nixpkgs/pkgs/build-support/cc-wrapper/default.nix

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# The Nixpkgs CC is not directly usable, since it doesn't know where
# the C library and standard header files are. Therefore the compiler
# produced by that package cannot be installed directly in a user
# environment and used from the command line. So we use a wrapper
# script that sets up the right environment variables so that the
# compiler and the linker just "work".
{ name ? ""
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, lib
, stdenvNoCC
, cc ? null, libc ? null, bintools, coreutils ? null, shell ? stdenvNoCC.shell
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, zlib ? null
, nativeTools, noLibc ? false, nativeLibc, nativePrefix ? ""
, propagateDoc ? cc != null && cc ? man
, extraTools ? [], extraPackages ? [], extraBuildCommands ? ""
, nixSupport ? {}
, isGNU ? false, isClang ? cc.isClang or false, isCcache ? cc.isCcache or false, gnugrep ? null
, buildPackages ? {}
, libcxx ? null
stdenv: Nix-driven bootstrap of gcc #### Summary By default, when you type `make`, GCC will compile itself three times. This PR inhibits that behavior by configuring GCC with `--disable-bootstrap`, and reimplements the triple-rebuild using Nix rather than `make`/`sh`. #### Immediate Benefits - Allow `gcc11` and `gcc12` on `aarch64` (without needing new `bootstrapFiles`) - Faster stdenv rebuilds: the third compilation of gcc (i.e. stageCompare) is no longer a `drvInput` of the final stdenv. This allows Nix to build stageCompare in parallel with the rest of nixpkgs instead of in series. - No more copying `libgcc_s` out of the bootstrap-files or other derivations - No more Frankenstein compiler: the final gcc and the libraries it links against (mpfr, mpc, isl, glibc) are all built by the same compiler (xgcc) instead of a mixture of the bootstrapFiles' compiler and xgcc. - No more [static lib{mpfr,mpc,gmp,isl}.a hack] - Many other small `stdenv` hacks eliminated - `gcc` and `clang` share the same codepath for more of `cc-wrapper`. #### Future Benefits - This should allow using a [foreign] `bootstrap-files` so long as `hostPlatform.canExecute bootstrapFiles`. - This should allow each of the libraries that ship with `gcc` (lib{backtrace, atomic, cc1, decnumber, ffi, gomp, iberty, offloadatomic, quadmath, sanitizer, ssp, stdc++-v3, vtv}) to be built in separate (one-liner) derivations which `inherit src;` from `gcc`, much like https://github.com/NixOS/nixpkgs/pull/132343 #### Incorporates - https://github.com/NixOS/nixpkgs/pull/210004 - https://github.com/NixOS/nixpkgs/pull/36948 (unreverted) - https://github.com/NixOS/nixpkgs/pull/210325 - https://github.com/NixOS/nixpkgs/pull/210118 - https://github.com/NixOS/nixpkgs/pull/210132 - https://github.com/NixOS/nixpkgs/pull/210109 - https://github.com/NixOS/nixpkgs/pull/213909 - https://github.com/NixOS/nixpkgs/pull/216136 - https://github.com/NixOS/nixpkgs/pull/216237 - https://github.com/NixOS/nixpkgs/pull/210019 - https://github.com/NixOS/nixpkgs/pull/216232 - https://github.com/NixOS/nixpkgs/pull/216016 - https://github.com/NixOS/nixpkgs/pull/217977 - https://github.com/NixOS/nixpkgs/pull/217995 #### Closes - Closes #108305 - Closes #108111 - Closes #201254 - Closes #208412 #### Credits This project was made possible by three important insights, none of which were mine: 1. @ericson2314 was the first to advocate for this change, and probably the first to appreciate its advantages. Nix-driven (external) bootstrap is "cross by default". 2. @trofi has figured out a lot about how to get gcc to not mix up the copy of `libstdc++` that it depends on with the copy that it builds, by moving the `bootstrapFiles`' `libstdc++` into a [versioned directory]. This allows a Nix-driven bootstrap of gcc without the final gcc would still having references to the `bootstrapFiles`. 3. Using the undocumented variable [`user-defined-trusted-dirs`] when building glibc. When glibc `dlopen()`s `libgcc_s.so`, it uses a completely different and totally special set of rules for finding `libgcc_s.so`. This trick is the only way we can put `libgcc_s.so` in its own separate outpath without creating circular dependencies or dependencies on the bootstrapFiles. I would never have guessed to use this (or that it existed!) if it were not for a [comment in guix] which @Mic92 [mentioned]. My own role in this PR was basically: being available to go on a coding binge at an opportune moment, so we wouldn't waste a [crisis]. [aarch64-compare-ofborg]: https://github.com/NixOS/nixpkgs/pull/209870/checks?check_run_id=10662822938 [amd64-compare-ofborg]: https://github.com/NixOS/nixpkgs/pull/209870/checks?check_run_id=10662825857 [nonexistent sysroot]: https://github.com/NixOS/nixpkgs/pull/210004 [versioned directory]: https://github.com/NixOS/nixpkgs/pull/209054 [`user-defined-trusted-dirs`]: https://sourceware.org/legacy-ml/libc-help/2013-11/msg00026.html [comment in guix]: https://github.com/guix-mirror/guix/blob/5e4ec8218142eee8e6e148e787381a5ef891c5b1/gnu/packages/gcc.scm#L253 [mentioned]: https://github.com/NixOS/nixpkgs/pull/210112#issuecomment-1379608483 [crisis]: https://github.com/NixOS/nixpkgs/issues/108305 [foreign]: https://github.com/NixOS/nixpkgs/pull/170857#issuecomment-1170558348 [static lib{mpfr,mpc,gmp,isl}.a hack]: https://github.com/NixOS/nixpkgs/blob/2f1948af9c984ebb82dfd618e67dc949755823e2/pkgs/stdenv/linux/default.nix#L380
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# Whether or not to add `-B` and `-L` to `nix-support/cc-{c,ld}flags`
, useCcForLibs ?
