracepoint event]
+      .
+      .
+      .
+      syscalls:sys_enter_unshare                         [Tracepoint event]
+      syscalls:sys_exit_unshare                          [Tracepoint event]
+      raw_syscalls:sys_enter                             [Tracepoint event]
+      raw_syscalls:sys_exit                              [Tracepoint event]
+            </literallayout>
+        </para>
 
-    <para>
-        The Yocto Project uses its own implementation of
-        <ulink url='http://www.bugzilla.org/about/'>Bugzilla</ulink> to track bugs.
-        Implementations of Bugzilla work well for group development because they track bugs and code
-        changes, can be used to communicate changes and problems with developers, can be used to
-        submit and review patches, and can be used to manage quality assurance.
-        The home page for the Yocto Project implementation of Bugzilla is
-        <ulink url='&YOCTO_BUGZILLA_URL;'>&YOCTO_BUGZILLA_URL;</ulink>.
-    </para>
+        <note>
+            Tying It Together: These are exactly the same set of events defined
+            by the trace event subsystem and exposed by
+            ftrace/tracecmd/kernelshark as files in
+            /sys/kernel/debug/tracing/events, by SystemTap as
+            kernel.trace("tracepoint_name") and (partially) accessed by LTTng.
+        </note>
 
-    <para>
-        Sometimes it is helpful to submit, investigate, or track a bug against the Yocto Project itself
-        such as when discovering an issue with some component of the build system that acts contrary
-        to the documentation or your expectations.
-        Following is the general procedure for submitting a new bug using the Yocto Project
-        Bugzilla.
-        You can find more information on defect management, bug tracking, and feature request
-        processes all accomplished through the Yocto Project Bugzilla on the wiki page
-        <ulink url='&YOCTO_WIKI_URL;/wiki/Bugzilla_Configuration_and_Bug_Tracking'>here</ulink>.
-        <orderedlist>
-            <listitem><para>Always use the Yocto Project implementation of Bugzilla to submit
-                a bug.</para></listitem>
-            <listitem><para>When submitting a new bug, be sure to choose the appropriate
-                Classification, Product, and Component for which the issue was found.
-                Defects for Yocto Project fall into one of six classifications:  Yocto Project
-                Components, Infrastructure, Build System &amp; Metadata, Documentation,
-                QA/Testing, and Runtime.
-                Each of these Classifications break down into multiple Products and, in some
-                cases, multiple Components.</para></listitem>
-            <listitem><para>Use the bug form to choose the correct Hardware and Architecture
-                for which the bug applies.</para></listitem>
-            <listitem><para>Indicate the Yocto Project version you were using when the issue
-                occurred.</para></listitem>
-            <listitem><para>Be sure to indicate the Severity of the bug.
-                Severity communicates how the bug impacted your work.</para></listitem>
-            <listitem><para>Provide a brief summary of the issue.
-                Try to limit your summary to just a line or two and be sure to capture the
-                essence of the issue.</para></listitem>
-            <listitem><para>Provide a detailed description of the issue.
-                You should provide as much detail as you can about the context, behavior, output,
-                and so forth that surround the issue.
-                You can even attach supporting files for output or log by using the "Add an attachment"
-                button.</para></listitem>
-            <listitem><para>Submit the bug by clicking the "Submit Bug" button.</para></listitem>
-        </orderedlist>
-    </para>
-</section>
+        <para>
+            Only a subset of these would be of interest to us when looking at
+            this workload, so let's choose the most likely subsystems
+            (identified by the string before the colon in the Tracepoint events)
+            and do a 'perf stat' run using only those wildcarded subsystems:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf stat -e skb:* -e net:* -e napi:* -e sched:* -e workqueue:* -e irq:* -e syscalls:* wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+     Performance counter stats for 'wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2':
+
+                 23323 skb:kfree_skb
+                     0 skb:consume_skb
+                 49897 skb:skb_copy_datagram_iovec
+                  6217 net:net_dev_xmit
+                  6217 net:net_dev_queue
+                  7962 net:netif_receive_skb
+                     2 net:netif_rx
+                  8340 napi:napi_poll
+                     0 sched:sched_kthread_stop
+                     0 sched:sched_kthread_stop_ret
+                  3749 sched:sched_wakeup
+                     0 sched:sched_wakeup_new
+                     0 sched:sched_switch
+                    29 sched:sched_migrate_task
+                     0 sched:sched_process_free
+                     1 sched:sched_process_exit
+                     0 sched:sched_wait_task
+                     0 sched:sched_process_wait
+                     0 sched:sched_process_fork
+                     1 sched:sched_process_exec
+                     0 sched:sched_stat_wait
+         2106519415641 sched:sched_stat_sleep
+                     0 sched:sched_stat_iowait
+             147453613 sched:sched_stat_blocked
+           12903026955 sched:sched_stat_runtime
+                     0 sched:sched_pi_setprio
+                  3574 workqueue:workqueue_queue_work
+                  3574 workqueue:workqueue_activate_work
+                     0 workqueue:workqueue_execute_start
+                     0 workqueue:workqueue_execute_end
+                 16631 irq:irq_handler_entry
+                 16631 irq:irq_handler_exit
+                 28521 irq:softirq_entry
+                 28521 irq:softirq_exit
+                 28728 irq:softirq_raise
+                     1 syscalls:sys_enter_sendmmsg
+                     1 syscalls:sys_exit_sendmmsg
+                     0 syscalls:sys_enter_recvmmsg
+                     0 syscalls:sys_exit_recvmmsg
+                    14 syscalls:sys_enter_socketcall
+                    14 syscalls:sys_exit_socketcall
+                       .
+                       .
+                       .
+                 16965 syscalls:sys_enter_read
+                 16965 syscalls:sys_exit_read
+                 12854 syscalls:sys_enter_write
+                 12854 syscalls:sys_exit_write
+                       .
+                       .
+                       .
+
+          58.029710972 seconds time elapsed
+            </literallayout>
+            Let's pick one of these tracepoints and tell perf to do a profile
+            using it as the sampling event:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf record -g -e sched:sched_wakeup wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+            </literallayout>
+        </para>
 
