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I am trying to build gcc 4.7.2 using a custom prefix $PREFIX

I have built and installed all the prerequisites into my prefix location, and then successfully configured, built and installed gcc.

The problem that I now have is that $PREFIX is not in the library search path, and therefore the shared libraries cannot be found.

$PREFIX/bin $ ./g++ ~/main.cpp 
$PREFIX/libexec/gcc/x86_64-suse-linux/4.7.2/cc1plus: \
    error while loading shared libraries: \
        libcloog-isl.so.1: \
           cannot open shared object file: No such file or directory

What works, but isn't ideal

If I export LD_LIBRARY_PATH=$PREFIX/lib then it works, but I'm looking for something which works without having to set environment variables.

If I use patchelf to set the RPATH on all the gcc binaries then it also works; however this involves searching out all elf binaries and iterating over them calling patchelf, I would rather have something more permanent.

What I think would be ideal for my purposes

So I'm hoping there is a way to have -Wl,-rpath,$PREFIX/lib passed to make during the build process.

Since I know the paths won't need to be changed this seems like the most robust solution, and can be also be used for when we build the next gcc version.

Is configuring the build process to hard code the RPATH possible?

What I have tried, but doesn't work

Setting LDFLAGS_FOR_TARGET prior to calling configure:

All of these fail:

export LDFLAGS_FOR_TARGET="-L$PREFIX/lib -R$PREFIX/lib" 
export LDFLAGS_FOR_TARGET="-L$PREFIX/lib" 
export LDFLAGS_FOR_TARGET="-L$PREFIX/lib -Wl,-rpath,$PREFIX/lib" 

Setting LDFLAGS prior to calling configure:

export LDFLAGS="-L$PREFIX/lib -Wl,-rpath,$PREFIX/lib" 

In any event I worry that these will override any of the LDFLAGS gcc would have had, so I'm not sure these are a viable option even if they could be made to work?

My configure line

For completeness here is the line I pass to configure:

./configure \
    --prefix=$PREFIX \
    --build=x86_64-suse-linux \
    --with-pkgversion='SIG build 12/10/2012' \
    --disable-multilib \
    --enable-cloog-backend=isl \
    --with-mpc=$PREFIX \
    --with-mpfr=$PREFIX \
    --with-gmp=$PREFIX \
    --with-cloog=$PREFIX \
    --with-ppl=$PREFIX \
    --with-gxx-include-dir=$PREFIX/include/c++/4.7.2
share|improve this question
    
It won't be LDFLAGS_FOR_TARGET: that might be used for libgcc.so and libstdc++.so, but not for the compiler binaries as those are host binaries. I'd have expected LDFLAGS to be the right one. –  ams Dec 11 '12 at 9:45

5 Answers 5

up vote 4 down vote accepted
+250

I've found that copying the source directories for gmp, mpfr, mpc, isl, cloog, etc. into the top level gcc source directory (or using symbolic links with the same name) works everywhere. This is in fact the preferred way.

You need to copy (or link) to those source directory names without the version numbers for this to work.

The compilers do not need LD_LIBRARY_PATH (although running applications built with the compilers will need an LD_LIBRARY_PATH to the $PREFIX/lib64 or something like that - but that's different)

Start in a source directory where you'll keep all your sources. In this source directory you have your gcc directory either by unpacking a tarball or svn... I use subversion.

Also in this top level directory you have, say, the following source tarballs:

gmp-5.1.0.tar.bz2
mpfr-3.1.1.tar.bz2
mpc-1.0.1.tar.gz
isl-0.11.1.tar.bz2
cloog-0.18.0.tar.gz

I just download these and update to the latest tarballs periodically.

In script form:

# Either:
svn checkout svn://gcc.gnu.org/svn/gcc/trunk gcc_work
# Or:
bunzip -c gcc-4.8.0.tar.bz2 | tar -xvf -
mv gcc-4.8.0 gcc_work

#  Uncompress sources..  (This will produce version numbered directories).
bunzip -c gmp-5.1.0.tar.bz2 | tar -xvf -
bunzip -c mpfr-3.1.1.tar.bz2 | tar -xvf -
gunzip -c mpc-1.0.1.tar.gz | tar -xvf -
bunzip -c isl-0.11.1.tar.bz2 | tar -xvf -
gunzip -c cloog-0.18.0.tar.gz | tar -xvf -

# Link outside source directories into the top level gcc directory.
cd gcc_work
ln -s ../gmp-5.1.0 gmp
ln -s ../mpfr-3.1.1 mpfr
ln -s ../mpc-1.0.1 mpc
ln -s ../isl-0.11.1 isl
ln -s ../cloog-0.18.0 cloog

