nixpkgs/pkgs/development/compilers/gcc/5/default.nix
John Ericson b9acfb4ecf treewide: isArm -> isAarch32
Following legacy packing conventions, `isArm` was defined just for
32-bit ARM instruction set. This is confusing to non packagers though,
because Aarch64 is an ARM instruction set.

The official ARM overview for ARMv8[1] is surprisingly not confusing,
given the overall state of affairs for ARM naming conventions, and
offers us a solution. It divides the nomenclature into three levels:

```
ISA:             ARMv8   {-A, -R, -M}
                 /    \
Mode:     Aarch32     Aarch64
             |         /   \
Encoding:   A64      A32   T32
```

At the top is the overall v8 instruction set archicture. Second are the
two modes, defined by bitwidth but differing in other semantics too, and
buttom are the encodings, (hopefully?) isomorphic if they encode the
same mode.

The 32 bit encodings are mostly backwards compatible with previous
non-Thumb and Thumb encodings, and if so we can pun the mode names to
instead mean "sets of compatable or isomorphic encodings", and then
voilà we have nice names for 32-bit and 64-bit arm instruction sets
which do not use the word ARM so as to not confused either laymen or
experienced ARM packages.

[1]: https://developer.arm.com/products/architecture/a-profile

(cherry picked from commit ba52ae5048)
2018-04-25 15:50:41 -04:00

534 lines
20 KiB
Nix

{ stdenv, targetPackages, fetchurl, fetchpatch, noSysDirs
, langC ? true, langCC ? true, langFortran ? false
, langObjC ? targetPlatform.isDarwin
, langObjCpp ? targetPlatform.isDarwin
, langJava ? false
, langAda ? false
, langVhdl ? false
, langGo ? false
, profiledCompiler ? false
, staticCompiler ? false
, enableShared ? true
, texinfo ? null
, perl ? null # optional, for texi2pod (then pod2man); required for Java
, gmp, mpfr, libmpc, gettext, which
, libelf # optional, for link-time optimizations (LTO)
, isl ? null # optional, for the Graphite optimization framework.
, zlib ? null, boehmgc ? null
, zip ? null, unzip ? null, pkgconfig ? null
, gtk2 ? null, libart_lgpl ? null
, libX11 ? null, libXt ? null, libSM ? null, libICE ? null, libXtst ? null
, libXrender ? null, xproto ? null, renderproto ? null, xextproto ? null
, libXrandr ? null, libXi ? null, inputproto ? null, randrproto ? null
, x11Support ? langJava
, gnatboot ? null
, enableMultilib ? false
, enablePlugin ? hostPlatform == buildPlatform # Whether to support user-supplied plug-ins
, name ? "gcc"
, libcCross ? null
, crossStageStatic ? false
, gnat ? null
, libpthread ? null, libpthreadCross ? null # required for GNU/Hurd
, stripped ? true
, gnused ? null
, cloog # unused; just for compat with gcc4, as we override the parameter on some places
, darwin ? null
, buildPlatform, hostPlatform, targetPlatform
, buildPackages
}:
assert langJava -> zip != null && unzip != null
&& zlib != null && boehmgc != null
&& perl != null; # for `--enable-java-home'
assert langAda -> gnatboot != null;
assert langVhdl -> gnat != null;
# LTO needs libelf and zlib.
assert libelf != null -> zlib != null;
# Make sure we get GNU sed.
assert hostPlatform.isDarwin -> gnused != null;
# The go frontend is written in c++
assert langGo -> langCC;
with stdenv.lib;
with builtins;
let version = "5.5.0";
sha256 = "11zd1hgzkli3b2v70qsm2hyqppngd4616qc96lmm9zl2kl9yl32k";
# Whether building a cross-compiler for GNU/Hurd.
crossGNU = targetPlatform != hostPlatform && targetPlatform.config == "i586-pc-gnu";
enableParallelBuilding = true;
patches =
[ ../use-source-date-epoch.patch ]