-<section id='how-to-submit-a-change'>
-    <title>How to Submit a Change</title>
+        <para>
+            <imagedata fileref="figures/sched-wakeup-profile.png" width="6in" depth="7in" align="center" scalefit="1" />
+        </para>
 
-    <para>
-        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.
-        You should send patches to the appropriate mailing list so that they
-        can be reviewed and merged by the appropriate maintainer.
-        For a list of the Yocto Project and related mailing lists, see the
-        "<ulink url='&YOCTO_DOCS_REF_URL;#resources-mailinglist'>Mailing lists</ulink>" section in
-        the Yocto Project Reference Manual.
-    </para>
+        <para>
+            The screenshot above shows the results of running a profile using
+            sched:sched_switch tracepoint, which shows the relative costs of
+            various paths to sched_wakeup (note that sched_wakeup is the
+            name of the tracepoint - it's actually defined just inside
+            ttwu_do_wakeup(), which accounts for the function name actually
+            displayed in the profile:
+            <literallayout class='monospaced'>
+     /*
+      * Mark the task runnable and perform wakeup-preemption.
+      */
+     static void
+     ttwu_do_wakeup(struct rq *rq, struct task_struct *p, int wake_flags)
+     {
+          trace_sched_wakeup(p, true);
+          .
+          .
+          .
+     }
+            </literallayout>
+            A couple of the more interesting callchains are expanded and
+            displayed above, basically some network receive paths that
+            presumably end up waking up wget (busybox) when network data is
+            ready.
+        </para>
 