# Always add these flags for Clang, because in order to compile (most
# software) it needs libraries that are shipped and compiled with gcc.
if isClang then true
# Never add these flags for a build!=host cross-compiler or a host!=target
# ("cross-built-native") compiler; currently nixpkgs has a special build
# path for these (`crossStageStatic`). Hopefully at some point that build
# path will be merged with this one and this conditional will be removed.
else if (with stdenvNoCC; buildPlatform != hostPlatform || hostPlatform != targetPlatform) then false
# Never add these flags when wrapping the bootstrapFiles' compiler; it has a
# /usr/-like layout with everything smashed into a single outpath, so it has
# no trouble finding its own libraries.
else if (cc.passthru.isFromBootstrapFiles or false) then false
# Add these flags when wrapping `xgcc` (the first compiler that nixpkgs builds)
else if (cc.passthru.isXgcc or false) then true
# Add these flags when wrapping `stdenv.cc`
else if (cc.stdenv.cc.cc.passthru.isXgcc or false) then true
# Do not add these flags in any other situation. This is `false` mainly to
# prevent these flags from being added when wrapping *old* versions of gcc
# (e.g. `gcc6Stdenv`), since they will cause the old gcc to get `-B` and
# `-L` flags pointing at the new gcc's libstdc++ headers. Example failure:
# https://hydra.nixos.org/build/213125495
else false
# the derivation at which the `-B` and `-L` flags added by `useCcForLibs` will point
, gccForLibs ? if useCcForLibs then cc else null
, fortify-headers ? null
, includeFortifyHeaders ? null
}:
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with lib;
assert nativeTools -> !propagateDoc && nativePrefix != "";
assert !nativeTools ->
cc != null && coreutils != null && gnugrep != null;
assert !(nativeLibc && noLibc);
assert (noLibc || nativeLibc) == (libc == null);
let
stdenv = stdenvNoCC;
inherit (stdenv) hostPlatform targetPlatform;
includeFortifyHeaders' = if includeFortifyHeaders != null
then includeFortifyHeaders
else (targetPlatform.libc == "musl" && isGNU);
# Prefix for binaries. Customarily ends with a dash separator.
#
# TODO(@Ericson2314) Make unconditional, or optional but always true by
# default.
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targetPrefix = lib.optionalString (targetPlatform != hostPlatform)
(targetPlatform.config + "-");
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ccVersion = lib.getVersion cc;
ccName = lib.removePrefix targetPrefix (lib.getName cc);
libc_bin = optionalString (libc != null) (getBin libc);
libc_dev = optionalString (libc != null) (getDev libc);
libc_lib = optionalString (libc != null) (getLib libc);
cc_solib = getLib cc
+ optionalString (targetPlatform != hostPlatform) "/${targetPlatform.config}";
# The wrapper scripts use 'cat' and 'grep', so we may need coreutils.
coreutils_bin = optionalString (!nativeTools) (getBin coreutils);
# The "suffix salt" is a arbitrary string added in the end of env vars
# defined by cc-wrapper's hooks so that multiple cc-wrappers can be used
# without interfering. For the moment, it is defined as the target triple,
# adjusted to be a valid bash identifier. This should be considered an
# unstable implementation detail, however.
suffixSalt = replaceStrings ["-" "."] ["_" "_"] targetPlatform.config;
expand-response-params =
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lib.optionalString ((buildPackages.stdenv.hasCC or false) && buildPackages.stdenv.cc != "/dev/null") (import ../expand-response-params { inherit (buildPackages) stdenv; });
useGccForLibs = useCcForLibs
&& libcxx == null
&& !stdenv.targetPlatform.isDarwin
&& !(stdenv.targetPlatform.useLLVM or false)
&& !(stdenv.targetPlatform.useAndroidPrebuilt or false)
&& !(stdenv.targetPlatform.isiOS or false)
&& gccForLibs != null;
gccForLibs_solib = getLib gccForLibs
+ optionalString (targetPlatform != hostPlatform) "/${targetPlatform.config}";
cc-wrapper: fix -mtune= validation, add ARM, add fallbacks Before this commit, cc-wrapper/default.nix was using `isGccArchSupported` to validate `-mtune=` values. This has two problems: - On x86, `-mtune=` can take the same values as `-march`, plus two additional values `generic` and `intel` which are not valid for `-march`. - On ARM, `-mtune=` does not take the same values as `-march=`; instead it takes the same values as `-mcpu`. This commit fixes these two problems by adding a new `isGccTuneSupported` function. For `isx86` this returns `true` for the two special values and otherwise defers to `isGccArchSupported`. This commit also adds support for `-mtune=` on Aarch64. Unfortunately on Aarch64, Clang does not accept as wide a variety of `-mtune=` values as Gcc does. In particular, Clang does not tune for big.LITTLE mixed-model chips like the very popular RK3399, which is targeted using `-march=cortex-a72.cortex-a53` in gcc. To address this problem, this commit also adds a function `findBestTuneApproximation` which can be used to map clang-unsupported tunings like `cortex-a72.cortex-a53` to less-precise tunings like `cortex-a53`. The work which led to this commit arose because we now have packages, like `crosvm`, which use *both* `clang` *and* `gcc`. Previously I had been using `overrideAttrs` to set `NIX_CFLAGS_COMPILE` on a package-by-package basis based on which compiler that package used. Since we now have packages which use *both* compilers, this strategy no longer works. I briefly considered splitting `NIX_CFLAGS_COMPILE` into `NIX_CFLAGS_COMPILE_GCC` and `NIX_CFLAGS_COMPILE_CLANG`, but since `NIX_CFLAGS_COMPILE` is sort of a hack to begin with I figured that adding the logic to `cc-wrapper` would be preferable.
