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<!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd">

<chapter id='dev-manual-model'>

<title>Common Development Models</title>

<para>
    Many development models exist for which you can use the Yocto Project. 
    However, for the purposes of this manual we are going to focus on two common ones:  
    System Development and User Application Development.  
    System Development covers Board Support Package (BSP) development and kernel modification
    or configuration.  
    User Application Development covers development of applications that you intend to run on some 
    target hardware.  
</para>

<para>
    This chapter presents overviews of both system and application models.
    If you want to examine specific examples of the system development models, 
    see the "<link linkend='dev-manual-bsp-appendix'>BSP Development Example</link>" 
    appendix and the 
    "<link linkend='dev-manual-kernel-appendix'>Kernel Modification Example</link>" appendix.
    For a user-space application development example that uses the 
    <trademark class='trade'>Eclipse</trademark> IDE,
    see the 
    <ulink url='http://www.yoctoproject.org/docs/1.1.1/adt-manual/adt-manual.html'>
    The Yocto Project Application Development Toolkit (ADT) User's Guide</ulink>.
</para>

<section id='system-development-model'>
    <title>System Development</title>

    <para>
        System development involves modification or creation of an image that you want to run on 
        a specific hardware target.  
        Usually, when you want to create an image that runs on embedded hardware, the image does 
        not require the same amount of features that a full-fledged Linux distribution provides.  
        Thus, you can create a much smaller image that is designed to just use the hardware 
        features for your particular hardware.
    </para>

    <para>
        To help you understand how system development works in the Yocto Project, this section 
        covers two types of image development:  BSP creation and kernel modification or 
        configuration.
    </para>

    <section id='developing-a-board-support-package-bsp'>
        <title>Developing a Board Support Package (BSP)</title>

        <para>
            A BSP is a package of recipes that, when applied, during a build results in 
            an image you can run on a particular board.  
            Thus, the package, when compiled into the new image, supports the operation of the board.  
        </para>

        <note>
            For a brief list of terms used when describing the development process in the Yocto Project, 
            see the "<link linkend='yocto-project-terms'>Yocto Project Terms</link>" section.
        </note>

        <para>
            The remainder of this section presents the basic steps to create a BSP basing it on an 
            existing BSP that ships with the Yocto Project.
            You can reference the "<link linkend='dev-manual-bsp-appendix'>BSP Development Example</link>"
            appendix for a detailed example that uses the Crown Bay BSP as a base BSP from which to start.
        </para>

        <para>
            The following illustration and list summarize the BSP creation general workflow.
        </para>

        <para>
            <imagedata fileref="figures/bsp-dev-flow.png" width="6in" depth="7in" align="center" scalefit="1" />
        </para>