-    <para>
-        The following is some guidance on which mailing list to use for what type of change:
-        <itemizedlist>
-            <listitem><para>For changes to the core metadata, send your patch to the
-                <ulink url='&OE_LISTS_URL;/listinfo/openembedded-core'>openembedded-core</ulink> mailing list.
-                For example, a change to anything under the <filename>meta</filename> or
-                <filename>scripts</filename> directories
-                should be sent to this mailing list.</para></listitem>
-            <listitem><para>For changes to BitBake (anything under the <filename>bitbake</filename>
-                directory), send your patch to the
-                <ulink url='&OE_LISTS_URL;/listinfo/bitbake-devel'>bitbake-devel</ulink> mailing list.</para></listitem>
-            <listitem><para>For changes to <filename>meta-yocto</filename>, send your patch to the
-                <ulink url='&YOCTO_LISTS_URL;/listinfo/poky'>poky</ulink> mailing list.</para></listitem>
-            <listitem><para>For changes to other layers hosted on
-                <filename>yoctoproject.org</filename> (unless the
-                layer's documentation specifies otherwise), tools, and Yocto Project
-                documentation, use the
-                <ulink url='&YOCTO_LISTS_URL;/listinfo/yocto'>yocto</ulink> mailing list.</para></listitem>
-            <listitem><para>For additional recipes that do not fit into the core metadata,
-                you should determine which layer the recipe should go into and submit the
-                change in the manner recommended by the documentation (e.g. README) supplied
-                with the layer. If in doubt, please ask on the
-                <ulink url='&YOCTO_LISTS_URL;/listinfo/yocto'>yocto</ulink> or
-                <ulink url='&OE_LISTS_URL;/listinfo/openembedded-devel'>openembedded-devel</ulink>
-                mailing lists.</para></listitem>
-        </itemizedlist>
-    </para>
+        <para>
+            Note that because tracepoints are normally used for tracing,
+            the default sampling period for tracepoints is 1 i.e. for
+            tracepoints perf will sample on every event occurrence (this
+            can be changed using the -c option). This is in contrast to
+            hardware counters such as for example the default 'cycles'
+            hardware counter used for normal profiling, where sampling
+            periods are much higher (in the thousands) because profiling should
+            have as low an overhead as possible and sampling on every cycle w
+            ould be prohibitively expensive.
+        </para>
+    </section>
 
-    <para>
-        When you send a patch, be sure to include a "Signed-off-by:"
-        line in the same style as required by the Linux kernel.
-        Adding this line signifies that you, the submitter, have agreed to the Developer's Certificate of Origin 1.1
-        as follows:
-        <literallayout class='monospaced'>
-     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.
-        </literallayout>
-    </para>
+    <section id='using-perf-to-do-basic-tracing'>
+        <title>Using perf to do Basic Tracing</title>
 
-    <para>
-        In a collaborative environment, it is necessary to have some sort of standard
-        or method through which you submit changes.
-        Otherwise, things could get quite chaotic.
-        One general practice to follow is to make small, controlled changes.
-        Keeping changes small and isolated aids review, makes merging/rebasing easier
-        and keeps the change history clean when anyone needs to refer to it in future.
-    </para>
+        <para>
+            Profiling is a great tool for solving many problems or for
+            getting a high-level view of what's going on with a workload or
+            across the system. It is however by definition an approximation,
+            as suggested by the most prominent word associated with it,
+            'sampling'. On the one hand, it allows a representative picture of
+            what's going on in the system to be cheaply taken, but on the other
+            hand, that cheapness limits its utility when that data suggests a
+            need to 'dive down' more deeply to discover what's really going
+            on. In such cases, the only way to see what's really going on is
+            to be able to look at (or summarize more intelligently) the
+            individual steps that go into the higher-level behavior exposed
+            by the coarse-grained profiling data.
+        </para>
 