++ optional (targetPlatform != hostPlatform) ../libstdc++-target.patch
++ optional noSysDirs ../no-sys-dirs.patch
# The GNAT Makefiles did not pay attention to CFLAGS_FOR_TARGET for its
# target libraries and tools.
++ optional langAda ../gnat-cflags.patch
++ optional langFortran ../gfortran-driving.patch
# This could be applied unconditionally but I don't want to cause a full
# Linux rebuild.
++ optional stdenv.cc.isClang ./libcxx38-and-above.patch
++ optional stdenv.hostPlatform.isMusl (fetchpatch {
url = https://raw.githubusercontent.com/richfelker/musl-cross-make/e84b1bd1fc12a3def33111ca6df522cd6e5ec361/patches/gcc-5.3.0/0001-musl.diff;
sha256 = "0pppbf8myi2kjhm3z3479ihn1cm60kycfv60gj8yy1bs0pl1qcfm";
});
javaEcj = fetchurl {
# The `$(top_srcdir)/ecj.jar' file is automatically picked up at
# `configure' time.
# XXX: Eventually we might want to take it from upstream.
url = "ftp://sourceware.org/pub/java/ecj-4.3.jar";
sha256 = "0jz7hvc0s6iydmhgh5h2m15yza7p2rlss2vkif30vm9y77m97qcx";
};
# Antlr (optional) allows the Java `gjdoc' tool to be built. We want a
# binary distribution here to allow the whole chain to be bootstrapped.
javaAntlr = fetchurl {
url = http://www.antlr.org/download/antlr-4.4-complete.jar;
sha256 = "02lda2imivsvsis8rnzmbrbp8rh1kb8vmq4i67pqhkwz7lf8y6dz";
};
xlibs = [
libX11 libXt libSM libICE libXtst libXrender libXrandr libXi
xproto renderproto xextproto inputproto randrproto
];
javaAwtGtk = langJava && x11Support;
/* Platform flags */
platformFlags = let
gccArch = targetPlatform.platform.gcc.arch or null;
gccCpu = targetPlatform.platform.gcc.cpu or null;
gccAbi = targetPlatform.platform.gcc.abi or null;
gccFpu = targetPlatform.platform.gcc.fpu or null;
gccFloat = targetPlatform.platform.gcc.float or null;
gccMode = targetPlatform.platform.gcc.mode or null;
in
optional (gccArch != null) "--with-arch=${gccArch}" ++
optional (gccCpu != null) "--with-cpu=${gccCpu}" ++
optional (gccAbi != null) "--with-abi=${gccAbi}" ++
optional (gccFpu != null) "--with-fpu=${gccFpu}" ++
optional (gccFloat != null) "--with-float=${gccFloat}" ++
optional (gccMode != null) "--with-mode=${gccMode}";
/* Cross-gcc settings (build == host != target) */
crossMingw = targetPlatform != hostPlatform && targetPlatform.libc == "msvcrt";
crossDarwin = targetPlatform != hostPlatform && targetPlatform.libc == "libSystem";
crossConfigureFlags =
# Ensure that -print-prog-name is able to find the correct programs.
[ "--with-as=${targetPackages.stdenv.cc.bintools}/bin/${targetPlatform.config}-as"
"--with-ld=${targetPackages.stdenv.cc.bintools}/bin/${targetPlatform.config}-ld" ] ++
(if crossMingw && crossStageStatic then [
"--with-headers=${libcCross}/include"
"--with-gcc"
"--with-gnu-as"
"--with-gnu-ld"
"--with-gnu-ld"
"--disable-shared"
"--disable-nls"
"--disable-debug"
"--enable-sjlj-exceptions"
"--enable-threads=win32"
"--disable-win32-registry"
] else if crossStageStatic then [
"--disable-libssp"
"--disable-nls"
"--without-headers"
"--disable-threads"
"--disable-libgomp"
"--disable-libquadmath"
"--disable-shared"
"--disable-libatomic" # libatomic requires libc
"--disable-decimal-float" # libdecnumber requires libc
] else [
(if crossDarwin then "--with-sysroot=${getLib libcCross}/share/sysroot"
else "--with-headers=${getDev libcCross}/include")
"--enable-__cxa_atexit"
"--enable-long-long"
] ++
(if crossMingw then [
"--enable-threads=win32"
"--enable-sjlj-exceptions"
"--enable-hash-synchronization"
"--enable-libssp"
"--disable-nls"
"--with-dwarf2"
# To keep ABI compatibility with upstream mingw-w64
"--enable-fully-dynamic-string"