        <para>
            <orderedlist>
                <listitem><para><emphasis>Set up your host development system to support 
                    development using the Yocto Project</emphasis>:  See the
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#the-linux-distro'>The Linux Distributions</ulink>" and the 
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#packages'>The Packages</ulink>" sections both
                    in the Yocto Project Quick Start for requirements.</para></listitem>
                <listitem><para><emphasis>Establish a local copy of the Yocto Project files on your 
                    system</emphasis>:  You need to have the Yocto Project files available on your host system. 
                    Having the Yocto Project files on your system gives you access to the build
                    process and tools you need.
                    For information on how to get these files, see the
                    "<link linkend='getting-setup'>Getting Setup</link>" section.</para></listitem>
                <listitem><para><emphasis>Establish a local copy of the base BSP files</emphasis>:  Having    
                    the BSP files on your system gives you access to the build
                    process and tools you need for creating a BSP.
                    For information on how to get these files, see the
                    "<link linkend='getting-setup'>Getting Setup</link>" section.</para></listitem>    
                <listitem><para><emphasis>Choose a Yocto Project-supported BSP as your base BSP</emphasis>:  
                    The Yocto Project ships with several BSPs that support various hardware.  
                    It is best to base your new BSP on an existing BSP rather than create all the 
                    recipes and configuration files from scratch.  
                    While it is possible to create everything from scratch, basing your new BSP 
                    on something that is close is much easier.  
                    Or, at a minimum, leveraging off an existing BSP
                    gives you some structure with which to start.</para>
                    <para>At this point you need to understand your target hardware well enough to determine which 
                    existing BSP it most closely matches.  
                    Things to consider are your hardware’s on-board features, such as CPU type and graphics support.  
                    You should look at the README files for supported BSPs to get an idea of which one 
                    you could use.  
                    A generic <trademark class='registered'>Intel</trademark> 
                    <trademark class='trade'>Atom</trademark>-based BSP to consider is the 
                    Crown Bay that does not support the <trademark class='registered'>Intel</trademark> 
                    Embedded Media Graphics Driver (EMGD).  
                    The remainder of this example uses that base BSP.</para>
                    <para>To see the supported BSPs, go to the Yocto Project
                    <ulink url='http://www.yoctoproject.org/download'>download page</ulink> and click 
                    on “BSP Downloads.”</para></listitem>
                <listitem><para><emphasis>Create your own BSP layer</emphasis>:  Layers are ideal for 
                    isolating and storing work for a given piece of hardware.  
                    A layer is really just a location or area in which you place the recipes for your BSP.  
                    In fact, a BSP is, in itself, a special type of layer.   
                    Another example that illustrates a layer is an application.  
                    Suppose you are creating an application that has library or other dependencies in 
                    order for it to compile and run.  
                    The layer, in this case, would be where all the recipes that define those dependencies 
                    are kept.  
                    The key point for a layer is that it is an isolated area that contains 
                    all the relevant information for the project that the Yocto Project build 
                    system knows about.</para>
                    <note>The Yocto Project supports four BSPs that are part of the 
                    Yocto Project release: <filename>atom-pc</filename>, <filename>beagleboard</filename>,
                    <filename>mpc8315e</filename>, and <filename>routerstationpro</filename>.  
                    The recipes and configurations for these four BSPs are located and dispersed 
                    within the local Yocto Project files.
                    Consequently, they are not totally isolated in the spirit of layers unless you think 
                    of <filename>meta-yocto</filename> as a layer itself.  
                    On the other hand, BSP layers for Crown Bay, Emenlow, Jasper Forest, 
                    N450, and Sugar Bay are isolated.</note>
                    <para>When you set up a layer for a new BSP, you should follow a standard layout.  
                    This layout is described in the section
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/bsp-guide/bsp-guide.html#bsp-filelayout'>Example Filesystem Layout</ulink>" section of the Board Support Package (BSP) Development Guide.  
                    In the standard layout, you will notice a suggested structure for recipes and  
                    configuration information.  
                    You can see the standard layout for the Crown Bay BSP in this example by examining the 
                    directory structure of the <filename>meta-crownbay</filename> layer inside the 
                    local Yocto Project files.</para></listitem>
                <listitem><para><emphasis>Make configuration changes to your new BSP 
                    layer</emphasis>:  The standard BSP layer structure organizes the files you need to edit in 
                    <filename>conf</filename> and several <filename>recipes-*</filename> directories within the 
                    BSP layer.
                    Configuration changes identify where your new layer is on the local system
                    and identify which kernel you are going to use.
                    </para></listitem>
                <listitem><para><emphasis>Make recipe changes to your new BSP layer</emphasis>:  Recipe 
                    changes include altering recipes (<filename>.bb</filename> files), removing 
                    recipes you don't use, and adding new recipes that you need to support your hardware.
                    </para></listitem>
                <listitem><para><emphasis>Prepare for the build</emphasis>:  Once you have made all the 
                    changes to your BSP layer, there remains a few things 
                    you need to do for the Yocto Project build system in order for it to create your image.  
                    You need to get the build environment ready by sourcing an environment setup script 
                    and you need to be sure two key configuration files are configured appropriately.</para>
                    <para>The entire process for building an image is overviewed in the section
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#building-image'>Building an Image</ulink>" section of the Yocto Project Quick Start.    
                    You might want to reference this information.</para></listitem>
                <listitem><para><emphasis>Build the image</emphasis>:  The Yocto Project uses the BitBake 
                    tool to build images based on the type of image you want to create.  
                    You can find more information on BitBake 
                    <ulink url='http://bitbake.berlios.de/manual/'>here</ulink>.</para>
                    <para>The build process supports several types of images to satisfy different needs.  
                    See the 
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/poky-ref-manual/poky-ref-manual.html#ref-images'>Reference: Images</ulink>" 
                    appendix in The Yocto Project Reference Manual for information on 
                    supported images.</para></listitem>
            </orderedlist>
        </para>