-    <para>
-        When you make a commit, you must follow certain standards established by the
-        OpenEmbedded and Yocto Project development teams.
-        For each commit, you must provide a single-line summary of the change and you
-        should almost always provide a more detailed description of what you did (i.e.
-        the body of the commit message).
-        The only exceptions for not providing a detailed description would be if your
-        change is a simple, self-explanatory change that needs no further description
-        beyond the summary.
-        Here are the guidelines for composing a commit message:
-        <itemizedlist>
-            <listitem><para>Provide a single-line, short summary of the change.
-                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.
-                This should be prefixed by the recipe name (if changing a recipe), or
-                else the short form path to the file being changed.
-                </para></listitem>
-            <listitem><para>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 may 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.
-                </para></listitem>
-            <listitem><para>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 include the
-                bug ID in the description (typically at the beginning) as follows:
-                <literallayout class='monospaced'>
-     [YOCTO #&lt;bug-id&gt;]
-
-     &lt;detailed description of change&gt;
-                </literallayout></para></listitem>
-                Where &lt;bug-id&gt; is replaced with the specific bug ID from the
-                Yocto Project Bugzilla instance.
-        </itemizedlist>
-    </para>
+        <para>
+            As a concrete example, we can trace all the events we think might
+            be applicable to our workload:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf record -g -e skb:* -e net:* -e napi:* -e sched:sched_switch -e sched:sched_wakeup -e irq:*
+      -e syscalls:sys_enter_read -e syscalls:sys_exit_read -e syscalls:sys_enter_write -e syscalls:sys_exit_write
+      wget http://downloads.yoctoproject.org/mirror/sources/linux-2.6.19.2.tar.bz2
+            </literallayout>
+            We can look at the raw trace output using 'perf script' with no
+            arguments:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf script
+
+           perf  1262 [000] 11624.857082: sys_exit_read: 0x0
+           perf  1262 [000] 11624.857193: sched_wakeup: comm=migration/0 pid=6 prio=0 success=1 target_cpu=000
+           wget  1262 [001] 11624.858021: softirq_raise: vec=1 [action=TIMER]
+           wget  1262 [001] 11624.858074: softirq_entry: vec=1 [action=TIMER]
+           wget  1262 [001] 11624.858081: softirq_exit: vec=1 [action=TIMER]
+           wget  1262 [001] 11624.858166: sys_enter_read: fd: 0x0003, buf: 0xbf82c940, count: 0x0200
+           wget  1262 [001] 11624.858177: sys_exit_read: 0x200
+           wget  1262 [001] 11624.858878: kfree_skb: skbaddr=0xeb248d80 protocol=0 location=0xc15a5308
+           wget  1262 [001] 11624.858945: kfree_skb: skbaddr=0xeb248000 protocol=0 location=0xc15a5308
+           wget  1262 [001] 11624.859020: softirq_raise: vec=1 [action=TIMER]
+           wget  1262 [001] 11624.859076: softirq_entry: vec=1 [action=TIMER]
+           wget  1262 [001] 11624.859083: softirq_exit: vec=1 [action=TIMER]
+           wget  1262 [001] 11624.859167: sys_enter_read: fd: 0x0003, buf: 0xb7720000, count: 0x0400
+           wget  1262 [001] 11624.859192: sys_exit_read: 0x1d7
+           wget  1262 [001] 11624.859228: sys_enter_read: fd: 0x0003, buf: 0xb7720000, count: 0x0400
+           wget  1262 [001] 11624.859233: sys_exit_read: 0x0
+           wget  1262 [001] 11624.859573: sys_enter_read: fd: 0x0003, buf: 0xbf82c580, count: 0x0200
+           wget  1262 [001] 11624.859584: sys_exit_read: 0x200
+           wget  1262 [001] 11624.859864: sys_enter_read: fd: 0x0003, buf: 0xb7720000, count: 0x0400
+           wget  1262 [001] 11624.859888: sys_exit_read: 0x400
+           wget  1262 [001] 11624.859935: sys_enter_read: fd: 0x0003, buf: 0xb7720000, count: 0x0400
+           wget  1262 [001] 11624.859944: sys_exit_read: 0x400
+            </literallayout>
+            This gives us a detailed timestamped sequence of events that
+            occurred within the workload with respect to those events.
+        </para>
 
