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<!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd"
[<!ENTITY % poky SYSTEM "../poky.ent"> %poky; ] >
<chapter id='adt-prepare'>
<title>Preparing for Application Development</title>
<para>
In order to develop applications, you need set up your host development system.
Several ways exist that allow you to install cross-development tools, QEMU, the
Eclipse Yocto Plug-in, and other tools.
This chapter describes how to prepare for application development.
</para>
<section id='installing-the-adt'>
<title>Installing the ADT and Toolchains</title>
<para>
The following list describes installation methods that set up varying
degrees of tool availability on your system.
Regardless of the installation method you choose,
you must <filename>source</filename> the cross-toolchain
environment setup script, which establishes several key
environment variables, before you use a toolchain.
See the
"<link linkend='setting-up-the-cross-development-environment'>Setting Up the Cross-Development Environment</link>"
section for more information.
</para>
<note>
<para>Avoid mixing installation methods when installing toolchains for different architectures.
For example, avoid using the ADT Installer to install some toolchains and then hand-installing
cross-development toolchains by running the toolchain installer for different architectures.
Mixing installation methods can result in situations where the ADT Installer becomes
unreliable and might not install the toolchain.</para>
<para>If you must mix installation methods, you might avoid problems by deleting
<filename>/var/lib/opkg</filename>, thus purging the <filename>opkg</filename> package
metadata</para>
</note>
<para>
<itemizedlist>
<listitem><para><emphasis>Use the ADT installer script:</emphasis>
This method is the recommended way to install the ADT because it
automates much of the process for you.
For example, you can configure the installation to install the QEMU emulator
and the user-space NFS, specify which root filesystem profiles to download,
and define the target sysroot location.</para></listitem>
<listitem><para><emphasis>Use an existing toolchain:</emphasis>
Using this method, you select and download an architecture-specific
toolchain installer and then run the script to hand-install the toolchain.
If you use this method, you just get the cross-toolchain and QEMU - you do not
get any of the other mentioned benefits had you run the ADT Installer script.</para></listitem>
<listitem><para><emphasis>Use the toolchain from within the Build Directory:</emphasis>
If you already have a
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>,
you can build the cross-toolchain within the directory.
However, like the previous method mentioned, you only get the cross-toolchain and QEMU - you
do not get any of the other benefits without taking separate steps.</para></listitem>
</itemizedlist>
</para>
<section id='using-the-adt-installer'>
<title>Using the ADT Installer</title>
<para>
To run the ADT Installer, you need to get the ADT Installer tarball, be sure
you have the necessary host development packages that support the ADT Installer,
and then run the ADT Installer Script.
</para>
<para>
For a list of the host packages needed to support ADT installation and use, see the
"ADT Installer Extras" lists in the
"<ulink url='&YOCTO_DOCS_REF_URL;#required-packages-for-the-host-development-system'>Required Packages for the Host Development System</ulink>" section
of the Yocto Project Reference Manual.
</para>
<section id='getting-the-adt-installer-tarball'>
<title>Getting the ADT Installer Tarball</title>
<para>
The ADT Installer is contained in the ADT Installer tarball.
You can get the tarball using either of these methods:
<itemizedlist>
<listitem><para><emphasis>Download the Tarball:</emphasis>
You can download the tarball from
<ulink url='&YOCTO_ADTINSTALLER_DL_URL;'></ulink> into
any directory.</para></listitem>
<listitem><para><emphasis>Build the Tarball:</emphasis>
You can use
<ulink url='&YOCTO_DOCS_DEV_URL;#bitbake-term'>BitBake</ulink>
to generate the tarball inside an existing
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
</para>
<para>If you use BitBake to generate the ADT Installer
tarball, you must <filename>source</filename> the
environment setup script
(<ulink url='&YOCTO_DOCS_REF_URL;#structure-core-script'><filename>&OE_INIT_FILE;</filename></ulink>
or
<ulink url='&YOCTO_DOCS_REF_URL;#structure-memres-core-script'><filename>oe-init-build-env-memres</filename></ulink>)
located in the Source Directory before running the
<filename>bitbake</filename> command that creates the
tarball.</para>
<para>The following example commands establish
the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>,
check out the current release branch, set up the
build environment while also creating the default
Build Directory, and run the
<filename>bitbake</filename> command that results in the
tarball
<filename>poky/build/tmp/deploy/sdk/adt_installer.tar.bz2</filename>:
<note>
Before using BitBake to build the ADT tarball, be
sure to make sure your
<filename>local.conf</filename> file is properly
configured.
