[[!meta copyright="Copyright © 2007, 2008, 2010, 2011 Free Software Foundation, Inc."]] [[!meta license="""[[!toggle id="license" text="GFDL 1.2+"]][[!toggleable id="license" text="Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled [[GNU Free Documentation License|/fdl]]."]]"""]] [[!tag stable_URL]] [[Thomas_Schwinge|tschwinge]] has written a shell script for building a complete cross-build environment for GNU/Hurd systems. Find it in the [[source_repositories/incubator]], *cross-gnu/master* branch. # Using Read through it. Understand it. Only then use it by following the next steps. # Status /!\ Please note that these cross toolchains does not yet encompass all of the functionality that native toolchains provide. For example, there is only support for C and C++ so far, but not for other languages. A bunch of fixes / enhancements of [[glibc]] are missing. We're working towards minimizing these differences, as well as towards pushing all patches upstream. ## Supported Versions of Source Packages /!\ This is outdated. Contact [[tschwinge]]. The following ones are known to work. Others may work as well, but no guarantee is given. Always the preferred version is listed first. * [[`src/binutils`|binutils]] * CVS `binutils-2_20-branch` $ mkdir binutils-2_20-branch $ cd binutils-2_20-branch/ $ cvs -d:pserver:anoncvs@sources.redhat.com:/cvs/src ↩ co -r binutils-2_20-branch binutils The sources are rooted in `binutils-2_20-branch/src/`. Also use the above commands for updating, instead of the usual `cvs update`. * Release 2.22 or later from should also be fine. * [[`src/gcc`|gcc]] * SVN `gcc-4_5-branch` $ svn co svn://gcc.gnu.org/svn/gcc/branches/gcc-4_5-branch Patches: * Prepare: $ ( cd gcc-4_5-branch/ && contrib/gcc_update --touch ) * SVN `gcc-4_4-branch` $ svn co svn://gcc.gnu.org/svn/gcc/branches/gcc-4_4-branch Patches: * Prepare: $ ( cd gcc-4_4-branch/ && contrib/gcc_update --touch ) * Releases of the 4.5 and 4.4 series from should also be fine, but need the same set of patches as the `gcc-4_5-branch` needs. * [[`src/gnumach`|microkernel/mach/gnumach]] * Git `master` branch $ git clone ↩ git://git.savannah.gnu.org/hurd/gnumach.git gnumach Prepare: $ ( cd gnumach/ && autoreconf -vi ) * [[`src/mig`|microkernel/mach/mig/gnu_mig]] * Git `master` branch $ git clone ↩ git://git.savannah.gnu.org/hurd/mig.git mig Prepare: $ ( cd mig/ && autoreconf -vi ) * [[`src/hurd`|hurd]] * Git `master` branch $ git clone ↩ git://git.savannah.gnu.org/hurd/hurd.git hurd * [[`src/libpthread`|libpthread]] * Git `tschwinge/Peter_Herbolzheimer` branch $ git clone --no-checkout ↩ git://git.savannah.gnu.org/hurd/libpthread.git libpthread $ cd libpthread/ $ git checkout origin/tschwinge/Peter_Herbolzheimer Prepare: $ ( cd libpthread/ && autoreconf -vi ) * [[`src/glibc`|glibc]] * Git `tschwinge/Roger_Whittaker` branch $ git clone --no-checkout ↩ git://git.savannah.gnu.org/hurd/glibc.git glibc $ cd glibc/ $ git checkout origin/tschwinge/Roger_Whittaker ## Preparation The raw source code trees are about 1 GiB. Unpack the tarballs if you downloaded any. Create a directory where the cross build shall be rooted in, and a `src` subdirectory in there. Then create symbolic links for every of the above packages: from `src/PACKAGE` to where you stored or unpacked it. If you don't intend to build several cross compilers or use the source trees otherwise, you can also directly store the source trees in `src/`. The source trees can be shared between multiple cross build trees since the packages' build systems are supposed not to modify the files in the source trees. Not all packages adhere to that, but they fail to do so only for pre-processed documentation, etc. Either make sure that `cross-gnu-env` and `cross-gnu` are found in `$PATH` (`~/bin/`, for example) or alternatively remember to use their full paths in the following. The system you're running the script on (the *build* system) needs to have basic development tools installed, that is, a C compiler with libraries, `make`, and several more packages. If anything is missing, the *cross-gnu* build will abort, and you have to install the missing dependencies and resume the *cross-gnu* build. ## Setting Up the Environment Do this every time you intend to use the cross compiler: $ ROOT=to/the/cross/build/root $ . cross-gnu-env This will set several environment variables, which are later used by (a) the `cross-gnu` script and (b) by you, the user of the cross compiler. `$TARGET` will be set by the script, `$PATH` will be adjusted, etc. See the `cross-gnu-env` file for all environment variables that are set, as well as their default values. `$ROOT` will be made an absolute path if it isn't already. Later, you'll be able to do things like `../configure --host="$TARGET"`, and the cross compiler will be found automatically. ## Creating the Cross Build Environment This will need an additional 2 GiB. After setting up the environment, just run `cross-gnu` and watch the messages flow by. In the end you should see a message: *[...]/cross-gnu: Everything should be in place now.* ## Staying Up-To-Date You can re-run `cross-gnu` to rebuild the parts of the sources that have changed since the last run. This will save a lot of time compared to starting from scratch again. Also, it is especially useful if you aren't working with unpacked tarballs, but on CVS's / SVN's / Git's branches or want to quickly get a new toolchain with patches you applied to the source trees. However: do *not* use this technique when doing major changes to the source trees, like switching from GCC 4.4 to GCC 4.5.