-    <para>
-        You can find more guidance on creating well-formed commit messages at this OpenEmbedded
-        wiki page:
-        <ulink url='&OE_HOME_URL;/wiki/Commit_Patch_Message_Guidelines'></ulink>.
-    </para>
+        <para>
+            In many ways, profiling can be viewed as a subset of tracing -
+            theoretically, if you have a set of trace events that's sufficient
+            to capture all the important aspects of a workload, you can derive
+            any of the results or views that a profiling run can.
+        </para>
 
-    <para>
-        Following are general instructions for both pushing changes upstream and for submitting
-        changes as patches.
-    </para>
+        <para>
+            Another aspect of traditional profiling is that while powerful in
+            many ways, it's limited by the granularity of the underlying data.
+            Profiling tools offer various ways of sorting and presenting the
+            sample data, which make it much more useful and amenable to user
+            experimentation, but in the end it can't be used in an open-ended
+            way to extract data that just isn't present as a consequence of
+            the fact that conceptually, most of it has been thrown away.
+        </para>
 
-    <section id='pushing-a-change-upstream'>
-        <title>Using Scripts to Push a Change Upstream and Request a Pull</title>
+        <para>
+            Full-blown detailed tracing data does however offer the opportunity
+            to manipulate and present the information collected during a
+            tracing run in an infinite variety of ways.
+        </para>
 
         <para>
-            The basic flow for pushing a change to an upstream "contrib" Git repository is as follows:
-            <itemizedlist>
-                <listitem><para>Make your changes in your local Git repository.</para></listitem>
-                <listitem><para>Stage your changes by using the <filename>git add</filename>
-                    command on each file you changed.</para></listitem>
-                <listitem><para>Commit the change by using the <filename>git commit</filename>
-                    command and push it to the "contrib" repository.
-                    Be sure to provide a commit message that follows the project’s commit message standards
-                    as described earlier.</para></listitem>
-                <listitem><para>Notify the maintainer 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 <filename>create-pull-request</filename> and
-                    <filename>send-pull-request</filename>.
-                    You can find these scripts in the <filename>scripts</filename> directory
-                    within the <link linkend='source-directory'>Source Directory</link>.</para>
-                    <para>Using these scripts correctly formats the requests without introducing any
-                    whitespace or HTML formatting.
-                    The maintainer that receives your patches needs to be able to save and apply them
-                    directly from your emails.
-                    Using these scripts is the preferred method for sending patches.</para>
-                    <para>For help on using these scripts, simply provide the
-                    <filename>-h</filename> argument as follows:
-                    <literallayout class='monospaced'>
-     $ ~/poky/scripts/create-pull-request -h
-     $ ~/poky/scripts/send-pull-request -h
-                    </literallayout></para></listitem>
-            </itemizedlist>
+            Another way to look at it is that there are only so many ways that
+            the 'primitive' counters can be used on their own to generate
+            interesting output; to get anything more complicated than simple
+            counts requires some amount of additional logic, which is typically
+            very specific to the problem at hand. For example, if we wanted to
+            make use of a 'counter' that maps to the value of the time
+            difference between when a process was scheduled to run on a
+            processor and the time it actually ran, we wouldn't expect such
+            a counter to exist on its own, but we could derive one called say
+            'wakeup_latency' and use it to extract a useful view of that metric
+            from trace data. Likewise, we really can't figure out from standard
+            profiling tools how much data every process on the system reads and
+            writes, along with how many of those reads and writes fail
+            completely. If we have sufficient trace data, however, we could
+            with the right tools easily extract and present that information,
+            but we'd need something other than pre-canned profiling tools to
+            do that.
         </para>
 