</note>
<literallayout class='monospaced'>
$ cd ~
$ git clone git://git.yoctoproject.org/poky
$ cd poky
$ git checkout -b &DISTRO_NAME; origin/&DISTRO_NAME;
$ source &OE_INIT_FILE;
$ bitbake adt-installer
</literallayout></para></listitem>
</itemizedlist>
</para>
</section>
<section id='configuring-and-running-the-adt-installer-script'>
<title>Configuring and Running the ADT Installer Script</title>
<para>
Before running the ADT Installer script, you need to unpack the tarball.
You can unpack the tarball in any directory you wish.
For example, this command copies the ADT Installer tarball from where
it was built into the home directory and then unpacks the tarball into
a top-level directory named <filename>adt-installer</filename>:
<literallayout class='monospaced'>
$ cd ~
$ cp poky/build/tmp/deploy/sdk/adt_installer.tar.bz2 $HOME
$ tar -xjf adt_installer.tar.bz2
</literallayout>
Unpacking it creates the directory <filename>adt-installer</filename>,
which contains the ADT Installer script (<filename>adt_installer</filename>)
and its configuration file (<filename>adt_installer.conf</filename>).
</para>
<para>
Before you run the script, however, you should examine the ADT Installer configuration
file and be sure you are going to get what you want.
Your configurations determine which kernel and filesystem image are downloaded.
</para>
<para>
The following list describes the configurations you can define for the ADT Installer.
For configuration values and restrictions, see the comments in
the <filename>adt-installer.conf</filename> file:
<itemizedlist>
<listitem><para><filename>YOCTOADT_REPO</filename>: This area
includes the IPKG-based packages and the root filesystem upon which
the installation is based.
If you want to set up your own IPKG repository pointed to by
<filename>YOCTOADT_REPO</filename>, you need to be sure that the
directory structure follows the same layout as the reference directory
set up at <ulink url='http://adtrepo.yoctoproject.org'></ulink>.
Also, your repository needs to be accessible through HTTP.</para></listitem>
<listitem><para><filename>YOCTOADT_TARGETS</filename>: The machine
target architectures for which you want to set up cross-development
environments.</para></listitem>
<listitem><para><filename>YOCTOADT_QEMU</filename>: Indicates whether
or not to install the emulator QEMU.</para></listitem>
<listitem><para><filename>YOCTOADT_NFS_UTIL</filename>: Indicates whether
or not to install user-mode NFS.
If you plan to use the Eclipse IDE Yocto plug-in against QEMU,
you should install NFS.
<note>To boot QEMU images using our userspace NFS server, you need
to be running <filename>portmap</filename> or <filename>rpcbind</filename>.
If you are running <filename>rpcbind</filename>, you will also need to add the
<filename>-i</filename> option when <filename>rpcbind</filename> starts up.
Please make sure you understand the security implications of doing this.
You might also have to modify your firewall settings to allow
NFS booting to work.</note></para></listitem>
<listitem><para><filename>YOCTOADT_ROOTFS_</filename><replaceable>arch</replaceable>: The root
filesystem images you want to download from the
<filename>YOCTOADT_IPKG_REPO</filename> repository.</para></listitem>
<listitem><para><filename>YOCTOADT_TARGET_SYSROOT_IMAGE_</filename><replaceable>arch</replaceable>: The
particular root filesystem used to extract and create the target sysroot.
The value of this variable must have been specified with
<filename>YOCTOADT_ROOTFS_</filename><replaceable>arch</replaceable>.
For example, if you downloaded both <filename>minimal</filename> and
<filename>sato-sdk</filename> images by setting
<filename>YOCTOADT_ROOTFS_</filename><replaceable>arch</replaceable>
to "minimal sato-sdk", then <filename>YOCTOADT_ROOTFS_</filename><replaceable>arch</replaceable>
must be set to either "minimal" or "sato-sdk".
</para></listitem>
<listitem><para><filename>YOCTOADT_TARGET_SYSROOT_LOC_</filename><replaceable>arch</replaceable>: The
location on the development host where the target sysroot is created.
</para></listitem>
</itemizedlist>
</para>
<para>
After you have configured the <filename>adt_installer.conf</filename> file,
run the installer using the following command:
<literallayout class='monospaced'>
$ cd adt-installer
$ ./adt_installer
</literallayout>
Once the installer begins to run, you are asked to enter the
location for cross-toolchain installation.