        <para>
            You can view a video presentation on "Building Custom Embedded Images with Yocto"
            at <ulink url='http://free-electrons.com/blog/elc-2011-videos'>Free Electrons</ulink>.  
            You can also find supplemental information in  
            <ulink url='http://yoctoproject.org/docs/1.1.1/bsp-guide/bsp-guide.html'>
            The Board Support Package (BSP) Development Guide</ulink>.
            Finally, there is wiki page write up of the example also located 
            <ulink url='https://wiki.yoctoproject.org/wiki/Transcript:_creating_one_generic_Atom_BSP_from_another'>
            here</ulink> that you might find helpful.
       </para>
    </section>

    <section id='modifying-the-kernel'>
        <title><anchor id='kernel-spot' />Modifying the Kernel</title>

        <para>
            Kernel modification involves changing the Linux Yocto kernel, which could involve changing
            configuration variables as well as adding new kernel recipes.  
            Configuration changes can be added in the form of configuration fragments, while recipe
            modification comes through the kernel's <filename>recipes-kernel</filename> area
            in a kernel layer you create.
        </para>

        <para>
            The remainder of this section presents a high-level overview of the Linux Yocto 
            kernel architecture and the steps to modify the Linux Yocto kernel.
            For a complete discussion of the kernel, see  
            <ulink url='http://www.yoctoproject.org/docs/1.1.1/kernel-manual/kernel-manual.html'>
            The Yocto Project Kernel Architecture and Use Manual</ulink>.
            You can reference the appendix 
            "<link linkend='dev-manual-kernel-appendix'>Kernel Modification Example</link>"
            for a detailed example that changes the configuration of a kernel.
        </para>

        <section id='kernel-overview'>
            <title>Kernel Overview</title>

            <para>
                When one thinks of the source files for a kernel they usually think of a fixed structure 
                of files that contain kernel patches.
                The Yocto Project, however, employs mechanisims, that in a sense, result in a kernel source
                generator.
                By the end of this section, this analogy will become clearer.
            </para>

            <para>
                You can find a web interface to the Linux Yocto kernel source repositories at
                <ulink url='http://git.yoctoproject.org/'></ulink>.
                If you look at the interface, you will see to the left a grouping of 
                Git repositories titled "Yocto Linux Kernel."  
                Within this group, you will find the four different kernels supported by 
                the Yocto Project:
                <itemizedlist>
                    <listitem><para><emphasis><filename>linux-yocto-2.6.34</filename></emphasis> - The 
                    stable Linux Yocto kernel that is based on the Linux 2.6.34 release.</para></listitem>
                    <listitem><para><emphasis><filename>linux-yocto-2.6.37</filename></emphasis> - The
                    stable Linux Yocto kernel that is based on the Linux 2.6.37 release.</para></listitem>
                    <listitem><para><emphasis><filename>linux-yocto-3.0</filename></emphasis> - The 
                    stable Linux Yocto kernel to use with the Yocto Project current (master) development.
                    This kernel is based on the Linux 3.0 release.</para></listitem>
                    <listitem><para><emphasis><filename>linux-yocto-3.0-1.1.x</filename></emphasis> - The 
                    stable Linux Yocto kernel to use with the Yocto Project Release 1.1.x.
                    This kernel is based on the Linux 3.0 release.</para></listitem> 
                    <listitem><para><emphasis><filename>linux-yocto-dev</filename></emphasis> - A development
                    kernel based on the latest upstream release candidate available.</para></listitem>
                </itemizedlist>
            </para>

            <para>
                The kernels are maintained using the Git application that, in a sense, structures
                them in a "tree" complete with branches and leaves.
                Branches represent diversions from general code to more specific code, while leaves
                represent the end-points for a complete and unique kernel whose source files 
                when gathered from the root of the tree to the leaf accumulate to create the files
                necessary for a specific piece of hardware and its features.
                The following figure displays this concept:
            <para>
                <imagedata fileref="figures/kernel-overview-1.png" 
                    width="6in" depth="6in" align="center" scale="100" />
            </para> 