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# The following two functions, `isGccArchSupported` and
# `isGccTuneSupported`, only handle those situations where a flag
# (`-march` or `-mtune`) is accepted by one compiler but rejected
# by another, and both compilers are relevant to nixpkgs. We are
# not trying to maintain a complete list of all flags accepted by
# all versions of all compilers ever in nixpkgs.
#
# The two main cases of interest are:
#
# - One compiler is gcc and the other is clang
# - One compiler is pkgs.gcc and the other is bootstrap-files.gcc
# -- older compilers (for example bootstrap's GCC 5) fail with
# -march=too-modern-cpu
isGccArchSupported = arch:
if targetPlatform.isPower then false else # powerpc does not allow -march=
if isGNU then
{ # Generic
x86-64-v2 = versionAtLeast ccVersion "11.0";
x86-64-v3 = versionAtLeast ccVersion "11.0";
x86-64-v4 = versionAtLeast ccVersion "11.0";
# Intel
skylake = versionAtLeast ccVersion "6.0";
skylake-avx512 = versionAtLeast ccVersion "6.0";
cannonlake = versionAtLeast ccVersion "8.0";
icelake-client = versionAtLeast ccVersion "8.0";
icelake-server = versionAtLeast ccVersion "8.0";
cascadelake = versionAtLeast ccVersion "9.0";
cooperlake = versionAtLeast ccVersion "10.0";
tigerlake = versionAtLeast ccVersion "10.0";
knm = versionAtLeast ccVersion "8.0";
alderlake = versionAtLeast ccVersion "12.0";
# AMD
znver1 = versionAtLeast ccVersion "6.0";
znver2 = versionAtLeast ccVersion "9.0";
znver3 = versionAtLeast ccVersion "11.0";
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znver4 = versionAtLeast ccVersion "13.0";
}.${arch} or true
else if isClang then
{ #Generic
x86-64-v2 = versionAtLeast ccVersion "12.0";
x86-64-v3 = versionAtLeast ccVersion "12.0";
x86-64-v4 = versionAtLeast ccVersion "12.0";
# Intel
cannonlake = versionAtLeast ccVersion "5.0";
icelake-client = versionAtLeast ccVersion "7.0";
icelake-server = versionAtLeast ccVersion "7.0";
knm = versionAtLeast ccVersion "7.0";
alderlake = versionAtLeast ccVersion "16.0";
# AMD
znver1 = versionAtLeast ccVersion "4.0";
znver2 = versionAtLeast ccVersion "9.0";
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znver3 = versionAtLeast ccVersion "12.0";
znver4 = versionAtLeast ccVersion "16.0";
}.${arch} or true
else
false;
cc-wrapper: fix -mtune= validation, add ARM, add fallbacks Before this commit, cc-wrapper/default.nix was using `isGccArchSupported` to validate `-mtune=` values. This has two problems: - On x86, `-mtune=` can take the same values as `-march`, plus two additional values `generic` and `intel` which are not valid for `-march`. - On ARM, `-mtune=` does not take the same values as `-march=`; instead it takes the same values as `-mcpu`. This commit fixes these two problems by adding a new `isGccTuneSupported` function. For `isx86` this returns `true` for the two special values and otherwise defers to `isGccArchSupported`. This commit also adds support for `-mtune=` on Aarch64. Unfortunately on Aarch64, Clang does not accept as wide a variety of `-mtune=` values as Gcc does. In particular, Clang does not tune for big.LITTLE mixed-model chips like the very popular RK3399, which is targeted using `-march=cortex-a72.cortex-a53` in gcc. To address this problem, this commit also adds a function `findBestTuneApproximation` which can be used to map clang-unsupported tunings like `cortex-a72.cortex-a53` to less-precise tunings like `cortex-a53`. The work which led to this commit arose because we now have packages, like `crosvm`, which use *both* `clang` *and* `gcc`. Previously I had been using `overrideAttrs` to set `NIX_CFLAGS_COMPILE` on a package-by-package basis based on which compiler that package used. Since we now have packages which use *both* compilers, this strategy no longer works. I briefly considered splitting `NIX_CFLAGS_COMPILE` into `NIX_CFLAGS_COMPILE_GCC` and `NIX_CFLAGS_COMPILE_CLANG`, but since `NIX_CFLAGS_COMPILE` is sort of a hack to begin with I figured that adding the logic to `cc-wrapper` would be preferable.