] else
optionals (targetPlatform.libc == "uclibc" || targetPlatform.libc == "musl") [
# libsanitizer requires netrom/netrom.h which is not
# available in uclibc.
"--disable-libsanitizer"
# In uclibc cases, libgomp needs an additional '-ldl'
# and as I don't know how to pass it, I disable libgomp.
"--disable-libgomp"
] ++ [
"--enable-threads=posix"
"--enable-nls"
"--disable-decimal-float" # No final libdecnumber (it may work only in 386)
]));
stageNameAddon = if crossStageStatic then "-stage-static" else "-stage-final";
crossNameAddon = if targetPlatform != hostPlatform then "-${targetPlatform.config}" + stageNameAddon else "";
bootstrap = targetPlatform == hostPlatform;
in
# We need all these X libraries when building AWT with GTK+.
assert x11Support -> (filter (x: x == null) ([ gtk2 libart_lgpl ] ++ xlibs)) == [];
stdenv.mkDerivation ({
name = "${name}${if stripped then "" else "-debug"}-${version}" + crossNameAddon;
builder = ../builder.sh;
src = fetchurl {
url = "mirror://gnu/gcc/gcc-${version}/gcc-${version}.tar.xz";
inherit sha256;
};
inherit patches;
outputs = [ "out" "lib" "man" "info" ];
setOutputFlags = false;
NIX_NO_SELF_RPATH = true;
libc_dev = stdenv.cc.libc_dev;
hardeningDisable = [ "format" ];
# This should kill all the stdinc frameworks that gcc and friends like to
# insert into default search paths.
prePatch = stdenv.lib.optionalString hostPlatform.isDarwin ''
substituteInPlace gcc/config/darwin-c.c \
--replace 'if (stdinc)' 'if (0)'
substituteInPlace libgcc/config/t-slibgcc-darwin \
--replace "-install_name @shlib_slibdir@/\$(SHLIB_INSTALL_NAME)" "-install_name $lib/lib/\$(SHLIB_INSTALL_NAME)"
substituteInPlace libgfortran/configure \
--replace "-install_name \\\$rpath/\\\$soname" "-install_name $lib/lib/\\\$soname"
'';
postPatch =
if (hostPlatform.isHurd
|| (libcCross != null # e.g., building `gcc.crossDrv'
&& libcCross ? crossConfig
&& libcCross.crossConfig == "i586-pc-gnu")
|| (crossGNU && libcCross != null))
then
# On GNU/Hurd glibc refers to Hurd & Mach headers and libpthread is not
# in glibc, so add the right `-I' flags to the default spec string.
assert libcCross != null -> libpthreadCross != null;
let
libc = if libcCross != null then libcCross else stdenv.glibc;
gnu_h = "gcc/config/gnu.h";
extraCPPDeps =
libc.propagatedBuildInputs
++ stdenv.lib.optional (libpthreadCross != null) libpthreadCross
++ stdenv.lib.optional (libpthread != null) libpthread;
extraCPPSpec =
concatStrings (intersperse " "
(map (x: "-I${x.dev or x}/include") extraCPPDeps));
extraLibSpec =
if libpthreadCross != null
then "-L${libpthreadCross}/lib ${libpthreadCross.TARGET_LDFLAGS}"
else "-L${libpthread}/lib";
in
'' echo "augmenting \`CPP_SPEC' in \`${gnu_h}' with \`${extraCPPSpec}'..."
sed -i "${gnu_h}" \
-es'|CPP_SPEC *"\(.*\)$|CPP_SPEC "${extraCPPSpec} \1|g'
echo "augmenting \`LIB_SPEC' in \`${gnu_h}' with \`${extraLibSpec}'..."
