{ stdenv, binutils-raw, cctools , hostPlatform, targetPlatform }: # Make sure both underlying packages claim to have prepended their binaries # with the same prefix. assert binutils-raw.prefix == cctools.prefix; let inherit (binutils-raw) prefix; cmds = [ "ar" "ranlib" "as" "dsymutil" "install_name_tool" "ld" "strip" "otool" "lipo" "nm" "strings" "size" ]; in # TODO loop over prefixed binaries too stdenv.mkDerivation { name = "${prefix}cctools-binutils-darwin"; buildCommand = '' mkdir -p $out/bin $out/include ln -s ${binutils-raw.out}/bin/${prefix}c++filt $out/bin/${prefix}c++filt # We specifically need: # - ld: binutils doesn't provide it on darwin # - as: as above # - ar: the binutils one prodices .a files that the cctools ld doesn't like # - ranlib: for compatibility with ar # - dsymutil: soon going away once it goes into LLVM (this one is fake anyway) # - otool: we use it for some of our name mangling # - install_name_tool: we use it to rewrite stuff in our bootstrap tools # - strip: the binutils one seems to break mach-o files # - lipo: gcc build assumes it exists # - nm: the gnu one doesn't understand many new load commands for i in ${stdenv.lib.concatStringsSep " " (builtins.map (e: prefix + e) cmds)}; do ln -sf "${cctools}/bin/$i" "$out/bin/$i" done for i in ${stdenv.lib.getDev binutils-raw}/include/*.h; do ln -s "$i" "$out/include/$(basename $i)" done for i in ${cctools}/include/*; do ln -s "$i" "$out/include/$(basename $i)" done # FIXME: this will give us incorrect man pages for bits of cctools ln -s ${binutils-raw.out}/share $out/share ln -s ${binutils-raw.out}/lib $out/lib ln -s ${cctools}/libexec $out/libexec ''; passthru = { inherit prefix; }; }