rtems-docs: remove Eclipse Manual

Due to RTEMS 6 no longer using the Make build system and instead using
Waf (Eclipse does not offer Waf support), this guide is being removed.

1 files changed, 0 insertions, 339 deletions

diff --git a/eclipse/rtems.rst b/eclipse/rtems.rst
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-.. SPDX-License-Identifier: CC-BY-SA-4.0
-
-.. Copyright (C) 2016 Chris Johns <chrisj@rtems.org>
-
-.. _rtems-development:
-
-RTEMS Development
-*****************
-
-RTEMS can be developed using Eclipse. The RTEMS kernel is an `autotools` or
-`autoconf` and `automake` based package. You can create a project in Eclipse
-that lets you configure and build a BSP for an architecture. We assume you have
-already build and installed your tools using the RTEMS Source Builder.
-
-Kernel Source
--------------
-
-Download or clone the RTEMS Kernel source code. We will clone the source code:
-
-.. code-block:: shell
-
-  $ git clone git://git.rtems.org/rtems.git rtems.master
-  Cloning into 'rtems'...
-  remote: Counting objects: 483342, done.
-  remote: Compressing objects: 100% (88974/88974), done.
-  remote: Total 483342 (delta 390053), reused 475669 (delta 383809)
-  Receiving objects: 100% (483342/483342), 69.88 MiB | 1.37 MiB/s, done.
-  Resolving deltas: 100% (390053/390053), done.
-  Checking connectivity... done.
-
-We need to `bootstrap` the kernel source code. A `botostrap` invokes the
-various `autotools` commands need to generate build system files. First we need
-to the path to our tools:
-
-.. code-block:: shell
-
-  $ export PATH=/opt/rtems/5/bin:$PATH
-
-Now run the `bootstrap` command:
-
-.. code-block:: shell
-
-  $ cd rtems.master
-  $ ./bootstrap
-
-Sit back, this can take a while. The Getting Started Guide talks about using
-the `rtems-bootstrap` to run the bootstrap process in parallel on all
-available cores. The output of the bootstrap has not been copied into this
-document.
-
-The source code is now ready.
-
-Eclipse SDK Software
---------------------
-
-We need the following Eclipse SDK Software packages installed:
-
- - C/C++ Autotools support
- - C/C++ Development Tools
- - C/C++ GCC Cross Compiler Support
-
-Start Eclipse and check to see if you have the them installed via the **Help,
-Installation Details** menu item:
-
-.. figure:: ../images/eclipse/eclipse-help-installation.png
-  :width: 50%
-  :align: center
-  :alt: Help, Installation Details
-
-The dialog box shows the installed software packages and you can see the
-**C/C++ Autotools support** and the **C/C++ Development Tools** are installed:
-
-.. figure:: ../images/eclipse/eclipse-sdk-details.png
-  :align: center
-  :alt: SDK Installation Details
-
-You can see some other software packages are installed in the figure. You can ignore those.
-
-If you do not have the listed software packages install select **Help, Install
-New Software** and in the **Work with:** list box select
-**http://download.eclipse.org/releases/mars**.
-
-.. figure:: ../images/eclipse/eclipse-install-new-software.png
-  :width: 80%
-  :align: center
-  :alt: Help, Install New Software
-
-Afer a small period of time a list of available packages will populate and you
-can select the ones we are interested in. Enter ``autotools`` in the search
-box and select the package:
-
-.. figure:: ../images/eclipse/eclipse-autotools.png
-  :width: 80%
-  :align: center
-  :alt: C/C++ Autotools support
-
-Clear the search line and enter ``development tools`` in the search box and
-then scroll down to find **C/C++ Development Tools**:
-
-.. figure:: ../images/eclipse/eclipse-cdt.png
-  :width: 80%
-  :align: center
-  :alt: C/C++ Development Tools
-
-Again clear the search line and enter ``gcc cross`` in the search box and
-select the package:
-
-.. figure:: ../images/eclipse/eclipse-gcc-cross.png
-  :width: 80%
-  :align: center
-  :alt: C/C++ GCC Cross Compiler Support
-
-Click **Next** and once the **Install Details** have determined what is needed
-select **Finish** to install the packages.
-
-Kernel Build Project
---------------------
-
-We create a project in Eclipse that can configure and build RTEMS for the
-``pc686`` BSP. This BSP is based on the ``pc386`` BSP and is under the ``i386``
-architecture.
-
-We assume you have built and installed the ``i386`` RTEMS Tools, obtained the
-RTEMS kernel code and ``bootstrapped`` it if a git clone, and installed the
-required Eclipse Software packages.
-
-The paths used in this project are:
-
-:file:`/opt/work/rtems/4.11`
-   The RTEMS Tools prefix the tools are install under.
-
-:file:`/opt/work/chris/rtems/kernel/rtems.master`
-   The RTEMS Kernel source code.
-
-:file:`/opt/work/chris/rtems/kernel/5`
-   The RTEMS Kernel prefix.
-
-:file:`/opt/work/chris/rtems/kernel/bsp/pc`
-   The RTEMS Kernel BSP build directory.
-
-The menus shown here may vary from those you have as Eclipse changes them based
-on what you do.
-
-Select **File, New, Project** :
-
-.. figure:: ../images/eclipse/eclipse-new-project.png
-  :width: 100%
-  :align: center
-  :alt: File, New, Project...
-
-Click on **C/C++** and select **Makefile Project with Existing Code** then
-select **Next** :
-
-.. figure:: ../images/eclipse/eclipse-project-makefile-existing-code.png
-  :width: 75%
-  :align: center
-  :alt: Makefile Project with Existing Code
-
-Enter the project name ``rtems-git`` into the **Project Name** field and select
-the **Browse...** button and the path to the RTEMS Kernel source code then
-click **Finish** :
-
-.. figure:: ../images/eclipse/eclipse-project-import-existing-code.png
-  :width: 75%
-  :align: center
-  :alt: Import Existing Code
-
-Eclipse will show the RTEMS Kernel source code in the **Project Explorer** panel:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-files.png
-  :width: 100%
-  :align: center
-  :alt: RTEMS GIT Project showing files
-
-We now convert the project to an Autotools project. Select **File, New,
-Convert to a C/C++ Autotools Project** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-convert-autotools.png
-  :width: 100%
-  :align: center