sed -i "${gnu_h}" \
-es'|LIB_SPEC *"\(.*\)$|LIB_SPEC "${extraLibSpec} \1|g'
echo "setting \`NATIVE_SYSTEM_HEADER_DIR' and \`STANDARD_INCLUDE_DIR' to \`${libc.dev}/include'..."
sed -i "${gnu_h}" \
-es'|#define STANDARD_INCLUDE_DIR.*$|#define STANDARD_INCLUDE_DIR "${libc.dev}/include"|g'
''
else if targetPlatform != hostPlatform || stdenv.cc.libc != null then
# On NixOS, use the right path to the dynamic linker instead of
# `/lib/ld*.so'.
let
libc = if libcCross != null then libcCross else stdenv.cc.libc;
in
(
'' echo "fixing the \`GLIBC_DYNAMIC_LINKER', \`UCLIBC_DYNAMIC_LINKER', and \`MUSL_DYNAMIC_LINKER' macros..."
for header in "gcc/config/"*-gnu.h "gcc/config/"*"/"*.h
do
grep -q _DYNAMIC_LINKER "$header" || continue
echo " fixing \`$header'..."
sed -i "$header" \
-e 's|define[[:blank:]]*\([UCG]\+\)LIBC_DYNAMIC_LINKER\([0-9]*\)[[:blank:]]"\([^\"]\+\)"$|define \1LIBC_DYNAMIC_LINKER\2 "${libc.out}\3"|g' \
-e 's|define[[:blank:]]*MUSL_DYNAMIC_LINKER\([0-9]*\)[[:blank:]]"\([^\"]\+\)"$|define MUSL_DYNAMIC_LINKER\1 "${libc.out}\2"|g'
done
''
+ stdenv.lib.optionalString (targetPlatform.libc == "musl")
''
sed -i gcc/config/linux.h -e '1i#undef LOCAL_INCLUDE_DIR'
''
)
else null;
# TODO(@Ericson2314): Make passthru instead. Weird to avoid mass rebuild,
crossStageStatic = targetPlatform == hostPlatform || crossStageStatic;
inherit noSysDirs staticCompiler langJava
libcCross crossMingw;
depsBuildBuild = [ buildPackages.stdenv.cc ];
nativeBuildInputs = [ texinfo which gettext ]
++ (optional (perl != null) perl)
++ (optional javaAwtGtk pkgconfig);
# For building runtime libs
depsBuildTarget =
if hostPlatform == buildPlatform then [
targetPackages.stdenv.cc.bintools # newly-built gcc will be used
] else assert targetPlatform == hostPlatform; [ # build != host == target
stdenv.cc
];
buildInputs = [
gmp mpfr libmpc libelf
targetPackages.stdenv.cc.bintools # For linking code at run-time
] ++ (optional (isl != null) isl)
++ (optional (zlib != null) zlib)
++ (optionals langJava [ boehmgc zip unzip ])
++ (optionals javaAwtGtk ([ gtk2 libart_lgpl ] ++ xlibs))
++ (optionals (targetPlatform != hostPlatform) [targetPackages.stdenv.cc.bintools])
++ (optionals langAda [gnatboot])
++ (optionals langVhdl [gnat])