            <para>
                Within the figure, the "Kernel.org Branch Point" represents the point in the tree
                where a supported base kernel diverges from the Linux kernel.
                For example, this could be the branch point for the <filename>linux-yocto-3.0</filename>
                kernel.
                Thus, everything further to the right in the structure is based on the 
                <filename>linux-yocto-3.0</filename> kernel.
                Branch points to right in the figure represent where the 
                <filename>linux-yocto-3.0</filename> kernel is modified for specific hardware 
                or types of kernels, such as real-time kernels.
                Each leaf thus represents the end-point for a kernel designed to run on a specific
                targeted device.
            </para>

            <para>
                The overall result is a Git-maintained repository from which all the supported
                Yocto Project kernels can be derived for all the supported Yocto Project devices.
                A big advantage to this scheme is the sharing of common features by keeping them in 
                "larger" branches within the tree.  
                This practice eliminates redundant storage of similar features shared among kernels.
            </para>

            <note>
                Keep in mind the figure does not take into account all four supported Linux Yocto
                kernel types, but rather shows a single generic kernel just for conceptual purposes.
                Also keep in mind that this structure represents the Yocto Project source repositories 
                that are either pulled from during the build or established on the host development system
                prior to the build by either cloning a particular kernel's Git repository or by 
                downloading and unpacking a tarball.
            </note>

            <para>
                Storage of all the available kernel source code is one thing, while representing the 
                code on your host development system is another.  
                Conceptually, you can think of the Yocto Project kernel source repositories as all the 
                source files necessary for all the supported kernels. 
                As a developer, you are just interested in the source files for the kernel on 
                on which you are working.
                And, furthermore, you need them available on your host system.
            </para>

            <para>
                You make kernel source code available on your host development system by using 
                Git to create a bare clone of the Linux Yocto kernel Git repository 
                in which you are interested.
                Then, you use Git again to clone a copy of that bare clone.  
                This copy represents the directory structure on your host system that is particular
                to the kernel you want.  
                These are the files you actually modify to change the kernel.
                See the <link linkend='local-kernel-files'>Linux Yocto Kernel</link> item earlier
                in this manual for an example of how to set up the kernel source directory
                structure on your host system.
            </para>

            <para>
                This next figure illustrates how the kernel source files might be arranged on 
                your host system.
            </para>

            <para>
                <imagedata fileref="figures/kernel-overview-3-edison.png" 
                    width="6in" depth="4in" align="center" scale="100" />
            </para> 

            <para>
                In the previous figure, the file structure on the left represents the bare clone 
                set up to track the Yocto Project kernel Git repository. 
                The structure on the right represents the copy of the bare clone. 
                When you make modifcations to the kernel source code, this is the area in which 
                you work.
                Once you make corrections, you must use Git to push the committed changes to the 
                bare clone.
                The example in <xref linkend='modifying-the-kernel-source-code'>
                Modifying the Kernel Source Code</xref> provides a detailed example.
            </para>

            <para>
                What happens during the build?  
                When you build the kernel on your development system all files needed for the build
                are taken from the Yocto Project source repositories pointed to by the 
                <filename>SRC_URI</filename> variable and gathered in a temporary work area
                where they are subsequently used to create the unique kernel.
                Thus, in a sense, the process constructs a local source tree specific to your 
                kernel to generate the new kernel image - a source generator if you will.
            </para>
                The following figure shows the temporary file structure
                created on your host system when the build occurs. 
                This build directory contains all the source files used during the build.
            </para>

            <para>
                <imagedata fileref="figures/kernel-overview-2.png" 
                    width="6in" depth="5in" align="center" scale="100" />
            </para> 

            <para>
                Again, for a complete discussion of the Yocto Project kernel's architcture and its 
                branching strategy,
                see the <ulink url='http://www.yoctoproject.org/docs/1.1.1/kernel-manual/kernel-manual.html'>
                The Yocto Project Kernel Architecture and Use Manual</ulink>.
                Also, you can reference 
                <xref linkend='modifying-the-kernel-source-code'>Modifying the Kernel Source Code</xref>
                for a detailed example that modifies the kernel.
            </para>
        </section> 

