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.. highlight:: sh
.. _unix-toolchain:
===========================
Unix Toolchain Quickstart
===========================
This is a tutorial for using the Maple with a standard Unix toolchain
(``make``, ``gcc``, etc.). It's not necessary to do this in order to
program the Maple; you can always :ref:`install the Maple IDE
<maple-ide-install>` instead. This document is intended for users who
are comfortable using C or C++ and would like to use :ref:`libmaple`
directly.
We currently have instructions for 32- and 64-bit Linux and OS X Snow
Leopard. If you're on another Unix platform, Windows, or an earlier
version of OS X, we imagine you can translate/port these directions on
your own. You might want to begin with these `stripped down
distributions <http://static.leaflabs.com/pub/codesourcery/>`_ of the
`CodeSourcery GCC compiler tools
<http://www.codesourcery.com/sgpp/features.html>`_ (including Win32
versions). If you do have success on other platforms, please post in
the forums, so we can fold your tips into this document!
.. contents:: Contents
:local:
Requirements
------------
You'll need a Maple board, a Mini-B USB cable, a functional computer,
and root (or Administrator) access to that computer. This guide
assumes you've had success with the IDE on your machine and that you
are fairly comfortable with the Unix command line. Some previous
experience with editing your shell startup script (.bashrc, .tcshrc,
etc.) and using `GCC <http://gcc.gnu.org/>`_ and `make
<http://www.gnu.org/software/make/>`_ is recommended.
.. _toolchain-linux-setup:
Setup
-----
Linux
^^^^^
These instructions are oriented towards Linux users using
contemporary, 32-bit Debian- or Red Hat-based distributions. If you
use another Linux operating system and you have any tips to offer,
please us at info@leaflabs.com or post in the `forum`_. Thanks!
**1. Collect and Install Tools**
First, you'll need some tools.
On Debian-based distributions (including Ubuntu, etc.), do this with::
$ sudo aptitude install build-essential git-core wget screen dfu-util \
openocd python python-serial
On Red Hat-based distributions (Fedora, etc.), do this with::
$ yum install screen wget git python pyserial dfu-util openocd make
`Git <http://git-scm.com/>`_ is a distributed code versioning system
we use to track changes in our source code; ``git-core`` is the
corresponding package.
``wget`` is a simple tool to download files over http from the command
line; installing it is optional (you could pull in the required
downloads using a browser).
``screen`` is a screen manager; in the context of Maple, we use it to
connect to serial port devices.
``dfu-util`` is a tool from the `OpenMoko`_ project that we use to
upload programs to the Maple over USB.
.. _OpenMoko: http://openmoko.com/
``openocd`` is a `JTAG
<http://en.wikipedia.org/wiki/Joint_Test_Action_Group>`_ control
program used in conjunction with an ARM JTAG device to do in circuit
debugging (pause/resume program execution, upload and download code,
read out register status, etc). It's also optional.
Lastly, our reset script (which sends control signals over the
USB-serial connection to restart and enter the bootloader) is written
in `Python <http://python.org>`_, and requires the `PySerial
<http://pyserial.sourceforge.net/>`_ library available in the
``python-serial`` package. This can also be installed with
`easy_install <http://peak.telecommunity.com/DevCenter/EasyInstall>`_.
**2. Fetch libmaple and Compiler Toolchain** ::
$ cd ~
$ git clone git://github.com/leaflabs/libmaple.git libmaple
$ cd libmaple
$ wget http://static.leaflabs.com/pub/codesourcery/gcc-arm-none-eabi-latest-linux32.tar.gz
$ tar xvzf gcc-arm-none-eabi-latest-linux32.tar.gz
$ export PATH=$PATH:~/libmaple/arm/bin # or wherever these tools ended up
This step is fairly straightforward: do a git clone of the `libmaple
repository <https://github.com/leaflabs/libmaple>`_ to some directory,
then download and extract the ARM compiler toolchain.
The :file:`arm/bin/` directory will need to be added to ``PATH``; you
can check that this worked by entering ``arm-none-`` and hitting tab
to auto-complete (your shell should show a bunch of results).
Regardless of where you put the toolchain, make sure to preserve its
internal directory layout, as the binaries make relative path calls
and references.