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isGccTuneSupported = tune:
# for x86 -mtune= takes the same values as -march, plus two more:
if targetPlatform.isx86 then
{
generic = true;
intel = true;
}.${tune} or (isGccArchSupported tune)
# on arm64, the -mtune= values are specific processors
else if targetPlatform.isAarch64 then
(if isGNU then
{
cortex-a53 = versionAtLeast ccVersion "4.8"; # gcc 8c075f
cortex-a72 = versionAtLeast ccVersion "5.1"; # gcc d8f70d
"cortex-a72.cortex-a53" = versionAtLeast ccVersion "5.1"; # gcc d8f70d
}.${tune} or false
else if isClang then
{
cortex-a53 = versionAtLeast ccVersion "3.9"; # llvm dfc5d1
}.${tune} or false
else false)
else if targetPlatform.isPower then
# powerpc does not support -march
true
else if targetPlatform.isMips then
# for mips -mtune= takes the same values as -march
isGccArchSupported tune
else
false;
# Clang does not support as many `-mtune=` values as gcc does;
# this function will return the best possible approximation of the
# provided `-mtune=` value, or `null` if none exists.
#
# Note: this function can make use of ccVersion; for example, `if
# versionOlder ccVersion "12" then ...`
findBestTuneApproximation = tune:
let guess = if isClang
then {
# clang does not tune for big.LITTLE chips
"cortex-a72.cortex-a53" = "cortex-a72";
}.${tune} or tune
else tune;
in if isGccTuneSupported guess
then guess
else null;
darwinPlatformForCC = optionalString stdenv.targetPlatform.isDarwin (
if (targetPlatform.darwinPlatform == "macos" && isGNU) then "macosx"
else targetPlatform.darwinPlatform
);
darwinMinVersion = optionalString stdenv.targetPlatform.isDarwin (
stdenv.targetPlatform.darwinMinVersion
);
darwinMinVersionVariable = optionalString stdenv.targetPlatform.isDarwin
stdenv.targetPlatform.darwinMinVersionVariable;
in
assert includeFortifyHeaders' -> fortify-headers != null;
# Ensure bintools matches
assert libc_bin == bintools.libc_bin;
assert libc_dev == bintools.libc_dev;
assert libc_lib == bintools.libc_lib;
assert nativeTools == bintools.nativeTools;
assert nativeLibc == bintools.nativeLibc;
assert nativePrefix == bintools.nativePrefix;
stdenv.mkDerivation {
pname = targetPrefix
+ (if name != "" then name else "${ccName}-wrapper");
version = optionalString (cc != null) ccVersion;
preferLocalBuild = true;
outputs = [ "out" ] ++ optionals propagateDoc [ "man" "info" ];
passthru = {
inherit targetPrefix suffixSalt;
# "cc" is the generic name for a C compiler, but there is no one for package
# providing the linker and related tools. The two we use now are GNU
# Binutils, and Apple's "cctools"; "bintools" as an attempt to find an
# unused middle-ground name that evokes both.
inherit bintools;
inherit cc libc libcxx nativeTools nativeLibc nativePrefix isGNU isClang;
emacsBufferSetup = pkgs: ''
; We should handle propagation here too
(mapc
(lambda (arg)
(when (file-directory-p (concat arg "/include"))
(setenv "NIX_CFLAGS_COMPILE_${suffixSalt}" (concat (getenv "NIX_CFLAGS_COMPILE_${suffixSalt}") " -isystem " arg "/include"))))
'(${concatStringsSep " " (map (pkg: "\"${pkg}\"") pkgs)}))
'';
inherit expand-response-params;
inherit nixSupport;
};
dontBuild = true;
dontConfigure = true;
enableParallelBuilding = true;
unpackPhase = ''
src=$PWD
'';
wrapper = ./cc-wrapper.sh;
installPhase =
''
mkdir -p $out/bin $out/nix-support
wrap() {
local dst="$1"
local wrapper="$2"
export prog="$3"
export use_response_file_by_default=${if isClang && !isCcache then "1" else "0"}
substituteAll "$wrapper" "$out/bin/$dst"
chmod +x "$out/bin/$dst"
}
''
+ (if nativeTools then ''
echo ${if targetPlatform.isDarwin then cc else nativePrefix} > $out/nix-support/orig-cc
ccPath="${if targetPlatform.isDarwin then cc else nativePrefix}/bin"
'' else ''
echo $cc > $out/nix-support/orig-cc
ccPath="${cc}/bin"
'')
# Create symlinks to everything in the bintools wrapper.
+ ''
for bbin in $bintools/bin/*; do
mkdir -p "$out/bin"
ln -s "$bbin" "$out/bin/$(basename $bbin)"
done
''
