|author||Rob Bradford <firstname.lastname@example.org>||2008-01-23 23:01:07 +0000|
|committer||rob <rob@aea7fca7-3721-49c4-ace3-ac8c44b998bb>||2008-01-23 23:01:07 +0000|
2008-01-23 Rob Bradford <email@example.com>
* README: Add README.
2 files changed, 134 insertions, 0 deletions
@@ -1,5 +1,10 @@
2008-01-23 Rob Bradford <firstname.lastname@example.org>
+ * README:
+ Add README.
+2008-01-23 Rob Bradford <email@example.com>
* src/plugin.c: (action_shutdown_qemu_activate_cb),
@@ -0,0 +1,129 @@
+Anjuta Poky SDK Plugin
+~~~~~~ ~~~~ ~~~ ~~~~~~
+This plugin provides a platform for software development against the Poky
+This plugin was developed by OpenedHand Ltd. with funding from iRex
+Technologies. Please see the AUTHORS file for details of the authors.
+* Starting and stopping QEMU
+* Cross-compiling an autotooled project within the the Anjuta IDE
+* Deployment of the built project and data files into QEMU
+* Remote invocation of programs in QEMU
+* Cross-debugging of the binaries in QEMU
+* Integration with OProfileUI
+* A Poky cross toolchain (this can be fetched fetched by following the links
+ from http://www.pokylinux.org).
+* Anjuta 2.3.3 or newer (e.g. SVN trunk). Although this can be installed into
+ a custom prefix please ensure you do not have any older versions installed
+ in other prefixes which might conflict.
+* OProfileUI 0.1.2 or newer (e.g. SVN trunk). [Optional]
+Once Anjuta is installed the plugin can be built with the following commands:
+sudo make install
+(NB: If you install an updated Anjuta you may need to rebuild the plugin and
+Extract the tarball for the toolchain into / as root. The toolchain will be
+installed into /usr/local/poky.
+To use the plugin, first open or create an existing project. If creating a new
+project the "C GTK+" project type will allow itself to be cross-compiled.
+However you should be aware that this uses glade for the UI.
+To activate the plugin go Edit->Preferences, then choose "General" from the left
+hand side. Choose the Installed plugins tab, scroll down to "Poky SDK" and
+check the box. The plugin is now activated but first it must be configured.
+Choose the "Poky SDK" icon from the left hand side, this will show the
+configuration options for the plugin.
+The configuration options presented in the preferences are:
+* "SDK root" this is the root directory of the SDK for an ARM EABI SDK this
+ will be "/usr/local/poky/eabi-glibc/arm". This directory will contain
+ directories named like "bin", "include", "var", etc. With the file chooser
+ it is important to enter into the "arm" subdirectory for this example.
+* "Toolchain triplet" this is the cross compile triplet, e.g.
+ "arm-poky-linux-gnueabi". The triplet can be identified from a directory
+ within the "SDK root"
+* "Kernel" use the file chooser to select the kernel to use with QEMU
+* "Root filesystem" use the file chooser to select the root filesystem image,
+ this should be an image (not a tarball)
+As an example, cross-compiling a project, deploying it into QEMU and running a
+debugger against it.
+* Choose "Build->Run Configure" or "Build->Run Autogenerate" to configure (or
+ to run "autogen" on the project.) This passes command line arguments to
+ instruct it to cross-compile.
+* Next do "Build->Build Project" to build and compile the project. If you have
+ previously built the project in the same tree without using the
+ cross-compiler you may find that your project fails to link. Simply do
+ "Build->Clean Project" to remove the old binaries. You may then try building
+* Next start QEMU by using "Tools->Start QEMU", this will start QEMU and will
+ show some any error messages in an message view. Once Poky has fully booted
+ within QEMU you may now deploy into it
+* Once built and QEMU is running, choose "Tools->Deploy", this will install
+ the package into a temporary directory and then copy using rsync over SSH
+ into the target. Progress and messages will be shown in the message view.
+* To debug program installed into onto the target choose "Tools->Debug
+ remote". This prompts for the local binary to debug and also the command
+ line to run on the target. This will start a gdbserver over SSH on the
+ target and also an instance of a cross-gdb in a local terminal. This will be
+ preloaded to connect to the server and use the "SDK root" to find symbols.
+ This gdb will break in "main" you should setup your breakpoints when it
+ execution is stopped on this breakpoint otherwise you may not be able to
+ interupt execution. The command line to run should include the full path to
+ the to binary installed in the target. You may find it necessary to stop the
+ debugger in the target using "Tools->Stop debugger".
+* It is also possible to execute a command in the target over SSH, the
+ appropriate environment will be be set for the execution. Choose "Tools->Run
+ remote" to do this. This will open a terminal with the SSH command inside.
+Please submit bugs to http://bugzilla.o-hand.com