After you're done, you'll probably want to update your shell startup
script so :file:`~/libmaple/arm/bin` stays in your ``PATH``.
.. _toolchain-udev:
**3. Install udev Rules**
From the libmaple directory, copy our udev rules to ``/etc/udev/rules.d``::
$ sudo cp support/scripts/45-maple.rules /etc/udev/rules.d/45-maple.rules
On Debian, run ``$ groups``. Make sure the output includes "plugdev".
If not, add yourself to that group. Then run ::
$ sudo restart udev
On Red Hat, run ::
$ udevadm control --reload-rules
As a security precaution on Linux, unknown USB devices can only be
accessed by root. This udev script identifies the Maple based on its
vendor and product IDs, mounts it to :file:`/dev/maple`, and (on
Debian-based distros) grants read/write permissions to the ``plugdev``
group. After restarting ``udev`` you'll need to fully unplug or power
cycle any Maples connected to the computer.
**So far, so good?**
Great! Test your setup by :ref:`compiling a sample program
<toolchain-test>`.
.. _toolchain-osx-setup:
OS X
^^^^
These instructions have been tested successfully on OS X 10.6.4. As
stated previously, this document assumes a general level of Unix
aptitude on the part of the reader; if you're uncomfortable using
Terminal (or if you don't know what that means), then you should
probably stick with using the :ref:`Maple IDE <ide>` to write
programs.
**1. Collect and Install Tools**
You will need the following tools\ [#fpackman]_ to get started:
1. `XCode <http://developer.apple.com/technologies/xcode.html>`_: If
you're reading this, you've probably already got this. Provides
compilers and other basic tools of the trade. While XCode was once
free of charge, Apple has since begun charging for it; if you'd
rather not pay, you can probably get by with just a `make
<http://www.gnu.org/software/make/>`_ binary.
2. `Git <http://git-scm.com/>`_: All of our code is tracked by a
distributed versioning system called Git. A `Mac installer
<http://code.google.com/p/git-osx-installer/downloads/list?can=3>`_
is available.
3. ``dfu-util``: A tool from `OpenMoko`_ that we use to upload
programs to the Maple over USB. If you prefer to compile from
source, OpenMoko provides instructions for `building dfu-util
<http://wiki.openmoko.org/wiki/Dfu-util#Mac>`_.
If you're in a hurry, you can steal a dfu-util binary from a program
called `OpenMoko Flasher
<http://www.handheld-linux.com/wiki.php?page=OpenMoko%20Flasher>`_. To
do this, first `download OpenMoko Flasher
<http://projects.goldelico.com/p/omflasher/downloads/>`_, then copy
the OpenMoko application into your :file:`/Applications` folder (or
wherever you like). Let's pretend you saved the .app to the directory
:file:`/Applications/OpenMoko Flasher.app`
Then the ``dfu-util`` binary resides in
:file:`/Applications/OpenMoko Flasher.app/Contents/Mac OS/dfu-util`
To get access to it from the command line, just make a symbolic link
to the binary from some place on your ``PATH``::
$ ln -s /Applications/OpenMoko\ Flasher.app/Contents/Mac\ OS/dfu-util \
/somewhere/on/your/PATH/dfu-util
.. note::
Just copying the binary somewhere doesn't work, as it relies on
dynamically linked libraries found elsewhere in the .app
bundle. It's possible to pull just the relevant pieces out of the
.app, but you're on your own.
To make sure this worked, try plugging in your Maple, making sure
it's in :ref:`perpetual bootloader mode
<troubleshooting-perpetual-bootloader>` (do this by pressing RESET,
then quickly pressing BUT and holding it for several seconds), then
running ::
$ dfu-util -l
If you see some lines that look like ::
Found DFU: [0x1eaf:0x0003] devnum=0, cfg=0, intf=0, alt=0, name="DFU Program RAM 0x20000C00"
Found DFU: [0x1eaf:0x0003] devnum=0, cfg=0, intf=0, alt=1, name="DFU Program FLASH 0x08005000"
then you're all set.