         <para>
-            You can find general Git information on how to push a change upstream in the
-            <ulink url='http://book.git-scm.com/3_distributed_workflows.html'>Git Community Book</ulink>.
+            Luckily, there is general-purpose way to handle such needs,
+            called 'programming languages'. Making programming languages
+            easily available to apply to such problems given the specific
+            format of data is called a 'programming language binding' for
+            that data and language. Perf supports two programming language
+            bindings, one for Python and one for Perl.
         </para>
-    </section>
 
-    <section id='submitting-a-patch'>
-        <title>Using Email to Submit a Patch</title>
+        <note>
+            Tying It Together: Language bindings for manipulating and
+            aggregating trace data are of course not a new
+            idea.  One of the first projects to do this was IBM's DProbes
+            dpcc compiler, an ANSI C compiler which targeted a low-level
+            assembly language running on an in-kernel interpreter on the
+            target system.  This is exactly analagous to what Sun's DTrace
+            did, except that DTrace invented its own language for the purpose.
+            Systemtap, heavily inspired by DTrace, also created its own
+            one-off language, but rather than running the product on an
+            in-kernel interpreter, created an elaborate compiler-based
+            machinery to translate its language into kernel modules written
+            in C.
+        </note>
+
+        <para>
+            Now that we have the trace data in perf.data, we can use
+            'perf script -g' to generate a skeleton script with handlers
+            for the read/write entry/exit events we recorded:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf script -g python
+     generated Python script: perf-script.py
+            </literallayout>
+            The skeleton script simply creates a python function for each
+            event type in the perf.data file. The body of each function simply
+            prints the event name along with its parameters. For example:
+            <literallayout class='monospaced'>
+     def net__netif_rx(event_name, context, common_cpu,
+            common_secs, common_nsecs, common_pid, common_comm,
+            skbaddr, len, name):
+                    print_header(event_name, common_cpu, common_secs, common_nsecs,
+                            common_pid, common_comm)
+
+                     print "skbaddr=%u, len=%u, name=%s\n" % (skbaddr, len, name),
+            </literallayout>
+            We can run that script directly to print all of the events
+            contained in the perf.data file:
+            <literallayout class='monospaced'>
+     root@crownbay:~# perf script -s perf-script.py
+
+     in trace_begin
+     syscalls__sys_exit_read     0 11624.857082795     1262 perf                  nr=3, ret=0
+     sched__sched_wakeup      0 11624.857193498     1262 perf                  comm=migration/0, pid=6, prio=0,      success=1, target_cpu=0
+     irq__softirq_raise       1 11624.858021635     1262 wget                  vec=TIMER
+     irq__softirq_entry       1 11624.858074075     1262 wget                  vec=TIMER
+     irq__softirq_exit        1 11624.858081389     1262 wget                  vec=TIMER
+     syscalls__sys_enter_read     1 11624.858166434     1262 wget                  nr=3, fd=3, buf=3213019456,      count=512
+     syscalls__sys_exit_read     1 11624.858177924     1262 wget                  nr=3, ret=512
+     skb__kfree_skb           1 11624.858878188     1262 wget                  skbaddr=3945041280,           location=3243922184, protocol=0
+     skb__kfree_skb           1 11624.858945608     1262 wget                  skbaddr=3945037824,      location=3243922184, protocol=0
+     irq__softirq_raise       1 11624.859020942     1262 wget                  vec=TIMER
+     irq__softirq_entry       1 11624.859076935     1262 wget                  vec=TIMER
+     irq__softirq_exit        1 11624.859083469     1262 wget                  vec=TIMER
+     syscalls__sys_enter_read     1 11624.859167565     1262 wget                  nr=3, fd=3, buf=3077701632,      count=1024
+     syscalls__sys_exit_read     1 11624.859192533     1262 wget                  nr=3, ret=471
+     syscalls__sys_enter_read     1 11624.859228072     1262 wget                  nr=3, fd=3, buf=3077701632,      count=1024
+     syscalls__sys_exit_read     1 11624.859233707     1262 wget                  nr=3, ret=0
+     syscalls__sys_enter_read     1 11624.859573008     1262 wget                  nr=3, fd=3, buf=3213018496,      count=512
+     syscalls__sys_exit_read     1 11624.859584818     1262 wget                  nr=3, ret=512
+     syscalls__sys_enter_read     1 11624.859864562     1262 wget                  nr=3, fd=3, buf=3077701632,      count=1024
+     syscalls__sys_exit_read     1 11624.859888770     1262 wget                  nr=3, ret=1024
+     syscalls__sys_enter_read     1 11624.859935140     1262 wget                  nr=3, fd=3, buf=3077701632,      count=1024
+     syscalls__sys_exit_read     1 11624.859944032     1262 wget                  nr=3, ret=1024
+            </literallayout>
+            That in itself isn't very useful; after all, we can accomplish
+            pretty much the same thing by simply running 'perf script'
+            without arguments in the same directory as the perf.data file.
+        </para>
 
