I need a definitive answer because this is still unclear to me and I can't find an explicit answer anywhere in the docs.

Assuming that I have a working gcc toolchain where

host    x86_64-linux-gnu
target  x86_64-linux-gnu

, the question is can I possibly configure and build gcc from sources with ?

host    x86_64-linux-gnu
build   x86_64-linux-gnu
target  arm-gnu-eabi

The reason why I would like an answer on this is about whether or not I should spend time trying different configurations for my libraries and whether or whether or not the scripts used to build gcc are capable of some implicit stage 1 build that can potentially bootstrap an ARM compiler for me temporarily on this x64, so I can generate the toolchain that I need for the target that I want .

  • Does this help? Oct 10, 2014 at 18:28
  • 1
    Are you talking about anything special besides a normal cross compiler ? There's myriads of ways to build one, though it may be easier with the assistance of a helper tool such as crosstool-ng
    – nos
    Oct 10, 2014 at 18:29
  • @nos when there are a lot of ways to achieve the same goal and there isn't a centralized source of documentation: it's a problem; hence my confusion . I know crosstool-ng, I would like to do everything on my own given my necessities . Oct 10, 2014 at 18:30
  • @πάνταῥεῖ looks like that guide is assuming an already working compiler for the given target, especially when you build binutils before gcc, aside from gcc, without an in tree build . No it's not helping . Oct 10, 2014 at 18:40
  • @user2485710 "looks like that guide is assuming an already working compiler for the given target ..." Nah, the cross-compiler is build first, binutils have to be build separate, and don't affect build of the cross compiler anyways. I use this stuff in production (for different target variants), and it works very well. Oct 10, 2014 at 18:45

1 Answer 1


"Can I build gcc for ARM with an X64 one?"

Yes, you can. I have described this process for a suse linux host development system in a blog post of mine.

================================================================================== I'm going to replicate the steps here:

1. Ensure to have the necessary headers & libraries installed

I have used YAST's 'Install Software' feature, to install the following packages that will be necessary to complete all the build steps (just search for the package names, select and accept):

  • gmp-devel
  • mpfr-devel
  • mpc-devel
  • texinfo
  • ncurses-devel
  • termcap

2. Create a directory skeleton

cd ~
mkdir arm-none-eabi arm-none-eabi-src
cd arm-none-eabi
mkdir src build
cd ~/arm-none-eabi-src
mkdir src build

3. Download the the source packages and extract them

I'm using gcc-4.7.1 here, but the same process will of course apply for newer versions of GCC.

cd ~/arm-none-eabi-src/src

wget ftp://ftp.gnu.org/gnu/gcc/gcc-4.7.1/gcc-4.7.1.tar.bz2
wget ftp://ftp.gnu.org/gnu/binutils/binutils-2.22.tar.bz2
wget ftp://ftp.gnu.org/gnu/gdb/gdb-7.4.tar.bz2
wget ftp://sources.redhat.com/pub/newlib/newlib-1.20.0.tar.gz

tar -xf gcc-4.7.1.tar.bz2
tar -xf binutils-2.22.tar.bz2
tar -xf gdb-7.4.tar.bz2
tar -xf newlib-1.20.0.tar.gz

4. Build the binutils

cd ~/arm-none-eabi-src/build
mkdir binutils-2.22
cd binutils-2.22
../../src/binutils-2.22/configure \
  --target=arm-none-eabi \
  --prefix=$HOME/arm-none-eabi \
  --with-cpu=cortex-m3 \
  --with-no-thumb-interwork \
make all install
export PATH="$PATH:$HOME/arm-none-eabi/bin"

5. Build GCC (Part1)

cd ~/arm-none-eabi-src/build
mkdir gcc-4.7.1
cd gcc-4.7.1
../../src/gcc-4.7.1/configure --target=arm-none-eabi \
  --prefix=$HOME/arm-none-eabi --with-cpu=cortex-m3 \
  --with-mode=thumb --disable-multilib \
  --with-no-thumb-interwork \
  --enable-languages="c,c++" --with-newlib \
make all-gcc install-gcc

The --enable-cxx-flags configure option might be additionally used to control the build flags of the libstdc++ (included in this step):

--enable-cxx-flags='-fno-exceptions \
    -ffunction-sections -fno-omit-frame-pointer'

In general the same C++ compile flags should be used as they'll appear when building the intended target code.

6. Build GCC newlib with the cross compiler (Part2)

cd ~/arm-none-eabi-src/build
mkdir newlib-1.20.0
cd newlib-1.20.0
../../src/newlib-1.20.0/configure --target=arm-none-eabi \
  --prefix=$HOME/arm-none-eabi --disable-multilib \
make all install

A note about the --disable-newlib-supplied-syscalls option:
Disabling the default newlib syscall stub implementation is generally a good idea when you intend to compile for targets without using a linux like operating system, or no OS at all. It will leave you with linker errors on unimplemented stub functions you'll need to provide for newlib. Removing the option will still enable you to override the newlib provided stubs with your own implementations.

Though, when you plan to use the cross-toolchain in conjunction with CMake, you should omit this option. CMake does some basic tests using the specified compiler definitions (e.g. from a toolchain.cmake file), that'll fail without the default stub implementations supplied.

7. Complete installing GCC

cd ~/arm-none-eabi-src/build/gcc-4.7.1
make all install

8. Build GDB

cd ~/arm-none-eabi-src/build
mkdir gdb-7.4
cd gdb-7.4
../../src/gdb-7.4/configure --target=arm-none-eabi \
make all install

The same works pretty well for GCC 4.8.2 also.

  • question: is this supposed to work with an in tree build with the gcc sources beside the binutils ones ? Because I already tried something along this lines and I know for a fact that doesn't work, I don't know if I'm doing something wrong or I just have to build binutils out of the tree in a separate step . Oct 10, 2014 at 19:29
  • @user2485710 "... or I just have to build binutils out of the tree in a separate step.' Well, my solution proposes to build and install binutils in a separate step, before the cross compiler is build. I don't know if this really matters, but I doubt the in/out of tree argument has something to do with it. Oct 10, 2014 at 19:35
  • with my previous steps I always got an error when building libgcc, which is at the stage 2 phase if I recall correctly, which means I probably got the majority of my flags right but the ones about architectures and libraries can be wrong . I think that with-cpu might be a game changer, which is probably implicit on x64 . I just finished compiling binutils for ARM following your guidance, I think that this out of tree build does makes a difference . Oct 10, 2014 at 19:40
  • @user2485710 "I think that this out of tree build does makes a difference" I'm always finding these terms out of / in tree build a bit whacky. I'm not so sure what these should mean. All what I know about is, I have a source directory where I'm extracting to, and I have a build directory, where I'm going to build the stuff, and take the artifacts as source, for whereever I want to install it. Oct 10, 2014 at 19:47
  • the thing is that I have problems with in tree builds ( gcc + binutils + the other libs, with all the sources in the same dir or symlinked in the same dir ) only when switching to ARM targets, probably ARM builds are more picky and need a more precise configuration to work, for example I was using --with-arch=, which works totally fine for x86-like targets, but apparently it's not enough for other targets, it's weird, there are some quirks of the gcc build system that I still need to grasp . Oct 10, 2014 at 19:58

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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