# We export environment variables pointing to the wrapped nonstandard
# cmds, lest some lousy configure script use those to guess compiler
# version.
+ ''
export named_cc=${targetPrefix}cc
export named_cxx=${targetPrefix}c++
if [ -e $ccPath/${targetPrefix}gcc ]; then
wrap ${targetPrefix}gcc $wrapper $ccPath/${targetPrefix}gcc
ln -s ${targetPrefix}gcc $out/bin/${targetPrefix}cc
export named_cc=${targetPrefix}gcc
export named_cxx=${targetPrefix}g++
elif [ -e $ccPath/clang ]; then
wrap ${targetPrefix}clang $wrapper $ccPath/clang
ln -s ${targetPrefix}clang $out/bin/${targetPrefix}cc
export named_cc=${targetPrefix}clang
export named_cxx=${targetPrefix}clang++
fi
if [ -e $ccPath/${targetPrefix}g++ ]; then
wrap ${targetPrefix}g++ $wrapper $ccPath/${targetPrefix}g++
ln -s ${targetPrefix}g++ $out/bin/${targetPrefix}c++
elif [ -e $ccPath/clang++ ]; then
wrap ${targetPrefix}clang++ $wrapper $ccPath/clang++
ln -s ${targetPrefix}clang++ $out/bin/${targetPrefix}c++
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fi
if [ -e $ccPath/${targetPrefix}cpp ]; then
wrap ${targetPrefix}cpp $wrapper $ccPath/${targetPrefix}cpp
elif [ -e $ccPath/cpp ]; then
wrap ${targetPrefix}cpp $wrapper $ccPath/cpp
fi
''
# No need to wrap gnat, gnatkr, gnatname or gnatprep; we can just symlink them in
2019-05-11 21:16:17 +00:00
+ optionalString cc.langAda or false ''
for cmd in gnatbind gnatchop gnatclean gnatlink gnatls gnatmake; do
wrap ${targetPrefix}$cmd ${./gnat-wrapper.sh} $ccPath/${targetPrefix}$cmd
done
for cmd in gnat gnatkr gnatname gnatprep; do
ln -s $ccPath/${targetPrefix}$cmd $out/bin/${targetPrefix}$cmd
done
gprbuild, xmlada: init at 21.0.0 GPRbuild is a multi language build system developed by AdaCore which is mostly used for build Ada-related projects using GNAT. Since GPRbuild is used to build itself and its dependency library XML/Ada we first build a bootstrap version of it using the provided bash build script bootstrap.sh as the gprbuild-boot derivation. gprbuild-boot is then used to build xmlada and the proper gprbuild derivation. GPRbuild has its own search path mechanism via GPR_PROJECT_PATH which we address via a setupHook. It currently works quite similar to the pkg-config one: It accumulates all inputs into GPR_PROJECT_PATH, GPR_PROJECT_PATH_FOR_BUILD etc. However this is quite limited at the moment as we don't have a gprbuild wrapper yet which understands the _FOR_BUILD suffix. However, we'll need to address this in the future as it is currently basically impossible to test since the distinction only affects cross-compilation, but it is not possible to build a GNAT cross-compiler in nixpkgs at the moment (I'm working on changing that, however). Another issue we had to solve was GPRbuild not finding the right GNAT via its gprconfig tool: GPRbuild has a knowledge base with compiler definitions which run some checks and collect info about binaries which are in PATH. In the end the first compiler in PATH that supports the desired language is selected. We want GPRbuild to discover our wrapped GNAT since the unwrapped one is incapable of producing working binaries since it won't find the crt*.o objects distributed with libc. GPRbuild however needs to find the Ada runtime distributed with GNAT which is not part of the wrapper derivation, so it will skip the wrapper and select the unwrapped GNAT. Symlinking the unwrapped's lib directory into the wrapper fixes this problem, but breaks linking in some cases (e. g. when linking against OMP from gcc, the runtime variant will shadow the problem dynamic lib from buildInputs). Additionally it uses gnatls as an indicator it has found GNAT which is not part of the wrapper. The solution we opted to adopt here is to install a custom compiler description into gprbuild's knowledge base which properly detects the nixpkgs GNAT wrapper: It uses gnatmake to detect GNAT instead of gnatls and discovers the runtime via a symlink we add to `$out/nix-support`. This additional definition is enough to properly detect GNAT, since the plain wrapped gcc detection works out of the box. It may, however, be necessary to add special definitions for other languages in the future where gprbuild also needs to discover the runtime. One future improvement would be to install libgpr into a separate output or split it into a separate derivation (which would require to link gprbuild statically always since otherwise we end up with a cyclical dependency).
2021-07-22 11:52:40 +00:00
# this symlink points to the unwrapped gnat's output "out". It is used by
# our custom gprconfig compiler description to find GNAT's ada runtime. See
# ../../development/tools/build-managers/gprbuild/{boot.nix, nixpkgs-gnat.xml}
ln -sf ${cc} $out/nix-support/gprconfig-gnat-unwrapped
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''
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+ optionalString cc.langD or false ''
wrap ${targetPrefix}gdc $wrapper $ccPath/${targetPrefix}gdc
''
+ optionalString cc.langFortran or false ''
wrap ${targetPrefix}gfortran $wrapper $ccPath/${targetPrefix}gfortran
ln -sv ${targetPrefix}gfortran $out/bin/${targetPrefix}g77
ln -sv ${targetPrefix}gfortran $out/bin/${targetPrefix}f77
export named_fc=${targetPrefix}gfortran
''
+ optionalString cc.langJava or false ''
wrap ${targetPrefix}gcj $wrapper $ccPath/${targetPrefix}gcj
''
+ optionalString cc.langGo or false ''
wrap ${targetPrefix}gccgo $wrapper $ccPath/${targetPrefix}gccgo
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wrap ${targetPrefix}go ${./go-wrapper.sh} $ccPath/${targetPrefix}go
'';
strictDeps = true;
propagatedBuildInputs = [ bintools ] ++ extraTools ++ optionals cc.langD or cc.langJava or false [ zlib ];
depsTargetTargetPropagated = optional (libcxx != null) libcxx ++ extraPackages;
setupHooks = [
../setup-hooks/role.bash
] ++ lib.optional (cc.langC or true) ./setup-hook.sh
++ lib.optional (cc.langFortran or false) ./fortran-hook.sh
++ lib.optional (targetPlatform.isWindows) (stdenv.mkDerivation {
name = "win-dll-hook.sh";
dontUnpack = true;
installPhase = ''
echo addToSearchPath "LINK_DLL_FOLDERS" "${cc_solib}/lib" > $out
echo addToSearchPath "LINK_DLL_FOLDERS" "${cc_solib}/lib64" >> $out
echo addToSearchPath "LINK_DLL_FOLDERS" "${cc_solib}/lib32" >> $out
'';
});
