mirror of
https://github.com/NixOS/nixpkgs.git
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28b6fb61e6
This is done for the sake of Yosemite, which does not have gcc, and yet this change is also compatible with Linux.
252 lines
8.7 KiB
Nix
252 lines
8.7 KiB
Nix
# The Nixpkgs GCC is not directly usable, since it doesn't know where
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# the C library and standard header files are. Therefore the compiler
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# produced by that package cannot be installed directly in a user
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# environment and used from the command line. So we use a wrapper
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# script that sets up the right environment variables so that the
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# compiler and the linker just "work".
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{ name ? "", stdenv, nativeTools, nativeLibc, nativePrefix ? ""
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, gcc ? null, libc ? null, binutils ? null, coreutils ? null, shell ? stdenv.shell
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, zlib ? null, extraPackages ? []
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}:
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with stdenv.lib;
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assert nativeTools -> nativePrefix != "";
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assert !nativeTools -> gcc != null && binutils != null && coreutils != null;
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assert !nativeLibc -> libc != null;
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# For ghdl (the vhdl language provider to gcc) we need zlib in the wrapper.
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assert gcc.langVhdl or false -> zlib != null;
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let
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gccVersion = (builtins.parseDrvName gcc.name).version;
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gccName = (builtins.parseDrvName gcc.name).name;
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in
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stdenv.mkDerivation {
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name =
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(if name != "" then name else gccName + "-wrapper") +
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(if gcc != null && gccVersion != "" then "-" + gccVersion else "");
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preferLocalBuild = true;
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inherit gcc shell;
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libc = if nativeLibc then null else libc;
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binutils = if nativeTools then null else binutils;
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# The wrapper scripts use 'cat', so we may need coreutils.
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coreutils = if nativeTools then null else coreutils;
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passthru = { inherit nativeTools nativeLibc nativePrefix; };
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buildCommand =
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''
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mkdir -p $out/bin $out/nix-support
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wrap() {
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local dst="$1"
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local wrapper="$2"
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export prog="$3"
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substituteAll "$wrapper" "$out/bin/$dst"
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chmod +x "$out/bin/$dst"
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}
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''
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+ optionalString (!nativeLibc) ''
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dynamicLinker="$libc/lib/$dynamicLinker"
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echo $dynamicLinker > $out/nix-support/dynamic-linker
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if [ -e $libc/lib/32/ld-linux.so.2 ]; then
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echo $libc/lib/32/ld-linux.so.2 > $out/nix-support/dynamic-linker-m32
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fi
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# The "-B$libc/lib/" flag is a quick hack to force gcc to link
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# against the crt1.o from our own glibc, rather than the one in
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# /usr/lib. (This is only an issue when using an `impure'
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# compiler/linker, i.e., one that searches /usr/lib and so on.)
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#
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# Unfortunately, setting -B appears to override the default search
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# path. Thus, the gcc-specific "../includes-fixed" directory is
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# now longer searched and glibc's <limits.h> header fails to
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# compile, because it uses "#include_next <limits.h>" to find the
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# limits.h file in ../includes-fixed. To remedy the problem,
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# another -idirafter is necessary to add that directory again.
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echo "-B$libc/lib/ -idirafter $libc/include -idirafter $gcc/lib/gcc/*/*/include-fixed" > $out/nix-support/libc-cflags
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echo "-L$libc/lib" > $out/nix-support/libc-ldflags
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# The dynamic linker is passed in `ldflagsBefore' to allow
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# explicit overrides of the dynamic linker by callers to gcc/ld
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# (the *last* value counts, so ours should come first).
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echo "-dynamic-linker" $dynamicLinker > $out/nix-support/libc-ldflags-before
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echo $libc > $out/nix-support/orig-libc
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''
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+ (if nativeTools then ''
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gccPath="${nativePrefix}/bin"
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ldPath="${nativePrefix}/bin"
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'' else ''
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echo $gcc > $out/nix-support/orig-gcc
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# GCC shows $gcc/lib in `gcc -print-search-dirs', but not
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# $gcc/lib64 (even though it does actually search there...)..
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# This confuses libtool. So add it to the compiler tool search
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# path explicitly.
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if [ -e "$gcc/lib64" -a ! -L "$gcc/lib64" ]; then
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gccLDFlags+=" -L$gcc/lib64"
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gccCFlags+=" -B$gcc/lib64"
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fi
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gccLDFlags+=" -L$gcc/lib"
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${optionalString gcc.langVhdl or false ''
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gccLDFlags+=" -L${zlib}/lib"
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''}
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# Find the gcc libraries path (may work only without multilib).
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${optionalString gcc.langAda or false ''
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basePath=`echo $gcc/lib/*/*/*`
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gccCFlags+=" -B$basePath -I$basePath/adainclude"
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gnatCFlags="-aI$basePath/adainclude -aO$basePath/adalib"
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echo "$gnatCFlags" > $out/nix-support/gnat-cflags
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''}
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echo "$gccLDFlags" > $out/nix-support/gcc-ldflags
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echo "$gccCFlags" > $out/nix-support/gcc-cflags
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gccPath="$gcc/bin"
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ldPath="$binutils/bin"
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# Propagate the wrapped gcc so that if you install the wrapper,
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# you get tools like gcov, the manpages, etc. as well (including
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# for binutils and Glibc).