         <para>
-            You can submit patches without using the <filename>create-pull-request</filename> and
-            <filename>send-pull-request</filename> scripts described in the previous section.
-            Keep in mind, the preferred method is to use the scripts, however.
+            We can however replace the print statements in the generated
+            function bodies with whatever we want, and thereby make it
+            infinitely more useful.
         </para>
 
         <para>
-            Depending on the components changed, you need to submit the email to a specific
-            mailing list.
-            For some guidance on which mailing list to use, see the list in the
-            "<link linkend='how-to-submit-a-change'>How to Submit a Change</link>" section
-            earlier in this manual.
-            For a description of the available mailing lists, see
-            "<ulink url='&YOCTO_DOCS_REF_URL;#resources-mailinglist'>Mailing Lists</ulink>"
-            section in the Yocto Project Reference Manual.
+            As a simple example, let's just replace the print statements in
+            the function bodies with a simple function that does nothing but
+            increment a per-event count. When the program is run against a
+            perf.data file, each time a particular event is encountered,
+            a tally is incremented for that event. For example:
+            <literallayout class='monospaced'>
+     def net__netif_rx(event_name, context, common_cpu,
+            common_secs, common_nsecs, common_pid, common_comm,
+            skbaddr, len, name):
+                          inc_counts(event_name)
+            </literallayout>
+            Each event handler function in the generated code is modified
+            to do this. For convenience, we define a common function called
+            inc_counts() that each handler calls; inc_counts simply tallies
+            a count for each event using the 'counts' hash, which is a
+            specialized has function that does Perl-like autovivification, a
+            capability that's extremely useful for kinds of multi-level
+            aggregation commonly used in processing traces (see perf's
+            documentation on the Python language binding for details):
+            <literallayout class='monospaced'>
+     counts = autodict()
+
+     def inc_counts(event_name):
+            try:
+                    counts[event_name] += 1
+            except TypeError:
+                    counts[event_name] = 1
+            </literallayout>
+            Finally, at the end of the trace processing run, we want to
+            print the result of all the per-event tallies. For that, we
+            use the special 'trace_end()' function:
+            <literallayout class='monospaced'>
+     def trace_end():
+            for event_name, count in counts.iteritems():
+                    print "%-40s %10s\n" % (event_name, count)
+            </literallayout>
+            The end result is a summary of all the events recorded in the
+            trace:
+            <literallayout>
+     skb__skb_copy_datagram_iovec                  13148
+     irq__softirq_entry                             4796
+     irq__irq_handler_exit                          3805
+     irq__softirq_exit                              4795
+     syscalls__sys_enter_write                      8990
+     net__net_dev_xmit                               652
+     skb__kfree_skb                                 4047
+     sched__sched_wakeup                            1155
+     irq__irq_handler_entry                         3804
+     irq__softirq_raise                             4799
+     net__net_dev_queue                              652
+     syscalls__sys_enter_read                      17599
+     net__netif_receive_skb                         1743
+     syscalls__sys_exit_read                       17598
+     net__netif_rx                                     2
+     napi__napi_poll                                1877
+     syscalls__sys_exit_write                       8990
+            </literallayout>
+            Note that this is pretty much exactly the same information we get
+            from 'perf stat', which goes a little way to support the idea
+            mentioned previously that given the right kind of trace data,
+            higher-level profiling-type summaries can be derived from it.
         </para>
 