4. PySerial: our reset script (which sends control signals over the
USB-serial connection to restart and enter the bootloader) is written
in Python and requires the `PySerial
<http://pyserial.sourceforge.net/>`_ library. Download the `latest
version <http://pypi.python.org/pypi/pyserial>`_. After you download
and untar, install it with ::
$ cd /path/to/pyserial-x.y
$ python setup.py build
$ sudo python setup.py install
The package is also available via ``easy_install``, so if you're
comfortable using that, you could also install it with ::
$ easy_install pyserial
**2. Fetch libmaple and Compiler Toolchain**
You first need to clone libmaple::
$ cd ~
$ git clone git://github.com/leaflabs/libmaple.git libmaple
Then you need to get the cross-compilers we use to build a
project. These are just modified versions of GCC; you can `download
them for OS X here
<http://static.leaflabs.com/pub/codesourcery/gcc-arm-none-eabi-latest-osx32.tar.gz>`_. Let's
say you saved this file to
:file:`~/Downloads/gcc-blah-blah-osx32.tar.gz`
You can then unpack the archive and let OS X know where the compilers
live with ::
$ cd ~/Downloads
$ tar -xvzf gcc-blah-blah-osx32.tar.gz
$ mv arm ~/libmaple/arm
$ export PATH=$PATH:~/libmaple/arm/bin
After that's done, you'll probably want to update your shell startup
script so :file:`~/libmaple/arm/bin` stays in your ``PATH``.
**So far, so good?**
Great! Go on to the next section, where you test everything out.
.. _toolchain-test:
Test compilation
----------------
Get back into the libmaple directory (this tutorial assumes you put it
in :file:`~/libmaple`) and test that you've installed all the compilation
tools correctly::
$ cd ~/libmaple
$ cp main.cpp.example main.cpp
$ make clean
$ make
.. note:: These instructions are for the Maple. If you're compiling
for another board, you'll need to set a ``BOARD`` environment
variable appropriately. For example, to compile for Maple Mini (in
the bash shell), ::
$ export BOARD=maple_mini
$ make
The ``BOARD`` for Maple RET6 edition is ``maple_RET6``. You can
also use ::
$ BOARD=maple_mini make
This will only set the environment variable for the duration of
that single compile.
If it all works out, you should end up seeing something like this::
find build -iname *.o | xargs arm-none-eabi-size -t
text data bss dec hex filename
482 4 24 510 1fe build/wirish/comm/HardwareSerial.o
260 0 0 260 104 build/wirish/comm/HardwareSPI.o
60 0 0 60 3c build/wirish/wirish.o
[...]
2196 0 1 2197 895 build/libmaple/usb/usb_lib/usb_core.o
1904 0 0 1904 770 build/libmaple/usb/usb_lib/usb_regs.o
56 0 0 56 38 build/libmaple/usb/usb_lib/usb_init.o
344 0 0 344 158 build/libmaple/usb/usb_hardware.o
6637 0 58 6695 1a27 build/main.o
21499 201 391 22091 564b (TOTALS)
Final Size:
arm-none-eabi-size build/maple.out
text data bss dec hex filename
21824 200 552 22576 5830 build/maple.out
Flash build
The ``dec`` field at the end gives the total program size in
bytes. The long listing of object files above the ``Final Size`` helps
to identify bloated code. As you write larger projects, you may find
that they use too much space. If that happens, the file-by-file
listing will help you track down the culprits.
.. _toolchain-upload:
Upload a program
----------------
Let's blow away the little example program and upload the interactive
test session to your Maple. This will let you interact with the Maple
over a :ref:`USB serial port <usb>`. If you're on Linux, then before
executing ``make install``, you'll want to have the udev rules setup
:ref:`as described above <toolchain-udev>`.
Plug in your Maple using the Mini-B USB cable; then run ::
$ cd ~/libmaple
$ cp examples/test-session.cpp main.cpp
$ make clean
$ make
$ make install
A number of things can go wrong at this stage. Simple debugging steps
include using :ref:`perpetual bootloader mode
<troubleshooting-perpetual-bootloader>`, restarting the Maple a couple
times, ``make clean``, etc. If nothing works, the `forum`_ is your
friend.