-  :alt: Convert the project to Autotools
-
-Select **C Project** then **Finish** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-convert-autotools-dialog.png
-  :width: 85%
-  :align: center
-  :alt: Convert the project to Autotools
-
-We now configure the project's properties by right clicking on the
-``rtems-git`` project title and then **Properties** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-properties-menu.png
-  :width: 100%
-  :align: center
-  :alt:
-
-Click on the **Autotools** item then **Configure Settings** and **Platform
-specifiers** and set the **Target platform** field with ``i386-rtems5``:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-at-target.png
-  :width: 100%
-  :align: center
-  :alt: Enter the Autotool target
-
-Select **Platform directories** and enter the **Arch-independent install
-directory (--prefix)** to the RTEMS Kernel prefix of
-:file:`/opt/work/chris/rtems/kernel/5`:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-at-prefix.png
-  :width: 100%
-  :align: center
-  :alt: Enter the Autotool target
-
-We disable networking to use the external LibBSD package and set the BSP to
-``pc686``. Select the **Advanced** and in the **Additional command-line
-options** enter ``--disable-networking`` and ``--enable-rtemsbsps=pc686``. You
-can add extra options you may need:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-at-add-opts.png
-  :width: 100%
-  :align: center
-  :alt: Enter the Autotool additional options
-
-Select **C/C++ Build** and **Environment**. Uncheck or clear the **Use default
-build command** and add ``-j N`` where ``N`` is the number of cores you have in
-your machine. The figure has told `make` to run 8 jobs, one per core for an 8
-core machine. Click on the **File system...** button and navigate to the BSP
-build directory. This is the location Eclipse builds the BSP. RTEMS requires
-you build outside the source tree and in this example we are forcing the build
-directory to something specific. Finish by pressing **Apply** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-build.png
-  :width: 100%
-  :align: center
-  :alt: C/C++ Build Properties
-
-Select **Environment** under **C/C++ Build** as we need to set the path to the
-RTEMS Tools. In this example we set the path in the Eclipse project so each
-project can have a specific set of tools. Press the **Add...** button:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-env.png
-  :width: 100%
-  :align: center
-  :alt: C/C++ Build Environment
-
-Enter the path to the tools, in our case it is
-:file:`/opt/work/rtems/5/bin`, then press **Variables** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-env-var.png
-  :width: 85%
-  :align: center
-  :alt: C/C++ Build Environment
-
-Scroll down and select **PATH** and then press **OK** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-env-var-path.png
-  :width: 60%
-  :align: center
-  :alt: C/C++ Build Environment
-
-You will now see the path in the **Value:** field. Make sure you have a path
-separator between the end of the tools path and the path variable we have just
-added. In this case is a Unix host and the separator is `:`. Windows use
-`;`. Press **OK** when you have a valid path:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-env-var-path-add.png
-  :width: 85%
-  :align: center
-  :alt: C/C++ Build Environment
-
-The **Environment** panel will now show the added `PATH` variable. Click
-**Replace native environment with specified one** as shown and then press
-**Apply** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-env-replace.png
-  :width: 100%
-  :align: center
-  :alt: C/C++ Build Environment
-
-Select **Settings** under **C/C++ Build** and check **Elf Parser** and **GNU
-Elf Parser** and then press **OK** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-prop-cdt-settings.png
-  :width: 100%
-  :align: center
-  :alt: C/C++ Build Settings
-
-We are now ready to run configure using Eclipse. Right click on the project
-name ``rtems-git`` and then **Reconfigure Project** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-reconfigure.png
-  :width: 100%
-  :align: center
-  :alt: Reconfigure the RTEMS Project
-
-Select the **Console** tab in the output panel to view the configure process
-output. You will notice the end of the configure process shows the names of the
-BSPs we have asked to build. In our case this is the ``pc686`` BSP:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-reconfigure-console.png
-  :width: 100%
-  :align: center
-  :alt: Reconfigure console output
-
-We can now build RTEMS using Eclipse. Right click on the project name
-``rtems-git`` and then select **Build Project** :
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-build-project.png
-  :width: 100%
-  :align: center
-  :alt: Reconfigure the RTEMS Project
-
-A **Build Project** message box will appear showing the progress:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-build-project-building.png
-  :width: 75%
-  :align: center
-  :alt: Reconfigure the RTEMS Project
-
-When finished click on the **Problems** output tab to view any errors or warnings:
-
-.. figure:: ../images/eclipse/eclipse-rtems-git-built.png
-  :width: 100%
-  :align: center
-  :alt: Reconfigure the RTEMS Project
-
-If you get errors during the configure phase or building you will need to
-determine reason why. The main source of errors will be the path to the
-tools. Check the top of the ``config.log`` file ``configure`` generates. This
-file can be found in the top directory of you BSP build tree. The file will
-list the path components near the top and you should see the path to your tools
-listed first. While looking make sure the configure command matches what you
-expect and matches the documentation for configuring RTEMS.
-
-If the contents of ``config.log`` look fine check the build log. The project's
-**Properties** dialog under **C/C++ Build**, **Logging** has a path to a build
-log. Open the build log and search for the error. If you cannot figure out the
-source of the error please ask on the :r:list:`users` for help.