The default location is
<filename>/opt/poky/</filename><replaceable>release</replaceable>.
After either accepting the default location or selecting your
own location, you are prompted to run the installation script
interactively or in silent mode.
If you want to closely monitor the installation,
choose “I” for interactive mode rather than “S” for silent mode.
Follow the prompts from the script to complete the installation.
</para>
<para>
Once the installation completes, the ADT, which includes the
cross-toolchain, is installed in the selected installation
directory.
You will notice environment setup files for the cross-toolchain
in the installation directory, and image tarballs in the
<filename>adt-installer</filename> directory according to your
installer configurations, and the target sysroot located
according to the
<filename>YOCTOADT_TARGET_SYSROOT_LOC_</filename><replaceable>arch</replaceable>
variable also in your configuration file.
</para>
</section>
</section>
<section id='using-an-existing-toolchain-tarball'>
<title>Using a Cross-Toolchain Tarball</title>
<para>
If you want to simply install a cross-toolchain by hand, you can
do so by running the toolchain installer.
The installer includes the pre-built cross-toolchain, the
<filename>runqemu</filename> script, and support files.
If you use this method to install the cross-toolchain, you
might still need to install the target sysroot by installing and
extracting it separately.
For information on how to install the sysroot, see the
"<link linkend='extracting-the-root-filesystem'>Extracting the Root Filesystem</link>" section.
</para>
<para>
Follow these steps:
<orderedlist>
<listitem><para><emphasis>Get your toolchain installer using one of the following methods:</emphasis>
<itemizedlist>
<listitem><para>Go to
<ulink url='&YOCTO_TOOLCHAIN_DL_URL;'></ulink>
and find the folder that matches your host
development system (i.e. <filename>i686</filename>
for 32-bit machines or <filename>x86_64</filename>
for 64-bit machines).</para>
<para>Go into that folder and download the toolchain
installer whose name includes the appropriate target
architecture.
The toolchains provided by the Yocto Project
are based off of the
<filename>core-image-sato</filename> image and
contain libraries appropriate for developing
against that image.
For example, if your host development system is a
64-bit x86 system and you are going to use
your cross-toolchain for a 32-bit x86
target, go into the <filename>x86_64</filename>
folder and download the following installer:
<literallayout class='monospaced'>
poky-glibc-x86_64-core-image-sato-i586-toolchain-&DISTRO;.sh
</literallayout></para></listitem>
<listitem><para>Build your own toolchain installer.
For cases where you cannot use an installer
from the download area, you can build your own as
described in the
"<link linkend='optionally-building-a-toolchain-installer'>Optionally Building a Toolchain Installer</link>"
section.</para></listitem>
</itemizedlist></para></listitem>
<listitem><para><emphasis>Once you have the installer, run it to install the toolchain:</emphasis>
<note>
You must change the permissions on the toolchain
installer script so that it is executable.
</note></para>
<para>The following command shows how to run the installer
given a toolchain tarball for a 64-bit x86 development host
system and a 32-bit x86 target architecture.
The example assumes the toolchain installer is located
in <filename>~/Downloads/</filename>.
<literallayout class='monospaced'>
$ ~/Downloads/poky-glibc-x86_64-core-image-sato-i586-toolchain-&DISTRO;.sh
</literallayout>
The first thing the installer prompts you for is the
directory into which you want to install the toolchain.
The default directory used is
<filename>/opt/poky/&DISTRO;</filename>.
If you do not have write permissions for the directory
into which you are installing the toolchain, the
toolchain installer notifies you and exits.
Be sure you have write permissions in the directory and
run the installer again.</para>
<para>When the script finishes, the cross-toolchain is
installed.
You will notice environment setup files for the
cross-toolchain in the installation directory.
</para></listitem>
</orderedlist>
</para>
</section>
<section id='using-the-toolchain-from-within-the-build-tree'>
<title>Using BitBake and the Build Directory</title>
<para>
A final way of making the cross-toolchain available is to use BitBake
to generate the toolchain within an existing
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>.
This method does not install the toolchain into the default
<filename>/opt</filename> directory.
As with the previous method, if you need to install the target sysroot, you must
do that separately as well.