postFixup =
# Ensure flags files exists, as some other programs cat them. (That these
# are considered an exposed interface is a bit dubious, but fine for now.)
''
touch "$out/nix-support/cc-cflags"
touch "$out/nix-support/cc-ldflags"
''
2023-05-20 02:11:55 +00:00
# Backwards compatibility for packages expecting this file, e.g. with
# `$NIX_CC/nix-support/dynamic-linker`.
#
# TODO(@Ericson2314): Remove this after stable release and force
# everyone to refer to bintools-wrapper directly.
+ ''
if [[ -f "$bintools/nix-support/dynamic-linker" ]]; then
ln -s "$bintools/nix-support/dynamic-linker" "$out/nix-support"
fi
if [[ -f "$bintools/nix-support/dynamic-linker-m32" ]]; then
ln -s "$bintools/nix-support/dynamic-linker-m32" "$out/nix-support"
fi
''
##
## GCC libs for non-GCC support
##
+ optionalString (useGccForLibs && isClang) ''
echo "-B${gccForLibs}/lib/gcc/${targetPlatform.config}/${gccForLibs.version}" >> $out/nix-support/cc-cflags
''
+ optionalString useGccForLibs ''
echo "-L${gccForLibs}/lib/gcc/${targetPlatform.config}/${gccForLibs.version}" >> $out/nix-support/cc-ldflags
echo "-L${gccForLibs_solib}/lib" >> $out/nix-support/cc-ldflags
''
# TODO We would like to connect this to `useGccForLibs`, but we cannot yet
# because `libcxxStdenv` on linux still needs this. Maybe someday we'll
# always set `useLLVM` on Darwin, and maybe also break down `useLLVM` into
# fine-grained use flags (libgcc vs compiler-rt, ld.lld vs legacy, libc++
# vs libstdc++, etc.) since Darwin isn't `useLLVM` on all counts. (See
# https://clang.llvm.org/docs/Toolchain.html for all the axes one might
# break `useLLVM` into.)
+ optionalString (isClang
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&& targetPlatform.isLinux
&& !(stdenv.targetPlatform.useAndroidPrebuilt or false)
&& !(stdenv.targetPlatform.useLLVM or false)
&& gccForLibs != null) (''
echo "--gcc-toolchain=${gccForLibs}" >> $out/nix-support/cc-cflags
# Pull in 'cc.out' target to get 'libstdc++fs.a'. It should be in
# 'cc.lib'. But it's a gcc package bug.
# TODO(trofi): remove once gcc is fixed to move libraries to .lib output.
echo "-L${gccForLibs}/${optionalString (targetPlatform != hostPlatform) "/${targetPlatform.config}"}/lib" >> $out/nix-support/cc-ldflags
''
# this ensures that when clang passes -lgcc_s to lld (as it does
# when building e.g. firefox), lld is able to find libgcc_s.so
+ concatMapStrings (libgcc: ''
echo "-L${libgcc}/lib" >> $out/nix-support/cc-ldflags
'') (lib.toList (gccForLibs.libgcc or [])))
##
## General libc support
##
# The "-B${libc_lib}/lib/" flag is a quick hack to force gcc to link
# against the crt1.o from our own glibc, rather than the one in
# /usr/lib. (This is only an issue when using an `impure'
# compiler/linker, i.e., one that searches /usr/lib and so on.)
#
# Unfortunately, setting -B appears to override the default search
# path. Thus, the gcc-specific "../includes-fixed" directory is
# now longer searched and glibc's <limits.h> header fails to
# compile, because it uses "#include_next <limits.h>" to find the
# limits.h file in ../includes-fixed. To remedy the problem,
# another -idirafter is necessary to add that directory again.
+ optionalString (libc != null) (''
touch "$out/nix-support/libc-cflags"
touch "$out/nix-support/libc-ldflags"
echo "-B${libc_lib}${libc.libdir or "/lib/"}" >> $out/nix-support/libc-crt1-cflags
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'' + optionalString (!(cc.langD or false)) ''
echo "-idirafter ${libc_dev}${libc.incdir or "/include"}" >> $out/nix-support/libc-cflags
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'' + optionalString (isGNU && (!(cc.langD or false))) ''
for dir in "${cc}"/lib/gcc/*/*/include-fixed; do
echo '-idirafter' ''${dir} >> $out/nix-support/libc-cflags
done
'' + ''
echo "${libc_lib}" > $out/nix-support/orig-libc
echo "${libc_dev}" > $out/nix-support/orig-libc-dev
''