         <para>
-            Here is the general procedure on how to submit a patch through email without using the
-            scripts:
-            <itemizedlist>
-                <listitem><para>Make your changes in your local Git repository.</para></listitem>
-                <listitem><para>Stage your changes by using the <filename>git add</filename>
-                    command on each file you changed.</para></listitem>
-                <listitem><para>Commit the change by using the
-                    <filename>git commit --signoff</filename> command.
-                    Using the <filename>--signoff</filename> option identifies you as the person
-                    making the change and also satisfies the Developer's Certificate of
-                    Origin (DCO) shown earlier.</para>
-                    <para>When you form a commit you must follow certain standards established by the
-                    Yocto Project development team.
-                    See the earlier section
-                    "<link linkend='how-to-submit-a-change'>How to Submit a Change</link>"
-                    for Yocto Project commit message standards.</para></listitem>
-                <listitem><para>Format the commit into an email message.
-                    To format commits, use the <filename>git format-patch</filename> command.
-                    When you provide the command, you must include a revision list or a number of patches
-                    as part of the command.
-                    For example, these two commands each take the most recent single commit and
-                    format it as an email message in the current directory:
-                    <literallayout class='monospaced'>
-     $ git format-patch -1
-     $ git format-patch HEAD~
-                    </literallayout></para>
-                    <para>After the command is run, the current directory contains a
-                    numbered <filename>.patch</filename> file for the commit.</para>
-                    <para>If you provide several commits as part of the command,
-                    the <filename>git format-patch</filename> command produces a numbered
-                    series of files in the current directory – one for each commit.
-                    If you have more than one patch, you should also use the
-                    <filename>--cover</filename> option with the command, which generates a
-                    cover letter as the first "patch" in the series.
-                    You can then edit the cover letter to provide a description for
-                    the series of patches.
-                    For information on the <filename>git format-patch</filename> command,
-                    see <filename>GIT_FORMAT_PATCH(1)</filename> displayed using the
-                    <filename>man git-format-patch</filename> command.</para>
-                    <note>If you are or will be a frequent contributor to the Yocto Project
-                    or to OpenEmbedded, you might consider requesting a contrib area and the
-                    necessary associated rights.</note></listitem>
-                <listitem><para>Import the files into your mail client by using the
-                    <filename>git send-email</filename> command.
-                    <note>In order to use <filename>git send-email</filename>, you must have the
-                    the proper Git packages installed.
-                    For Ubuntu and Fedora the package is <filename>git-email</filename>.</note></para>
-                    <para>The <filename>git send-email</filename> command sends email by using a local
-                    or remote Mail Transport Agent (MTA) such as
-                    <filename>msmtp</filename>, <filename>sendmail</filename>, or through a direct
-                    <filename>smtp</filename> configuration in your Git <filename>config</filename>
-                    file.
-                    If you are submitting patches through email only, it is very important
-                    that you submit 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.
-                    A good way to verify that what you are sending will be applicable by the
-                    maintainer is to do a dry run and send them to yourself and then
-                    save and apply them as the maintainer would.</para>
-                    <para>The <filename>git send-email</filename> command is the preferred method
-                    for sending your patches since there is no risk of compromising whitespace
-                    in the body of the message, which can occur when you use your own mail client.
-                    The command also has several options that let you
-                    specify recipients and perform further editing of the email message.
-                    For information on how to use the <filename>git send-email</filename> command,
-                    use the <filename>man git-send-email</filename> command.</para></listitem>
-            </itemizedlist>
+            Documentation on using the
+            <ulink url='http://linux.die.net/man/1/perf-script-python'>'perf script' python binding</ulink>.
         </para>
     </section>
+
+
+
+
+
 </section>
 </chapter>
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