        <section id='kernel-modification-workflow'>
            <title>Kernel Modification Workflow</title>

            <para>
                This illustration and the following list summarizes the kernel modification general workflow.
            </para>

            <para>
                <imagedata fileref="figures/kernel-dev-flow.png" 
                    width="6in" depth="7.5in" align="center" scalefit="1" />
            </para> 

            <para>
                <orderedlist>
                    <listitem><para><emphasis>Set up your host development system to support 
                        development using the Yocto Project</emphasis>:  See  
                        "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#the-linux-distro'>The Linux Distributions</ulink>" and  
                        "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#packages'>The Packages</ulink>" sections both
                        in the Yocto Project Quick Start for requirements.</para></listitem>
                    <listitem><para><emphasis>Establish a local copy of the Yocto Project files on your 
                        system</emphasis>:  Having the Yocto Project files on your system gives you access to 
                        the build process and tools you need.
                        For information on how to get these files, see the bulleted item
                        "<link linkend='local-yp-release'>Yocto Project Release</link>" earlier in this manual.
                        </para></listitem>
                    <listitem><para><emphasis>Set up the <filename>poky-extras</filename> Git 
                        repository</emphasis>:  This repository is the area for your configuration 
                        fragments, new kernel recipes, and the kernel <filename>.bbappend</filename>
                        file used during the build. 
                        It is good practice to set this repository up inside the local Yocto
                        Project files Git repository.
                        For information on how to get these files, see the bulleted item
                        "<link linkend='poky-extras-repo'>The <filename>poky-extras</filename> Git Repository</link>"
                        earlier in this manual.</para></listitem>
                    <listitem><para><emphasis>Establish a local copy of the Linux Yocto kernel files on your 
                        system</emphasis>:  In order to make modifications to the kernel you need two things:
                        a bare clone of the Linux Yocto kernel you are modifying and  
                        a copy of that bare clone. 
                        The bare clone is required by the build process and is the area to which you 
                        push your kernel source changes (pulling does not work with bare clones). 
                        The copy of the bare clone is a local Git repository that contains all the kernel's 
                        source files. 
                        You make your changes to the files in this copy of the bare clone.
                        For information on how to set these two items up, see the bulleted item
                        "<link linkend='local-kernel-files'>Linux Yocto Kernel</link>" 
                        earlier in this manual.</para></listitem>
                    <listitem><para><emphasis>Make changes to the kernel source code if 
                        applicable</emphasis>:  Modifying the kernel does not always mean directly
                        changing source files. 
                        However, if you have to do this, you make the changes in the local 
                        Git repository you set up to hold the source files (i.e. the copy of the 
                        bare clone).
                        Once the changes are made, you need to use Git commands to commit the changes
                        and then push them to the bare clone.</para></listitem>                      
                    <listitem><para><emphasis>Make kernel configuration changes
                        to your local kernel layer if applicable</emphasis>:  
                        If your situation calls for changing the kernel's configuration, you can 
                        use <filename>menuconfig</filename>
                        to enable and disable kernel configurations.  
                        Using <filename>menuconfig</filename> allows you to interactively develop and test the 
                        configuration changes you are making to the kernel.
                        When saved, changes using <filename>menuconfig</filename> update the kernel's
                        <filename>.config</filename>.
                        As an alternative method to changing the kernel's configuration, you can simply
                        edit the <filename>.config</filename> found in the Yocto Project build 
                        directory at <filename>tmp/sysroots/&lt;machine-name&gt;/kernel</filename> 
                        directly.</para></listitem>                      
                    <listitem><para><emphasis>Add new kernel recipes if applicable</emphasis>:  The standard 
                        layer structure organizes recipe files inside the 
                        <filename>meta-kernel-dev</filename> layer that is within the 
                        <filename>poky-extras</filename> Git repository.
                        If you need to add new kernel recipes, you add them within this layer. 
                        Also within this area, you will find the <filename>.bbappend</filename> 
                        file that appends information to the kernel's recipe file used during the 
                        build.
                        </para></listitem>
                    <listitem><para><emphasis>Prepare for the build</emphasis>:  Once you have made all the 
                        changes to your kernel (configurations, source code changes, recipe additions, 
                        or recipe changes), there remains a few things 
                        you need to do in order for the Yocto Project build system to create your image.  
                        If you have not done so, you need to get the build environment ready by sourcing 
                        the environment setup script described earlier.
                        You also need to be sure two key configuration files 
                        (<filename>local.conf</filename> and <filename>bblayers.conf</filename>)
                        are configured appropriately.</para>
                        <para>The entire process for building an image is overviewed in the 
                        "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#building-image'>Building an Image</ulink>" section of the Yocto Project Quick Start.    
                        You might want to reference this information.
                        Also, you should look at the detailed examples found in the appendices at 
                        at the end of this manual.</para></listitem>
                    <listitem><para><emphasis>Build the image</emphasis>:  The Yocto Project 
                        build system Poky uses the BitBake 
                        tool to build images based on the type of image you want to create.  
                        You can find more information on BitBake 
                        <ulink url='http://bitbake.berlios.de/manual/'>here</ulink>.</para>
                        <para>The build process supports several types of images to satisfy different needs.  
                        See the appendix
                        "<ulink url='http://www.yoctoproject.org/docs/1.1.1/poky-ref-manual/poky-ref-manual.html#ref-images'>Reference: Images</ulink>"
                        in The Yocto Project Reference Manual for information on supported images.</para></listitem>
                    <listitem><para><emphasis>Make your configuration changes available
                        in the kernel layer</emphasis>:  Up to this point, all the configuration changes to the 
                        kernel have been done and tested iteratively.  
                        Once they are tested and ready to go, you can move them into the kernel layer, 
                        which allows you to distribute the layer.</para></listitem>
                    <listitem><para><emphasis>If applicable, share your in-tree changes</emphasis>:  
                        If the changes you made
                        are suited for all Linux Yocto users, you might want to push the changes to a 
                        contribution area for the Linux Yocto Git repository. 
                        Once the changes are pushed, you can request that they 
                        be pulled into the master branch of the kernel tree. 
                        Doing so makes them available to everyone using the kernel.</para></listitem> 
                </orderedlist>
            </para>
        </section>
    </section>
</section>