# fortify-headers is a set of wrapper headers that augment libc
# and use #include_next to pass through to libc's true
# implementations, so must appear before them in search order.
# in theory a correctly placed -idirafter could be used, but in
# practice the compiler may have been built with a --with-headers
# like option that forces the libc headers before all -idirafter,
# hence -isystem here.
+ optionalString includeFortifyHeaders' ''
echo "-isystem ${fortify-headers}/include" >> $out/nix-support/libc-cflags
'')
##
## General libc++ support
##
# We have a libc++ directly, we have one via "smuggled" GCC, or we have one
# bundled with the C compiler because it is GCC
+ optionalString (libcxx != null || (useGccForLibs && gccForLibs.langCC or false) || (isGNU && cc.langCC or false)) ''
touch "$out/nix-support/libcxx-cxxflags"
touch "$out/nix-support/libcxx-ldflags"
''
# Adding -isystem flags should be done only for clang; gcc
# already knows how to find its own libstdc++, and adding
# additional -isystem flags will confuse gfortran (see
# https://github.com/NixOS/nixpkgs/pull/209870#issuecomment-1500550903)
+ optionalString (libcxx == null && isClang && (useGccForLibs && gccForLibs.langCC or false)) ''
for dir in ${gccForLibs}${lib.optionalString (hostPlatform != targetPlatform) "/${targetPlatform.config}"}/include/c++/*; do
echo "-isystem $dir" >> $out/nix-support/libcxx-cxxflags
done
for dir in ${gccForLibs}${lib.optionalString (hostPlatform != targetPlatform) "/${targetPlatform.config}"}/include/c++/*/${targetPlatform.config}; do
echo "-isystem $dir" >> $out/nix-support/libcxx-cxxflags
done
''
+ optionalString (libcxx.isLLVM or false) ''
echo "-isystem ${lib.getDev libcxx}/include/c++/v1" >> $out/nix-support/libcxx-cxxflags
echo "-isystem ${lib.getDev libcxx.cxxabi}/include/c++/v1" >> $out/nix-support/libcxx-cxxflags
echo "-stdlib=libc++" >> $out/nix-support/libcxx-ldflags
echo "-l${libcxx.cxxabi.libName}" >> $out/nix-support/libcxx-ldflags
''
##
## Initial CFLAGS
##
# GCC shows ${cc_solib}/lib in `gcc -print-search-dirs', but not
# ${cc_solib}/lib64 (even though it does actually search there...)..
# This confuses libtool. So add it to the compiler tool search
# path explicitly.
+ optionalString (!nativeTools) ''
if [ -e "${cc_solib}/lib64" -a ! -L "${cc_solib}/lib64" ]; then
ccLDFlags+=" -L${cc_solib}/lib64"
ccCFlags+=" -B${cc_solib}/lib64"
fi
ccLDFlags+=" -L${cc_solib}/lib"
ccCFlags+=" -B${cc_solib}/lib"
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'' + optionalString cc.langAda or false ''
touch "$out/nix-support/gnat-cflags"
touch "$out/nix-support/gnat-ldflags"
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basePath=$(echo $cc/lib/*/*/*)
ccCFlags+=" -B$basePath -I$basePath/adainclude"
gnatCFlags="-I$basePath/adainclude -I$basePath/adalib"
echo "$gnatCFlags" >> $out/nix-support/gnat-cflags
2019-05-11 21:16:17 +00:00
'' + ''
echo "$ccLDFlags" >> $out/nix-support/cc-ldflags
echo "$ccCFlags" >> $out/nix-support/cc-cflags
'' + optionalString (targetPlatform.isDarwin && (libcxx != null) && (cc.isClang or false)) ''
echo " -L${lib.getLib libcxx}/lib" >> $out/nix-support/cc-ldflags
''
##
## Man page and info support
##
+ optionalString propagateDoc ''
ln -s ${cc.man} $man
ln -s ${cc.info} $info
'' + optionalString (cc.langD or cc.langJava or false) ''
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echo "-B${zlib}${zlib.libdir or "/lib/"}" >> $out/nix-support/libc-cflags
''
##
## Hardening support
##
+ ''
export hardening_unsupported_flags="${builtins.concatStringsSep " " (cc.hardeningUnsupportedFlags or [])}"
''
# Machine flags. These are necessary to support
# TODO: We should make a way to support miscellaneous machine
# flags and other gcc flags as well.
# Always add -march based on cpu in triple. Sometimes there is a
# discrepency (x86_64 vs. x86-64), so we provide an "arch" arg in
# that case.
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# TODO: aarch64-darwin has mcpu incompatible with gcc
+ optionalString ((targetPlatform ? gcc.arch) && (isClang || !(stdenv.isDarwin && stdenv.isAarch64)) &&
isGccArchSupported targetPlatform.gcc.arch) ''
echo "-march=${targetPlatform.gcc.arch}" >> $out/nix-support/cc-cflags-before
''
# -mcpu is not very useful, except on PowerPC where it is used
# instead of march. On all other platforms you should use mtune
# and march instead.
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# TODO: aarch64-darwin has mcpu incompatible with gcc
+ optionalString ((targetPlatform ? gcc.cpu) && (isClang || !(stdenv.isDarwin && stdenv.isAarch64))) ''
echo "-mcpu=${targetPlatform.gcc.cpu}" >> $out/nix-support/cc-cflags-before
''