.. _toolchain-serialusb:
Communicate over USB-Serial interface
-------------------------------------
Now let's try out the interactive test session. The serial port
device file should look something like :file:`/dev/ttyACMXXX` on Linux
or :file:`/dev/tty.usbmodemXXX` on OS X, but ``XXX`` will vary
depending on your system. Try using one of these to find out which it
is::
# Linux
$ ls /dev/ttyACM*
# OS X
$ ls /dev/tty.usbmodem*
To open up a session, run ::
$ screen /dev/ttyXXX
If the interactive test program built and uploaded correctly,
``screen`` won't report any errors, and will present you an empty
terminal. Your board is now waiting for you to send it a command.
Type ``h`` to print a list of commands which demonstrate various
features; type any command's letter to run it.
To exit the screen session, type :kbd:`C-a C-\\` (control-a, followed
by control-backslash) on Mac, or :kbd:`C-a k` (control-a k) on Linux,
and type ``y`` when prompted if you're sure.
.. note::
Using ``screen`` sometimes messes up your terminal session on OS X.
If your shell starts acting funny after you exit ``screen``, you
should be able to fix it with ::
$ reset && clear
If that doesn't work, just close the Terminal window and open up a
new one.
.. _toolchain-projects:
Starting your own projects
--------------------------
So everything worked, and you want to start your own project? Great!
There are two ways to go about it.
If your project is small, all you have to do is replace
:file:`~/libmaple/main.cpp` with your own code, and you're free to use
``make`` and ``make install`` in the same way you did when you first
:ref:`uploaded a program <toolchain-upload>`.
If you have a more complicated project, with its own Makefile and
multiple source files, or if you're using an IDE that creates its own
Makefile, you'll probably want to load libmaple from an archive (a
build-time library, not a DLL).
To create an archive, use the ``library`` Makefile target::
$ cd ~/libmaple
$ make library
This will produce a build-time library in the file
:file:`~/libmaple/build/libmaple.a`. To use it, make sure that you
link against that library, and that the libmaple sources are in your
include path.
At a minimum, your include path should contain the directories
:file:`~/libmaple/libmaple` and :file:`~/libmaple/wirish/`. If you
want to use one of the officially supported :ref:`libraries
<libraries>`, those live under :file:`~/libmaple/libraries/`. The
main include file for the Wirish library is
:file:`~/libmaple/wirish/wirish.h`.
Getting Updates
---------------
We update libmaple fairly frequently with bugfixes and other
improvements. In order get access to these in your local copy of
the repository, you should periodically update it with::
$ cd ~/libmaple
$ git pull
We keep releases of libmaple and the Maple IDE in lockstep, so any
IDE updates will have corresponding library updates. Our `blog
<http://leaflabs.com/blog/>`_ is the place to watch for major
releases; an `RSS feed <http://leaflabs.com/blog/feed/>`_ is
available.
You can sign up for a free `GitHub <https://github.com/plans>`_
account and `watch libmaple
<https://github.com/leaflabs/libmaple/watchers>`_ to receive
notifications about bleeding-edge development.
.. _toolchain-openocd:
Debug with OpenOCD
------------------
TODO. For now see `this great guide
<http://fun-tech.se/stm32/OpenOCD/index.php>`_ from fun-tech.se, and
the ``jtag`` Makefile target. There is also a `JTAG How-To
<http://wiki.leaflabs.com/index.php?title=Maple_JTAG_How_To>`_ page on
our `wiki <http://wiki.leaflabs.com>`_ which you may find useful.
.. _toolchain-exuberantly:
Go forth exuberantly!
---------------------
Let us know what you come up with! Use #leaflabs on `Twitter
<http://twitter.com/leaflabs>`_, post in the `forum`_, join the the
#leafblowers IRC channel on `freenode
<http://freenode.net/irc_servers.shtml>`_, whatever. We love projects!
.. rubric:: Footnotes
.. [#fpackman] Some of these software packages might be available on
`MacPorts <http://www.macports.org/>`_ or `Homebrew
<http://mxcl.github.com/homebrew/>`_. The author had some bad
experiences with MacPorts a few years ago, though, and hasn't
touched a package manager on OS X since. Of course, your mileage
may vary.
|