Skip to content

A very simple build script for bare metal arm toolchain. NO LINUX!

Notifications You must be signed in to change notification settings

pieterg/summon-arm-toolchain

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

69 Commits
 
 
 
 
 
 
 
 

Repository files navigation

REMEMBER!
=========
THE RESULTING TOOLCHAIN IS FOR BARE BONE ARM PROCESSOR SOFTWARE. NOT FOR USE
WITH GLIBC OR THE LINUX KERNEL. DO NOT EVEN BOTHER TO ASK FOR THAT!

To compile the ARM toolchain for barebone ARM devices:
======================================================
* Run ./summon-arm-toolchain
* Profit

Command line options
====================

You can suffix the script call with the following variable parameters:

TARGET=
-------

By default the target is arm-none-eabi, you may want to use a different target, for example arm-elf. Use that option on your own risk it may brake things.

PREFIX=
-------

By default the installation prefix is "$(HOME)/sat" you can change it to "/usr" then the binaries will be installed into "/usr/bin" and the toolchain specific
files in "/usr/arm-none-eabi" assuming you did not change the TARGET variable.

DARWIN_OPT_PATH=
----------------

When compiling on Mac OS X the build script has to know where MacPorts or Fink
is installed. The default value is "/opt/local".

SUDO=
-----

By default this variable is empty. If you need root rights for the install
step you may set this variable to "sudo".

  $ ./summon-arm-toolchain SUDO=sudo

This will prefix all make install steps with the sudo command asking for
your root password.

QUIET=
------

By default set to 0. To decrease console output (may increase compile speed
in some cases) you can set this variable to 1.

USE_LINARO=
-----------

By default set to 1. To disable the usage of the Linaro GCC and use of the
vanilla GCC instead set to 0.

OOCD_EN=
--------

By default set to 1. To disable compilation of OpenOCD JTAG programming
software set to 0.

LIBSTM32_EN=
------------

By default set to 0. To enable compilation of the non-free libstm32 library
set to 1.

LIBOPENSTM32_EN=
----------------

By default set to 1. To disable compilation of the open source libopenstm32
library set to 0.

DEFAULT_TO_CORTEX_M3=
---------------------

By default set to 0. To enable compilation of binutils and GCC to generate code
for the Cortex-M3 ARM architecture by default set to 0. Tests have shown that
using these options is not very reliable and is discouraged. It is more
reliable to add the necessary options to your build environment instead.

CPUS=
-----

Overrides the autodetection of CPU cores on the host machine. This option
is translated into the -j$CPUS+1 option to the make command when running
the script.

Example:
--------

  $ ./summon-arm-toolchain LIBSTM32_EN=1 CPUS=5

This will run the script with libstm32 enabled and with 5 CPUs on your host
machine resulting in calling all make commands with -j6.

Currently tested and known to work target platforms:
====================================================

* STM32F10x (Olimex STM32-H103 eval board, Open-BLDC v0.1, v0.2, v0.3, v1.0)

Currently tested and known to work host platforms:
==================================================

* Linux 32bit and 64bit (Debian unstable)
* Mac OS X Snow Leopard with MacPorts

Notes for Mac OS X users:
=========================

For Mac OS X there are a few dependencies which must be installed. The wget
and libftdi packages are required and gmp, mpfr, mpc and libiconv are needed
by GCC-4.5.1. These can be installed using MacPorts, DarwinPorts or fink.

  $ port install gmp mpfr libmpc wget libftdi

For XML support in gdb you may want to install expat too. And add the 
--with-expat parameter to the GDB target.

Notes for Linux users:
====================== 
You need to install several packages. On Debian just run:

  $ apt-get install flex bison libgmp3-dev libmpfr-dev libncurses5-dev \
    libmpc-dev autoconf texinfo build-essential

You may want to try running the following command instead too:

  $ apt-get build-dep gcc-4.5

For XML support in gdb you may want to install libexpat1 and libexpat1-dev too. 

Usage notes:
============

We support multilib now in SAT thanks to Eric Parsonage's and Bernard
Davison's amazing work. You want to use the following GCC flag combinations to
generate full fledged floating point supporting code for some selected
architectures.

* stm32 (probably cortex-m3 in general): -mthumb -march=armv7 -mfix-cortex-m3-ldrd -msoft-float
* lpc21 (thumb instruction set): -mthumb -msoft-float
* lpc21 (arm instruction set): -mthumb -march=armv4t -msoft-float

If you need support for some other ARM MCU and know the parameters for it,
just drop us a line and we will add that combination to the multilibs.

You can list available combinations by running:

  $ arm-none-eabi-gcc -print-multi-lib

How to submit improvements and patches
======================================

As more and more people start to submit patches and improvements to
Summon-Arm-Toolchain (SAR) this section seems to become necessary.

First of all any way of submission is appreciated, if you just want to dump
your version of the script to us feel free to do so. Still if you want your
improvements and fixes to go upstream quicker there is a good way to do that.

1) Create an account on GitHub (or some other git hosting service, if you
   really have to).
2) Fork the main SAR repository.
3) Clone the forked repository to your disk.
4) Change the script, try to make small changes adding one feature or bugfix at
   a time (that makes review much easier for us).
5) Push your changes to GitHub, or the other service you chose.
6) Test your changes, by compiling the toolchain (you probably want to do that
   with different options).
7) Make sure that everything still works.
8) Test a little bit more.
9) Click on "pull request" on GitHub or drop us a line so that we can pull your
   changes.

I know that sounds like a lot of work, but if you don't we have to do it and
that means that your awesome improvement or bugfix will take longer to be
integrated into the official script. And as you, we want everyone to profit
from such changes sooner then later. :)

About

A very simple build script for bare metal arm toolchain. NO LINUX!

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Shell 100.0%