<section id='place-holder-section-two'>
    <title>Application Development Workflow</title>

    <para>
        Application development involves creation of an application that you want to be able
        to run on your target hardware, which is running a Linux Yocto image.
        The Yocto Project provides an Application Development Toolkit (ADT) that 
        facilitates quick development and integration of your application into its run-time environment. 
        Using the ADT you can employ cross-development toolchains designed for your target hardware
        to compile and link your application. 
        You can then deploy your application to the actual hardware or to the QEMU emulator for testing.
        If you are familiar with the popular Eclipse IDE, you can use an Eclipse Yocto Plug-in to 
        allow you to develop, deploy, and test your application all from within Eclipse.
    </para>

    <para>
        While we strongly suggest using the Yocto Project ADT to develop your application, you might
        not want to.  
        If this is the case, you can still use pieces of the Yocto Project for your development process. 
        However, because the process can vary greatly, this manual does not provide detail on the process.
    </para>

    <section id='workflow-using-the-adt-and-eclipse'>
        <title>Workflow Using the ADT and <trademark class='trade'>Eclipse</trademark></title>

        <para>
            To help you understand how application development works in the Yocto Project ADT
            environment, this section 
            provides an overview of the general development process.
            If you want to see a detailed example of the process as it is used from within the Eclipse 
            IDE, see 
            <ulink url='http://www.yoctoproject.org/docs/1.1.1/adt-manual/adt-manual.html'>
            The Application Development Toolkit (ADT) User's Manual</ulink>.
        </para>

        <para>
            This illustration and the following list summarizes the application development general workflow.
        </para>

        <para>
            <imagedata fileref="figures/app-dev-flow.png" 
                width="7in" depth="8in" align="center" scale="100" />
        </para> 

        <para>
            <orderedlist>
                <listitem><para><emphasis>Prepare the Host System for the Yocto Project</emphasis>:  
                    See  
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#the-linux-distro'>The Linux Distributions</ulink>" and  
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#packages'>The Packages</ulink>" sections both
                    in the Yocto Project Quick Start for requirements.</para></listitem>