</para>
<para>
Follow these steps to generate the toolchain into the Build Directory:
<orderedlist>
<listitem><para><emphasis>Set up the Build Environment:</emphasis>
Source the OpenEmbedded build environment setup
script (i.e.
<ulink url='&YOCTO_DOCS_REF_URL;#structure-core-script'><filename>&OE_INIT_FILE;</filename></ulink>
or
<ulink url='&YOCTO_DOCS_REF_URL;#structure-memres-core-script'><filename>oe-init-build-env-memres</filename></ulink>)
located in the
<ulink url='&YOCTO_DOCS_DEV_URL;#source-directory'>Source Directory</ulink>.
</para></listitem>
<listitem><para><emphasis>Check your Local Configuration File:</emphasis>
At this point, you should be sure that the
<ulink url='&YOCTO_DOCS_REF_URL;#var-MACHINE'><filename>MACHINE</filename></ulink> variable
in the <filename>local.conf</filename> file found in the
<filename>conf</filename> directory of the Build Directory
is set for the target architecture.
Comments within the <filename>local.conf</filename> file
list the values you can use for the
<filename>MACHINE</filename> variable.
<note>
You can populate the Build Directory with the
cross-toolchains for more than a single architecture.
You just need to edit the <filename>MACHINE</filename>
variable in the <filename>local.conf</filename> file and
re-run the <filename>bitbake</filename> command.
</note></para></listitem>
<listitem><para><emphasis>Generate the Cross-Toolchain:</emphasis>
Run <filename>bitbake meta-ide-support</filename> to
complete the cross-toolchain generation.
Once the <filename>bitbake</filename> command finishes,
the cross-toolchain is
generated and populated within the Build Directory.
You will notice environment setup files for the
cross-toolchain that contain the string
"<filename>environment-setup</filename>" in the
Build Directory's <filename>tmp</filename> folder.</para>
<para>Be aware that when you use this method to install the
toolchain, you still need to separately extract and install
the sysroot filesystem.
For information on how to do this, see the
"<link linkend='extracting-the-root-filesystem'>Extracting the Root Filesystem</link>" section.
</para></listitem>
</orderedlist>
</para>
</section>
</section>
<section id='setting-up-the-cross-development-environment'>
<title>Setting Up the Cross-Development Environment</title>
<para>
Before you can develop using the cross-toolchain, you need to set up the
cross-development environment by sourcing the toolchain's environment setup script.
If you used the ADT Installer or hand-installed cross-toolchain,
then you can find this script in the directory you chose for installation.
For this release, the default installation directory is
<filename>&YOCTO_ADTPATH_DIR;</filename>.
If you installed the toolchain in the
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>,
you can find the environment setup
script for the toolchain in the Build Directory's <filename>tmp</filename> directory.
</para>
<para>
Be sure to run the environment setup script that matches the
architecture for which you are developing.
Environment setup scripts begin with the string
"<filename>environment-setup</filename>" and include as part of their
name the architecture.
For example, the toolchain environment setup script for a 64-bit
IA-based architecture installed in the default installation directory
would be the following:
<literallayout class='monospaced'>
&YOCTO_ADTPATH_DIR;/environment-setup-x86_64-poky-linux
</literallayout>
</para>
</section>
<section id='securing-kernel-and-filesystem-images'>
<title>Securing Kernel and Filesystem Images</title>
<para>
You will need to have a kernel and filesystem image to boot using your
hardware or the QEMU emulator.
Furthermore, if you plan on booting your image using NFS or you want to use the root filesystem
as the target sysroot, you need to extract the root filesystem.
</para>
<section id='getting-the-images'>
<title>Getting the Images</title>
<para>
To get the kernel and filesystem images, you either have to build them or download
pre-built versions.
You can find examples for both these situations in the
"<ulink url='&YOCTO_DOCS_QS_URL;#test-run'>A Quick Test Run</ulink>" section of
the Yocto Project Quick Start.
</para>
<para>
The Yocto Project ships basic kernel and filesystem images for several
architectures (<filename>x86</filename>, <filename>x86-64</filename>,
<filename>mips</filename>, <filename>powerpc</filename>, and <filename>arm</filename>)
that you can use unaltered in the QEMU emulator.
These kernel images reside in the release
area - <ulink url='&YOCTO_MACHINES_DL_URL;'></ulink>
and are ideal for experimentation using Yocto Project.
