ARM EABI Toolchain Builder
This build system has been tested on Mac OS X 10.6 (should also work on 10.5) and Ubuntu 11.04. Small modifications may be needed in order to make it work with other platforms.
Note: If you have previously built a toolchain of another version, out of the same builder directory, make sure to do the following first before building with newer sources:
Also, make sure that you don't have another arm-non-eabi-[gcc,g++,ld,gdb] etc toolchain in your path when you build, whether it is a previous version of this same toolchain or a binary toolchain from another provider. This may end up influencing how newlib, in particular, gets compiled.
Requirements (OS X)
You will need to have GCC, make, binutils and latex installed on your machine to compile all of this. You can get all of these on Mac OS X, by just installing the Apple Developer Tools which are free here.
You will also need gmp, mpfr and mpc first. I recommend installing these from homebrew for now. I'll add these to the Makefile once I have a consistent configuration that can be used for both Linux & OS X.
With homebrew you can install those dependencies like this:
brew install mpfr gmp libmpc libelf texinfo
These instructions should now also work on Ubuntu Linux, provided the following packages have been installed prior to attempting the build:
sudo apt-get install curl flex bison libgmp3-dev libmpfr-dev texinfo \ libelf-dev autoconf build-essential libncurses5-dev libmpc-dev \
Main Build Instructions
Next build the toolchain:
You should be able to also specify a specific install/prefix location by building using the following type of invokation:
PREFIX=$HOME/arm-cs-tools make install-cross
By default the build attempts to determine the number of CPUs and sets the number of parallel jobs automatically (Linux & OS X). If you're on another platform or want to use a different number of jobs, you can redefine PROCS:
PROCS=8 make install-cross
NOTE: If you are on Mac OS X and are running XCode 4.1 or a similar version and are trying to build 2011.03 or an earlier version of CodeSourcery's sources, you may find that it will fail during the build of libgcc as discussed in issue #10. To work around this, build using using these two commands instead of the above:
CC=clang make cross-binutils cross-gcc cross-newlib make cross-gdb
or with gcc-4.2:
CC=gcc-4.2 make install-cross
This should build the compiler, newlib, gdb, etc.. and install them all into a directory called arm-cs-tools in your home directory. If you want to install to another location, feel free to change the export lines and to adjust the definitions at the top of the Makefile.
Keep in mind that the Makefile does install at the end of each build.
Once you’re done, you’ll likely want to add the path where the compiler was installed to to your .bash_profile, .zshrc, etc..:
To clean up when you're done and you've installed the toolchain you can clean up the intermediate files with the following command:
Newlib Build Customization
By default, this build enables a number of extra optimizations (most of which relate to reducing code size) for Newlib by defining the following:
CFLAGS_FOR_TARGET="\ -ffunction-sections -fdata-sections \ # put code and data into separate sections allowing for link-time -DPREFER_SIZE_OVER_SPEED -D__OPTIMIZE_SIZE__ \ # pick simpler, smaller code over larger optimized code -Os \ # same as O2, but turns off optimizations that would increase code size -fomit-frame-pointer \ # don't keep the frame pointer in a register for functions that don't need one -fno-unroll-loops \ # don't unroll loops -D__BUFSIZ__=256 \ # limit default buffer size to 256 rather than 1024 -mabi=aapcs" \ # enable use of arm procedure call standard (not sure if this is needed any more) CCASFLAGS=$(CFLAGS_FOR_TARGET)
For an example of what the
__OPTIMIZE_SIZE__ options do, take a look at the following
memcpy.c extracted from
newlib. Often what one is giving up is manually unrolled loops or
hand-coded assembler that compiles to sizes larger than a simple C
If you want something closer to standard options that CodeSourcery uses simply prepend the make command as follows:
MATCH_CS=true make install-cross
For Newlib this changes the flags to these:
CFLAGS_FOR_TARGET="-g -O2 -fno-unroll-loops"
You can also define your own Newlib flags:
NEWLIB_FLAGS="-g -O2 -fno-unroll-loops" make install-cross
Extras From Binary Distribution
Some of the CodeSourcery CS3 libraries are distributed with G++ Lite, but the sources for these are not made available, nor are the licensing terms in the binary release of G++ Lite permissive of my including a small compressed download of these libraries with this build file. However, I have added a make target that should be able to pull down the binary Linux tarball extract these libraries and a few extras, and place them into the correct directories. To use this, type the following after you have installed your toolchain:
If you need the binary extras installed at a specific prefix, you can use the following style of incantation:
PREFIX=/some/other/location make install-bin-extras
So, if you had placed your pre-built binaries at /usr/local/arm-cs-tools, you could use the following:
PREFIX=/usr/local/arm-cs-tools make install-bin-extras
NOTE: use of these libraries is untested by the creator of the Makefile. It seemed simple enough to add this after a user had mentioned a desire to have these libraries available.
Rob Emanuele for the basis of this Makefile as a starting point.
Liviu Ionescu for numerous comments suggestions/suggestions and fixes.