<!--
WRITER NOTE:  The areas to get the kernel and root filesystem are located in the Index of 
              downloads.  There are many forms of each.  The files that have "rootfs" are just the 
              target root filesystems.  The file that is very small and starts with bzImage is just
              the kernel image isolated so that it can be written to a special on-board area of 
              flash memory.  Some systems require this.  In the machines directory there are  
              files that combine the kernel image and the root filesystem.  These files are the ISO 
              and HDDIMG files.  ISO images are designed to be deployed on a DVD or CD.  The ISO
              images are designed to be deployed on a USB stick.  There might be some relics in 
              the machine directory.  For example, there is the "emenlow-bernard-5.0.0.tar.bz2" 
              file.  Nobody seems to know what this is.  If a developer needs the image and the 
              root filesystem I think that they want the small kernel image and a matching root 
              filesystem.  Although, Paul Eggleton says that the HDDIMG types could be used to 
              develop on.  I am not sure that we can use one of those in the ADT though as they 
              want you to point to the kernel image and the target root filesystem.  Maybe you 
              could just point to the same spot.  I am not sure.
-->

                <listitem><para><emphasis>Secure the Linux Yocto Kernel Target Image</emphasis>:  
                    You must have a target kernel image that has been built using the Yocto Project.</para>
                    <para>Depending on whether the Yocto Project has a pre-built image that matches your target
                    architecture and where you are going to run the image while you develop your application
                    (QEMU or real hardware), the area you get the image from differs.
                        <itemizedlist>
                            <listitem><para>Download the image from  
                                <ulink url='http://downloads.yoctoproject.org/releases/yocto/yocto-1.1.1/machines/'>  
                                <filename>machines</filename></ulink> if your target architecture is supported
                                and you are going to develop and test your application on actual hardware. 
                                </para></listitem>
                            <listitem><para>Download the image from the 
                                <ulink url='http://downloads.yoctoproject.org/releases/yocto/yocto-1.1.1/machines/qemu/'>  
                                <filename>machines/qemu</filename></ulink> if your target architecture is supported
                                and you are going to develop and test your application using the QEMU 
                                emulator.</para></listitem>
                            <listitem><para>Build your image if you cannot find a pre-built image that matches
                                your target architecture.
                                If your target architecture is similar to a supported architecture, you can 
                                modify the kernel image before you build it.
                                See the 
                                "<link linkend='kernel-modification-workflow'>Kernel Modification Workflow</link>"
                                section earlier in this manual for information on how to create a modified 
                                Linux Yocto kernel.</para></listitem>
                        </itemizedlist></para>
                    <para>For information on pre-built kernel image naming schemes for images 
                    that can run on the QEMU emulator, see the
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html#using-pre-built'>Using Pre-Built Binaries and QEMU</ulink>"
                    section in  
                    <ulink url='http://www.yoctoproject.org/docs/1.1.1/yocto-project-qs/yocto-project-qs.html'>
                    The Yocto Project Quick Start</ulink>.</para></listitem>
                <listitem><para><emphasis>Install the ADT</emphasis>:  
                    The ADT provides a target-specific cross-development toolchain, the root filesystem,
                    the QEMU emulator, and other tools that can help you develop your application.
                    While it is possible to get these pieces separately, the Yocto Project provides an 
                    easy method.
                    You can get these pieces by running an ADT installer script, which is configurable.
                    For information on how to install the ADT, see the
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/adt-manual/adt-manual.html#using-the-adt-installer'>Using the ADT Installer</ulink>" section in
                    <ulink url='http://www.yoctoproject.org/docs/1.1.1/adt-manual/adt-manual.html'>The Yocto Project
                    Application Development (ADT) User's Manual</ulink>.</para></listitem>
                <listitem><para><emphasis>If Applicable, Secure the Target Root Filesystem</emphasis>:  
                    If you choose not to install the ADT using the ADT Installer,
                    you need to find and download the 
                    appropriate root filesystems.
                    You can find these tarballs in the same areas used for the kernel images.
                    Depending on the type of image you are running, the root filesystem you need differs. 
                    For example, if you are developing an application that runs on an image that 
                    supports Sato, you need to get root filesystem that supports Sato.
                    </para></listitem>
                <listitem><para><emphasis>Create and Build your Application</emphasis>:  
                    At this point, you need to have source files for your application.
                    Once you have the files, you can use the Eclipse IDE to import them and build the 
                    project. 
                    If you are not using Eclipse, you need to use the cross-development tools you have 
                    installed to create the image.</para></listitem>                      
                <listitem><para><emphasis>Deploy the Image with the Application</emphasis>:  
                    If you are using the Eclipse IDE, you can deploy your image to the hardware or to 
                    QEMU through the project's preferences.  
                    If you are not using the Eclipse IDE, then you need to deploy the application using 
                    other methods to the hardware.
                    Or, if you are using QEMU, you need to use that tool and load your image in for testing. 
                    </para></listitem>                      
                <listitem><para><emphasis>Test and Debug the Application</emphasis>:  
                    Once your application is deployed, you need to test it.
                    Within the Eclipse IDE, you can use the debubbing environment along with the 
                    set of user-space tools installed along with the ADT to debug your application. 
                    Of course, the same user-space tools are available separately to use if you choose
                    not to use the Eclipse IDE.</para></listitem>
           </orderedlist>
        </para>
    </section>