For information on the image types you can build using the OpenEmbedded build system,
see the
"<ulink url='&YOCTO_DOCS_REF_URL;#ref-images'>Images</ulink>" chapter in
the Yocto Project Reference Manual.
</para>
<para>
If you are planning on developing against your image and you are not
building or using one of the Yocto Project development images
(e.g. <filename>core-image-*-dev</filename>), you must be sure to
include the development packages as part of your image recipe.
</para>
<para>
Furthermore, if you plan on remotely deploying and debugging your
application from within the
Eclipse IDE, you must have an image that contains the Yocto Target Communication
Framework (TCF) agent (<filename>tcf-agent</filename>).
By default, the Yocto Project provides only one type of pre-built
image that contains the <filename>tcf-agent</filename>.
And, those images are SDK (e.g.<filename>core-image-sato-sdk</filename>).
</para>
<para>
If you want to use a different image type that contains the <filename>tcf-agent</filename>,
you can do so one of two ways:
<itemizedlist>
<listitem><para>Modify the <filename>conf/local.conf</filename> configuration in
the <ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>
and then rebuild the image.
With this method, you need to modify the
<ulink url='&YOCTO_DOCS_REF_URL;#var-EXTRA_IMAGE_FEATURES'><filename>EXTRA_IMAGE_FEATURES</filename></ulink>
variable to have the value of "tools-debug" before rebuilding the image.
Once the image is rebuilt, the <filename>tcf-agent</filename> will be included
in the image and is launched automatically after the boot.</para></listitem>
<listitem><para>Manually build the <filename>tcf-agent</filename>.
To build the agent, follow these steps:
<orderedlist>
<listitem><para>Be sure the ADT is installed as described in the
"<link linkend='installing-the-adt'>Installing the ADT and Toolchains</link>" section.
</para></listitem>
<listitem><para>Set up the cross-development environment as described in the
"<link linkend='setting-up-the-cross-development-environment'>Setting
Up the Cross-Development Environment</link>" section.</para></listitem>
<listitem><para>Get the <filename>tcf-agent</filename> source code using
the following commands:
<literallayout class='monospaced'>
$ git clone http://git.eclipse.org/gitroot/tcf/org.eclipse.tcf.agent.git
$ cd org.eclipse.tcf.agent/agent
</literallayout></para></listitem>
<listitem><para>Locate the
<filename>Makefile.inc</filename> file inside the
<filename>agent</filename> folder and modify it
for the cross-compilation environment by setting the
<filename>OPSYS</filename> and
<ulink url='&YOCTO_DOCS_REF_URL;#var-MACHINE'><filename>MACHINE</filename></ulink>
variables according to your target.
</para></listitem>
<listitem><para>Use the cross-development tools to build the
<filename>tcf-agent</filename>.
Before you "Make" the file, be sure your cross-tools are set up first.
See the "<link linkend='makefile-based-projects'>Makefile-Based Projects</link>"
section for information on how to make sure the cross-tools are set up
correctly.</para>
<para>If the build is successful, the <filename>tcf-agent</filename> output will
be <filename>obj/$(OPSYS)/$(MACHINE)/Debug/agent</filename>.</para></listitem>
<listitem><para>Deploy the agent into the image's root filesystem.</para></listitem>
</orderedlist>
</para></listitem>
</itemizedlist>
</para>
</section>
<section id='extracting-the-root-filesystem'>
<title>Extracting the Root Filesystem</title>
<para>
If you install your toolchain by hand or build it using BitBake and
you need a root filesystem, you need to extract it separately.
If you use the ADT Installer to install the ADT, the root
filesystem is automatically extracted and installed.
</para>
<para>
Here are some cases where you need to extract the root filesystem:
<itemizedlist>
<listitem><para>You want to boot the image using NFS.
</para></listitem>
<listitem><para>You want to use the root filesystem as the
target sysroot.
For example, the Eclipse IDE environment with the Eclipse
Yocto Plug-in installed allows you to use QEMU to boot
under NFS.</para></listitem>
<listitem><para>You want to develop your target application
using the root filesystem as the target sysroot.
</para></listitem>
</itemizedlist>
</para>
<para>
To extract the root filesystem, first <filename>source</filename>
the cross-development environment setup script.
If you built the toolchain in the Build Directory, you will find
the toolchain environment script in the
<filename>tmp</filename> directory.
If you installed the toolchain by hand, the environment setup
script is located in <filename>/opt/poky/&DISTRO;</filename>.