# Get out of the gcc working directory and create a build directory.  I call mine obj_work.
# I configure the gcc binary and other outputs to be bin_work in the top level directory.  Your choice.  But I have this:
# home/ed/projects
# home/ed/projects/gcc_work
# home/ed/projects/obj_work
# home/ed/projects/bin_work
# home/ed/projects/gmp-5.1.0
# home/ed/projects/mpfr-3.1.1
# home/ed/projects/mpc-1.0.1
# home/ed/projects/isl-0.11.1
# home/ed/projects/cloog-0.18.0

mkdir obj_work
cd obj_work
../gcc_work/configure --prefix=../bin_work <other options>

# Your <other options> shouldn't need to involve anything about gmp, mpfr, mpc, isl, cloog.
# The gcc build system will find the directories you linked,
# then configure and compile the needed libraries with the necessary flags and such.
# Good luck.
share|improve this answer
    
Can you be more specific, ideally a few lines of script, that shows what to run where? Thanks! –  Jens Apr 22 '13 at 7:03
    
@Jens I added a script for what I do. Sometimes I just copy the dependency directories instead of soft link. –  emsr Apr 22 '13 at 18:41
    
Thanks a lot. I had to use gmake all-binutils install-binutils all-gcc install-gcc because gmake all install would fail somewhere because it could not determine some suffix. In my case I was not compiling a native, but a cross compiler with --target=powerpc-wrs-vxworks. –  Jens Apr 23 '13 at 13:22

I've been using this configure option with gcc-4.8.0, on FreeBSD, after building and installing gmp, isl and cloog:

LD_LIBRARY_PATH=/path/to/isl/lib ./configure (lots of other options) \
  --with-stage1-ldflags="-rpath /path/to/isl/lib -rpath /path/to/cloog/lib -rpath /path/to/gmp/lib"

and the resulting gcc binary does not need any LD_LIBRARY_PATH. The LD_LIBRARY_PATH for configure is needed because it compiles a test program to check for the ISL version, which would fail if it didn't find the ISL shared lib.

I tried it on Linux (Ubuntu) where it failed during configuring because the -rpath args were passed to gcc instead of ld. I could fix this by using

--with-stage1-ldflags="-Wl,-rpath,/path/to/isl/lib,-rpath,/path/to/cloog/lib,-rpath,/path/to/gmp/lib"

instead.

share|improve this answer
    
Thanks! This looks like what I need. I didn't know about the --with-stage1-ldflags option; will try on my platform and report back! –  Steve Lorimer Apr 25 '13 at 1:18
    
All of GCC's configure options are documented on gcc.gnu.org/install/configure.html –  Jens Apr 25 '13 at 6:57

While it still involves setting environment variables, what I do is that I define LD_RUN_PATH, which sets the rpath. That way the rest of the system can keep using the system provided libraries instead of using the ones that your gcc build generates.

share|improve this answer

I am going to make a suggestion that I believe solves your problem, although it definitely does not answer your question. Let's see how many downvotes I get.

Writing a generic wrapper script to set LD_LIBRARY_PATH and then to run the executable is easy; see http://stackoverflow.com/a/7101577/768469.

The idea is to pass something like --prefix=$PREFIX/install to configure, building an install tree that looks like this:

$PREFIX/
    install/
        lib/
            libcloogXX.so
            libgmpYY.so
            ...
        bin/
            gcc
            emacs
            ...
    bin/
        .wrapper
        gcc -> .wrapper
        emacs -> .wrapper

.wrapper is a simple shell script:

#!/bin/sh

here="${0%/*}"  # or use $(dirname "$0")
base="${0##*/}" # or use $(basename "$0")

libdir="$here"/../install/lib
if [ "$LD_LIBRARY_PATH"x = x ] ; then
    LD_LIBRARY_PATH="$libdir"
else
    LD_LIBRARY_PATH="$libdir":"$LD_LIBRARY_PATH"
fi
export LD_LIBRARY_PATH
exec "$here"/../install/bin/"$base" "$@"

This will forward all arguments correctly, handle spaces in arguments or directory names, and so forth. For practical purposes, it is indistinguishable from setting the rpath like you want.

Also, you can use this approach not only for gcc, but for your entire my-personal-$PREFIX tree. I do this all the time in environments where I want an up-to-date suite of GNU tools, but I do not have (or want to admit to have) root access.

share|improve this answer

Try to add your $PREFIX to /etc/ld.so.conf and then run ldconfig:

# echo $PREFIX >> /etc/ld.so.conf
# ldconfig

This will recreate cache that is used by runtime linker and it will pick up your libraries.

WARNING: This operation will cause ALL applications to use your newly compiled libraries in $PREFIX instead of default location

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