    <section id='workflow-without-adt'>
        <title>Workflow Without ADT</title>

        <para>
            If you want to develop an application outside of the Yocto Project ADT environment, you 
            can still employ the cross-development toolchain, the QEMU emulator, and a number of supported
            target image files.  
            You just need to follow these general steps:
            <orderedlist>
                <listitem><para><emphasis>Install the cross-development toolchain for your target hardware:</emphasis> 
                    For information on how to install the toolchain, see the
                    "<ulink url='http://www.yoctoproject/docs/1.1.1/adt-manual/adt-manual.html#using-an-existing-toolchain-tarball'>Using a Cross-Toolchain Tarball</ulink>" section in
                    <ulink url='http://www.yoctoproject/docs/1.1.1/adt-manual/adt-manual.html'>The Yocto Project
                    Application Development (ADT) User's Manual</ulink>.</para></listitem>
                <listitem><para><emphasis>Download the Target Image:</emphasis>  The Yocto Project supports
                    several target architectures and has many pre-built kernel images and root filesystem 
                    images.</para>
                    <para>If you are going to develop your application on hardware, go to the 
                    <ulink url='http://downloads.yoctoproject.org/releases/yocto/yocto-1.1.1/machines/'>  
                    <filename>machines</filename></ulink> download area and choose a target machine area
                    from which to download the kernel image and root filesystem.
                    This download area could have several files in it that support development using   
                    actual hardware. 
                    For example, the area might contain <filename>.hddimg</filename> files that combine the 
                    kernel image with the filesystem, boot loaders, etc.
                    Be sure to get the files you need for your particular development process.</para>
                    <para>If you are going to develop your application and then run and test it using the QEMU
                    emulator, go to the 
                    <ulink url='http://downloads.yoctoproject.org/releases/yocto/yocto-1.1.1/machines/qemu/'>  
                    <filename>machines/qemu</filename></ulink> download area.
                    From this area, go down into the directory for your target architecture
                    (e.g. <filename>qemux86_64</filename> for an 
                    <trademark class='registered'>Intel</trademark>-based 64-bit architecture).
                    Download kernel, root filesystem, and any other files you need for your process.
                    <note>In order to use the root filesystem in QEMU, you need to extract it.
                    See the 
                    "<ulink url='http://www.yoctoproject.org/docs/1.1.1/adt-manual/adt-manual.html#extracting-the-root-filesystem'>Extracting the Root Filesystem</ulink>" section for information on how to extract the 
                    root filesystem.</note></para></listitem>
                <listitem><para><emphasis>Develop and Test your Application:</emphasis>  At this point, 
                    you have the tools to develop your application.  
                    If you need to separately install and use the QEMU emulator, you can go to 
                    <ulink url='http://www.qemu.org'>QEMU Home Page</ulink> to download and learn about the 
                    emulator.</para></listitem>
            </orderedlist>
        </para>
    </section>
</section>

</chapter>
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