</para>
<para>
After sourcing the environment script, use the
<filename>runqemu-extract-sdk</filename> command and provide the
filesystem image.
</para>
<para>
Following is an example.
The second command sets up the environment.
In this case, the setup script is located in the
<filename>/opt/poky/&DISTRO;</filename> directory.
The third command extracts the root filesystem from a previously
built filesystem that is located in the
<filename>~/Downloads</filename> directory.
Furthermore, this command extracts the root filesystem into the
<filename>qemux86-sato</filename> directory:
<literallayout class='monospaced'>
$ cd ~
$ source /opt/poky/&DISTRO;/environment-setup-i586-poky-linux
$ runqemu-extract-sdk \
~/Downloads/core-image-sato-sdk-qemux86-2011091411831.rootfs.tar.bz2 \
$HOME/qemux86-sato
</literallayout>
You could now point to the target sysroot at
<filename>qemux86-sato</filename>.
</para>
</section>
</section>
<section id='optionally-building-a-toolchain-installer'>
<title>Optionally Building a Toolchain Installer</title>
<para>
As an alternative to locating and downloading a toolchain installer,
you can build the toolchain installer one of two ways if you have a
<ulink url='&YOCTO_DOCS_DEV_URL;#build-directory'>Build Directory</ulink>:
<itemizedlist>
<listitem><para>
Use <filename>bitbake meta-toolchain</filename>.
This method requires you to still install the target
sysroot by installing and extracting it separately.
For information on how to install the sysroot, see the
"<link linkend='extracting-the-root-filesystem'>Extracting the Root Filesystem</link>"
section.
</para></listitem>
<listitem><para>
Use <filename>bitbake</filename> <replaceable>image</replaceable> <filename>-c populate_sdk</filename>.
This method has significant advantages over the previous method
because it results in a toolchain installer that contains the
sysroot that matches your target root filesystem.
</para>
<para>Another powerful feature is that the toolchain is
completely self-contained.
The binaries are linked against their own copy of
<filename>libc</filename>, which results in no dependencies
on the target system.
To achieve this, the pointer to the dynamic loader is
configured at install time since that path cannot be dynamically
altered.
This is the reason for a wrapper around the
<filename>populate_sdk</filename> archive.</para>
<para>Another feature is that only one set of cross-canadian
toolchain binaries are produced per architecture.
This feature takes advantage of the fact that the target
hardware can be passed to <filename>gcc</filename> as a set of
compiler options.
Those options are set up by the environment script and
contained in variables like CC and LD.
This reduces the space needed for the tools.
Understand, however, that a sysroot is still needed for every
target since those binaries are target-specific.
</para></listitem>
</itemizedlist>
</para>
<para>
Remember, before using any BitBake command, you
must source the build environment setup script
(i.e.
<ulink url='&YOCTO_DOCS_REF_URL;#structure-core-script'><filename>&OE_INIT_FILE;</filename></ulink>
or
<ulink url='&YOCTO_DOCS_REF_URL;#structure-memres-core-script'><filename>oe-init-build-env-memres</filename></ulink>)
located in the Source Directory and you must make sure your
<filename>conf/local.conf</filename> variables are correct.
In particular, you need to be sure the
<ulink url='&YOCTO_DOCS_REF_URL;#var-MACHINE'><filename>MACHINE</filename></ulink>
variable matches the architecture for which you are building and that
the
<ulink url='&YOCTO_DOCS_REF_URL;#var-SDKMACHINE'><filename>SDKMACHINE</filename></ulink>
variable is correctly set if you are building a toolchain designed to
run on an architecture that differs from your current development host
machine (i.e. the build machine).
</para>
<para>
When the <filename>bitbake</filename> command completes, the toolchain
installer will be in
<filename>tmp/deploy/sdk</filename> in the Build Directory.
<note>
By default, this toolchain does not build static binaries.
If you want to use the toolchain to build these types of libraries,
you need to be sure your image has the appropriate static
development libraries.
Use the
<ulink url='&YOCTO_DOCS_REF_URL;#var-IMAGE_INSTALL'><filename>IMAGE_INSTALL</filename></ulink>
variable inside your <filename>local.conf</filename> file to
install the appropriate library packages.
Following is an example using <filename>glibc</filename> static
development libraries:
<literallayout class='monospaced'>
IMAGE_INSTALL_append = " glibc-staticdev"
</literallayout>
</note>
</para>
</section>
</chapter>
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