checked whether absolute paths passed to gcc/ld refer to the store,
which is wrong: they can also refer to the build tree
(/tmp/nix-...).
* Less static composition in the construction of stdenv-nix-linux:
gcc-wrapper and generic are now passed in as arguments, rather then
referenced by relative path. This makes it easier to hack on a
specific stage of the bootstrap process (before, a change to, e.g.,
generic/setup.sh would cause all bootstrap stages to be redone).
svn path=/nixpkgs/trunk/; revision=833
- gcc/ld-wrappers have been factored out into a separate
derivation. This allows a working gcc to be installed in the user
environment. (Previously the Nix gcc didn't work because it
needed a whole bunch of flags to point to glibc.)
- Better modularity: packages can specify hooks into the setup
scripts. For instance, setup no longer knows about the
PKG_CONFIG_PATH variable; pkgconfig can set it up instead.
- gcc not longer depends on binutils. This simplifies the bootstrap
process.
svn path=/nixpkgs/trunk/; revision=816
/usr/lib/crt1.o, while it should be using $glibc/lib/crt1.o. This
quick hack (prepending $glibc/lib to the GCC search path using "-B")
fixes the problem, but a better solution to prevent this sort of
thing is to remove these static paths from gcc.
Note: this problem was found using the pure UML Nix environment
(where we don't have /usr/lib).
svn path=/nixpkgs/trunk/; revision=810
against the right dynamic libraries. set-env.sh add the right linker flags to the
NIX_LDFLAGS environment variable, which is passed by gcc-wrapper to the linker.
(In many cases these flags could just be passed through LDFLAGS to configure
scripts; however, in many other cases this doesn't work properly.)
--This line, and those below, will be ignored--
M pkgs/atk/atk-build.sh
M pkgs/glibc/glibc-build.sh
M pkgs/expat/expat-build.sh
M pkgs/freetype/freetype-build.sh
M pkgs/system/populate-linkdirs.pl
M pkgs/sdf2/sdf2-build.sh
M pkgs/pspell/pspell-build.sh
M pkgs/subversion/subversion-build.sh
M pkgs/helpers/set-env.sh
M pkgs/pango/pango-build.sh
M pkgs/strategoxt/strategoxt-build.sh
M pkgs/aterm/aterm-build.sh
M pkgs/libxml2/libxml2-build.sh
M pkgs/glib-1/glib-build.sh
M pkgs/glib/glib-build.sh
M pkgs/pan/pan.fix
M pkgs/pan/pan-build.sh
M pkgs/libxslt/libxslt-build.sh
M pkgs/httpd/httpd-build.sh
M pkgs/openssl/openssl-build.sh
M pkgs/gtkspell/gtkspell-build.sh
M pkgs/fontconfig/fontconfig.fix
M pkgs/fontconfig/fontconfig-build.sh
M pkgs/gnet/gnet-build.sh
M pkgs/gtk+-1/gtk+-build.sh
M pkgs/gtk+/gtk+-build.sh
M pkgs/stdenv/gcc-wrapper.sh
M pkgs/stdenv/stdenv-build.sh
M pkgs/db4/db4-build.sh
M pkgs/db4/db4.fix
M pkgs/MPlayer/MPlayer-build.sh
M pkgs/swig/swig-build.sh
svn path=/nixpkgs/trunk/; revision=213
the build and execution environment.
This is very useful. For example, it allows packages built on a SuSE
8.2 system to run on a SuSE 8.1 system (this is because 8.2 has a newer
glibc; packages built against it cannot be dynamically linked against
older glibcs).
Of course, Fix packages should not directly import glibc since that is
very system-specific. Rather, they should import stdenv/stdenv.fix and
in their build scripts source in $stdenv/setup, which will setup the
right environment variables. The idea is that stdenv.fix provides the
basic C/Unix build environment (C compiler, POSIX utilities, etc.).
Note that only the ATerm package currently uses this.
svn path=/nixpkgs/trunk/; revision=203