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echo $gcc $binutils $libc > $out/nix-support/propagated-user-env-packages
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echo ${toString extraPackages} > $out/nix-support/propagated-native-build-inputs
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''
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+ optionalString (stdenv.isSunOS && nativePrefix != "") ''
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# Solaris needs an additional ld wrapper.
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ldPath="${nativePrefix}/bin"
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ld="$out/bin/ld-solaris"
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wrap ld-solaris ${./ld-solaris-wrapper.sh}
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'')
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+ ''
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# Create a symlink to as (the assembler). This is useful when a
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# gcc-wrapper is installed in a user environment, as it ensures that
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# the right assembler is called.
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if [ -e $ldPath/as ]; then
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ln -s $ldPath/as $out/bin/as
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fi
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wrap ld ${./ld-wrapper.sh} ''${ld:-$ldPath/ld}
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if [ -e $binutils/bin/ld.gold ]; then
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wrap ld.gold ${./ld-wrapper.sh} $binutils/bin/ld.gold
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fi
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if [ -e $binutils/bin/ld.bfd ]; then
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wrap ld.bfd ${./ld-wrapper.sh} $binutils/bin/ld.bfd
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fi
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if [ -e $gccPath/gcc ]; then
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wrap gcc ${./gcc-wrapper.sh} $gccPath/gcc
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ln -s gcc $out/bin/cc
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elif [ -e $gccPath/clang ]; then
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wrap clang ${./gcc-wrapper.sh} $gccPath/clang
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ln -s clang $out/bin/cc
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fi
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if [ -e $gccPath/g++ ]; then
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wrap g++ ${./gcc-wrapper.sh} $gccPath/g++
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ln -s g++ $out/bin/c++
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elif [ -e $gccPath/clang++ ]; then
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wrap clang++ ${./gcc-wrapper.sh} $gccPath/clang++
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ln -s clang++ $out/bin/c++
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fi
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if [ -e $gccPath/cpp ]; then
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wrap cpp ${./gcc-wrapper.sh} $gccPath/cpp
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fi
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''
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+ optionalString gcc.langFortran or false ''
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wrap gfortran ${./gcc-wrapper.sh} $gccPath/gfortran
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ln -sv gfortran $out/bin/g77
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ln -sv gfortran $out/bin/f77
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''
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+ optionalString gcc.langJava or false ''
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wrap gcj ${./gcc-wrapper.sh} $gccPath/gcj
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''
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+ optionalString gcc.langGo or false ''
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wrap gccgo ${./gcc-wrapper.sh} $gccPath/gccgo
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''
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+ optionalString gcc.langAda or false ''
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wrap gnatgcc ${./gcc-wrapper.sh} $gccPath/gnatgcc
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wrap gnatmake ${./gnat-wrapper.sh} $gccPath/gnatmake
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wrap gnatbind ${./gnat-wrapper.sh} $gccPath/gnatbind
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wrap gnatlink ${./gnatlink-wrapper.sh} $gccPath/gnatlink
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''
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+ optionalString gcc.langVhdl or false ''
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ln -s $gccPath/ghdl $out/bin/ghdl
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''
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+ ''
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substituteAll ${./setup-hook.sh} $out/nix-support/setup-hook
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substituteAll ${./add-flags} $out/nix-support/add-flags.sh
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cp -p ${./utils.sh} $out/nix-support/utils.sh
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if [ -e $out/bin/clang ]; then
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echo 'export CC; : ''${CC:=clang}' >> $out/nix-support/setup-hook
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fi
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if [ -e $out/bin/clang++ ]; then
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echo 'export CXX; : ''${CXX:=clang++}' >> $out/nix-support/setup-hook
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fi
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'';
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# The dynamic linker has different names on different Linux platforms.
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dynamicLinker =
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if !nativeLibc then
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(if stdenv.system == "i686-linux" then "ld-linux.so.2" else
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if stdenv.system == "x86_64-linux" then "ld-linux-x86-64.so.2" else
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# ARM with a wildcard, which can be "" or "-armhf".
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if stdenv.isArm then "ld-linux*.so.3" else
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if stdenv.system == "powerpc-linux" then "ld.so.1" else
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if stdenv.system == "mips64el-linux" then "ld.so.1" else
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abort "Don't know the name of the dynamic linker for this platform.")
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else "";
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crossAttrs = {
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shell = shell.crossDrv + shell.crossDrv.shellPath;
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libc = stdenv.ccCross.libc;
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coreutils = coreutils.crossDrv;
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binutils = binutils.crossDrv;
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gcc = gcc.crossDrv;
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#
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# This is not the best way to do this. I think the reference should be
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# the style in the gcc-cross-wrapper, but to keep a stable stdenv now I
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# do this sufficient if/else.
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dynamicLinker =
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(if stdenv.cross.arch == "arm" then "ld-linux.so.3" else
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if stdenv.cross.arch == "mips" then "ld.so.1" else
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if stdenv.lib.hasSuffix "pc-gnu" stdenv.cross.config then "ld.so.1" else
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abort "don't know the name of the dynamic linker for this platform");
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};
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meta =
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let gcc_ = if gcc != null then gcc else {}; in
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(if gcc_ ? meta then removeAttrs gcc.meta ["priority"] else {}) //
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{ description =
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stdenv.lib.attrByPath ["meta" "description"] "System C compiler" gcc_
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+ " (wrapper script)";
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};
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}
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