# The builder relies on GNU sed (for instance, Darwin's `sed' fails with
# "-i may not be used with stdin"), and `stdenvNative' doesn't provide it.
++ (optional hostPlatform.isDarwin gnused)
++ (optional hostPlatform.isDarwin targetPackages.stdenv.cc.bintools)
;
NIX_LDFLAGS = stdenv.lib.optionalString hostPlatform.isSunOS "-lm -ldl";
preConfigure = stdenv.lib.optionalString (hostPlatform.isSunOS && hostPlatform.is64bit) ''
export NIX_LDFLAGS=`echo $NIX_LDFLAGS | sed -e s~$prefix/lib~$prefix/lib/amd64~g`
export LDFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $LDFLAGS_FOR_TARGET"
export CXXFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $CXXFLAGS_FOR_TARGET"
export CFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $CFLAGS_FOR_TARGET"
'';
dontDisableStatic = true;
# TODO(@Ericson2314): Always pass "--target" and always prefix.
configurePlatforms =
# TODO(@Ericson2314): Figure out what's going wrong with Arm
if buildPlatform == hostPlatform && hostPlatform == targetPlatform && targetPlatform.isAarch32
then []
else [ "build" "host" ] ++ stdenv.lib.optional (targetPlatform != hostPlatform) "target";
configureFlags =
# Basic dependencies
[
"--with-gmp-include=${gmp.dev}/include"
"--with-gmp-lib=${gmp.out}/lib"
"--with-mpfr-include=${mpfr.dev}/include"
"--with-mpfr-lib=${mpfr.out}/lib"
"--with-mpc=${libmpc}"
] ++
optional (libelf != null) "--with-libelf=${libelf}" ++
optional (!(crossMingw && crossStageStatic))
"--with-native-system-header-dir=${getDev stdenv.cc.libc}/include" ++
# Basic configuration
[
"--enable-lto"
"--disable-libstdcxx-pch"
"--without-included-gettext"
"--with-system-zlib"
"--enable-static"
"--enable-languages=${
concatStrings (intersperse ","
( optional langC "c"
++ optional langCC "c++"
++ optional langFortran "fortran"
++ optional langJava "java"
++ optional langAda "ada"
++ optional langVhdl "vhdl"
++ optional langGo "go"
++ optional langObjC "objc"
++ optional langObjCpp "obj-c++"
++ optionals crossDarwin [ "objc" "obj-c++" ]
)
)
}"
] ++
(if enableMultilib
then ["--enable-multilib" "--disable-libquadmath"]
else ["--disable-multilib"]) ++
optional (!enableShared) "--disable-shared" ++
(if enablePlugin
then ["--enable-plugin"]
else ["--disable-plugin"]) ++
# Optional features
optional (isl != null) "--with-isl=${isl}" ++
# Java options
optionals langJava [
"--with-ecj-jar=${javaEcj}"
# Follow Sun's layout for the convenience of IcedTea/OpenJDK. See
# <http://mail.openjdk.java.net/pipermail/distro-pkg-dev/2010-April/008888.html>.
"--enable-java-home"
"--with-java-home=\${prefix}/lib/jvm/jre"
] ++
optional javaAwtGtk "--enable-java-awt=gtk" ++
optional (langJava && javaAntlr != null) "--with-antlr-jar=${javaAntlr}" ++
# Ada
optional langAda "--enable-libada" ++
platformFlags ++
optional (targetPlatform != hostPlatform) crossConfigureFlags ++
optional (!bootstrap) "--disable-bootstrap" ++
# Platform-specific flags
optional (targetPlatform == hostPlatform && targetPlatform.isi686) "--with-arch=i686" ++
optionals hostPlatform.isSunOS [
"--enable-long-long" "--enable-libssp" "--enable-threads=posix" "--disable-nls" "--enable-__cxa_atexit"
# On Illumos/Solaris GNU as is preferred
"--with-gnu-as" "--without-gnu-ld"
]
++ optional (targetPlatform == hostPlatform && targetPlatform.libc == "musl") "--disable-libsanitizer"
;
targetConfig = if targetPlatform != hostPlatform then targetPlatform.config else null;
buildFlags = if bootstrap then
(if profiledCompiler then "profiledbootstrap" else "bootstrap")
else "";
installTargets =
if stripped
then "install-strip"
else "install";
/* For cross-built gcc (build != host == target) */
crossAttrs = {
dontStrip = true;
buildFlags = "";
};
# http://gcc.gnu.org/install/specific.html#x86-64-x-solaris210
${if hostPlatform.system == "x86_64-solaris" then "CC" else null} = "gcc -m64";
