Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

The question is relatively straight forward: how can I build a GCC of the 4.x series (along with binutils and friends) that targets a 2.4 ABI on the same architecture as the host for the compiler?

The host system would be x86 or x86_64 and the only requirement is that the built ELF files run on an old kernel as long as the ABI matches. (Kernel sources/headers exist)

A compatible libc would be required as well in order to link it in. However, I can dynamically link against it as well, since I know the (g)libc version.

Any pointers would be much appreciated. I'm somewhat familiar with crosstool-ng, but that doesn't even seem to support 2.4 kernels anymore (for obvious reasons).

share|improve this question
In technical terms, he's looking to figure out how to target a lower ABI than the ones used by most modern distributions, and get a correspondingly lower .note.ABI-tag section of the ELF binary. I can't find information about this on the web anywhere, so I'm guessing this is a pretty specialized request. Perhaps you want to email the gcc-help@gcc.gnu.org mailing list. – Ken Bloom Oct 26 '11 at 2:43
@Ken Bloom: thanks. Good idea. Indeed I couldn't find any pointers myself, so I thought I'd ask here :) – 0xC0000022L Oct 28 '11 at 9:39
up vote 1 down vote accepted

Probably the easiest way is to setup a modern tool chain on an old OS.

RHEL 2.1 or 3 might be best, as they were supported until recently.

Compiling gcc 4 may be tricky since you'll need maths libraries as well. You may have to do a multi-stage approach.


For compiling newer gcc:

  1. Compile latest make - add to PATH
  2. Unpack gcc
  3. Unpack mpfr, gmp, mpc into the gcc directory
  4. symlink the versioned directories to the base (mpfr, gmp, mpc).
  5. Build and install gcc

Something like this:

cd ~/software
tar xjf $DOWNLOAD/gcc/gcc-core-${GCCVER}.tar.bz2 || failure "unpack gcc failed"
tar xjf $DOWNLOAD/gcc/gcc-g++-${GCCVER}.tar.bz2 || failure "unpack g++ failed"

cd gcc-${GCCVER}

tar xjf $DOWNLOAD/gmp-5.0.2.tar.bz2 || failure "unpack gmp failed"
#tar xjf $DOWNLOAD/gmp-4.3.2.tar.bz2 || failure "unpack gmp failed"
ln -s gmp-* gmp
tar xjf $DOWNLOAD/mpfr-2.4.2.tar.bz2 || failure "unpack mpfr failed"
#tar xjf $DOWNLOAD/mpfr-2.4.2.tar.bz2 || failure "unpack mpfr failed"
ln -s mpfr-* mpfr
tar xzf $DOWNLOAD/mpc-0.9.tar.gz || failure "unpack mpc failed"
ln -s mpc-* mpc

cd ..
mkdir gcc-build
cd gcc-build
../gcc-${GCCVER}/configure --prefix=/opt/tools || failure "configure failed"
make || failure "make failed"
make install || failure "install failed"
share|improve this answer
Unfortunately this seems to be the only option left. – 0xC0000022L Nov 2 '11 at 21:24

I would believe that you probably should build a GCC cross-compiler in that case, and that you should compile GLibc which would handle the dependency to the old 2.4 kernel.

However, did you simply try to compile your code, and simply link it with the old 2.4-kernel compatible Glibc library ? I would suppose that should work.

And did you try to run your binary (obtained the simple way on a recent system using its recent GCC) on the old system? What is not working as expected?


share|improve this answer
The built binary, when started, will throw an error that the kernel is too old. Or rather the loader will be doing that. – 0xC0000022L Oct 25 '11 at 8:09

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.