# Setting $CPATH and $LIBRARY_PATH to make sure both `gcc' and `xgcc' find the
# library headers and binaries, regarless of the language being compiled.
#
# Note: When building the Java AWT GTK+ peer, the build system doesn't honor
# `--with-gmp' et al., e.g., when building
# `libjava/classpath/native/jni/java-math/gnu_java_math_GMP.c', so we just add
# them to $CPATH and $LIBRARY_PATH in this case.
#
# Likewise, the LTO code doesn't find zlib.
#
# Cross-compiling, we need gcc not to read ./specs in order to build the g++
# compiler (after the specs for the cross-gcc are created). Having
# LIBRARY_PATH= makes gcc read the specs from ., and the build breaks.
CPATH = optionals (targetPlatform == hostPlatform) (makeSearchPathOutput "dev" "include" ([]
++ optional (zlib != null) zlib
++ optional langJava boehmgc
++ optionals javaAwtGtk xlibs
++ optionals javaAwtGtk [ gmp mpfr ]
++ optional (libpthread != null) libpthread
++ optional (libpthreadCross != null) libpthreadCross
# On GNU/Hurd glibc refers to Mach & Hurd
# headers.
++ optionals (libcCross != null && libcCross ? propagatedBuildInputs)
libcCross.propagatedBuildInputs
));
LIBRARY_PATH = optionals (targetPlatform == hostPlatform) (makeLibraryPath ([]
++ optional (zlib != null) zlib
++ optional langJava boehmgc
++ optionals javaAwtGtk xlibs
++ optionals javaAwtGtk [ gmp mpfr ]
++ optional (libpthread != null) libpthread)
);
EXTRA_TARGET_FLAGS = optionals
(targetPlatform != hostPlatform && libcCross != null)
([
"-idirafter ${getDev libcCross}/include"
] ++ optionals (! crossStageStatic) [
"-B${libcCross.out}/lib"
]);
EXTRA_TARGET_LDFLAGS = optionals
(targetPlatform != hostPlatform && libcCross != null)
([
"-Wl,-L${libcCross.out}/lib"
] ++ (if crossStageStatic then [
"-B${libcCross.out}/lib"
] else [
"-Wl,-rpath,${libcCross.out}/lib"
"-Wl,-rpath-link,${libcCross.out}/lib"
]) ++ optionals (libpthreadCross != null) [
"-L${libpthreadCross}/lib"
"-Wl,${libpthreadCross.TARGET_LDFLAGS}"
]);
passthru =
{ inherit langC langCC langObjC langObjCpp langAda langFortran langVhdl langGo version; isGNU = true; };
inherit enableParallelBuilding enableMultilib;
inherit (stdenv) is64bit;
meta = {
homepage = http://gcc.gnu.org/;
license = stdenv.lib.licenses.gpl3Plus; # runtime support libraries are typically LGPLv3+
description = "GNU Compiler Collection, version ${version}"
+ (if stripped then "" else " (with debugging info)");
longDescription = ''
The GNU Compiler Collection includes compiler front ends for C, C++,
Objective-C, Fortran, OpenMP for C/C++/Fortran, Java, and Ada, as well
as libraries for these languages (libstdc++, libgcj, libgomp,...).
GCC development is a part of the GNU Project, aiming to improve the
compiler used in the GNU system including the GNU/Linux variant.
'';
maintainers = with stdenv.lib.maintainers; [ viric peti ];
# gnatboot is not available out of linux platforms, so we disable the darwin build
# for the gnat (ada compiler).
platforms =
stdenv.lib.platforms.linux ++
stdenv.lib.platforms.freebsd ++
optionals (langAda == false) stdenv.lib.platforms.darwin;
};
}
// optionalAttrs (targetPlatform != hostPlatform && targetPlatform.libc == "msvcrt" && crossStageStatic) {
makeFlags = [ "all-gcc" "all-target-libgcc" ];
installTargets = "install-gcc install-target-libgcc";
}
# Strip kills static libs of other archs (hence targetPlatform != hostPlatform)
// optionalAttrs (!stripped || targetPlatform != hostPlatform) { dontStrip = true; }
// optionalAttrs (enableMultilib) { dontMoveLib64 = true; }
)