# -mfloat-abi only matters on arm32 but we set it here
# unconditionally just in case. If the abi specifically sets hard
# vs. soft floats we use it here.
+ optionalString (targetPlatform ? gcc.float-abi) ''
echo "-mfloat-abi=${targetPlatform.gcc.float-abi}" >> $out/nix-support/cc-cflags-before
''
+ optionalString (targetPlatform ? gcc.fpu) ''
echo "-mfpu=${targetPlatform.gcc.fpu}" >> $out/nix-support/cc-cflags-before
''
+ optionalString (targetPlatform ? gcc.mode) ''
echo "-mmode=${targetPlatform.gcc.mode}" >> $out/nix-support/cc-cflags-before
''
+ optionalString (targetPlatform ? gcc.thumb) ''
echo "-m${if targetPlatform.gcc.thumb then "thumb" else "arm"}" >> $out/nix-support/cc-cflags-before
''
cc-wrapper: fix -mtune= validation, add ARM, add fallbacks Before this commit, cc-wrapper/default.nix was using `isGccArchSupported` to validate `-mtune=` values. This has two problems: - On x86, `-mtune=` can take the same values as `-march`, plus two additional values `generic` and `intel` which are not valid for `-march`. - On ARM, `-mtune=` does not take the same values as `-march=`; instead it takes the same values as `-mcpu`. This commit fixes these two problems by adding a new `isGccTuneSupported` function. For `isx86` this returns `true` for the two special values and otherwise defers to `isGccArchSupported`. This commit also adds support for `-mtune=` on Aarch64. Unfortunately on Aarch64, Clang does not accept as wide a variety of `-mtune=` values as Gcc does. In particular, Clang does not tune for big.LITTLE mixed-model chips like the very popular RK3399, which is targeted using `-march=cortex-a72.cortex-a53` in gcc. To address this problem, this commit also adds a function `findBestTuneApproximation` which can be used to map clang-unsupported tunings like `cortex-a72.cortex-a53` to less-precise tunings like `cortex-a53`. The work which led to this commit arose because we now have packages, like `crosvm`, which use *both* `clang` *and* `gcc`. Previously I had been using `overrideAttrs` to set `NIX_CFLAGS_COMPILE` on a package-by-package basis based on which compiler that package used. Since we now have packages which use *both* compilers, this strategy no longer works. I briefly considered splitting `NIX_CFLAGS_COMPILE` into `NIX_CFLAGS_COMPILE_GCC` and `NIX_CFLAGS_COMPILE_CLANG`, but since `NIX_CFLAGS_COMPILE` is sort of a hack to begin with I figured that adding the logic to `cc-wrapper` would be preferable.
2022-12-08 02:56:32 +00:00
+ (let tune = if targetPlatform ? gcc.tune
then findBestTuneApproximation targetPlatform.gcc.tune
else null;
in optionalString (tune != null) ''
echo "-mtune=${tune}" >> $out/nix-support/cc-cflags-before
'')
2018-07-28 16:29:02 +00:00
# TODO: categorize these and figure out a better place for them
+ optionalString targetPlatform.isWindows ''
hardening_unsupported_flags+=" pic"
'' + optionalString targetPlatform.isMinGW ''
hardening_unsupported_flags+=" stackprotector fortify"
'' + optionalString targetPlatform.isAvr ''
hardening_unsupported_flags+=" stackprotector pic"
'' + optionalString (targetPlatform.libc == "newlib" || targetPlatform.libc == "newlib-nano") ''
hardening_unsupported_flags+=" stackprotector fortify pie pic"
'' + optionalString (targetPlatform.libc == "musl" && targetPlatform.isx86_32) ''
hardening_unsupported_flags+=" stackprotector"
'' + optionalString targetPlatform.isNetBSD ''
hardening_unsupported_flags+=" stackprotector fortify"
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'' + optionalString cc.langAda or false ''
hardening_unsupported_flags+=" format stackprotector strictoverflow"
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'' + optionalString cc.langD or false ''
hardening_unsupported_flags+=" format"
'' + optionalString cc.langFortran or false ''
hardening_unsupported_flags+=" format"
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'' + optionalString targetPlatform.isWasm ''
hardening_unsupported_flags+=" stackprotector fortify pie pic"
'' + optionalString targetPlatform.isMicroBlaze ''
hardening_unsupported_flags+=" stackprotector"
''
+ optionalString stdenv.targetPlatform.isDarwin ''
echo "-arch ${targetPlatform.darwinArch}" >> $out/nix-support/cc-cflags
''
+ optionalString targetPlatform.isAndroid ''
echo "-D__ANDROID_API__=${targetPlatform.sdkVer}" >> $out/nix-support/cc-cflags
''
# There are a few tools (to name one libstdcxx5) which do not work
# well with multi line flags, so make the flags single line again
+ ''
for flags in "$out/nix-support"/*flags*; do
substituteInPlace "$flags" --replace $'\n' ' '
done
substituteAll ${./add-flags.sh} $out/nix-support/add-flags.sh
substituteAll ${./add-hardening.sh} $out/nix-support/add-hardening.sh
substituteAll ${../wrapper-common/utils.bash} $out/nix-support/utils.bash
''
+ optionalString cc.langAda or false ''
substituteAll ${./add-gnat-extra-flags.sh} $out/nix-support/add-gnat-extra-flags.sh
''
##
## General Clang support
## Needs to go after ^ because the for loop eats \n and makes this file an invalid script
##
+ optionalString isClang ''
export defaultTarget=${targetPlatform.config}
substituteAll ${./add-clang-cc-cflags-before.sh} $out/nix-support/add-local-cc-cflags-before.sh
''
##
## Extra custom steps
##
+ extraBuildCommands
+ lib.strings.concatStringsSep "; "
(lib.attrsets.mapAttrsToList
(name: value: "echo ${toString value} >> $out/nix-support/${name}")
nixSupport);
env = {
inherit isClang;
# for substitution in utils.bash
expandResponseParams = "${expand-response-params}/bin/expand-response-params";
shell = getBin shell + shell.shellPath or "";
gnugrep_bin = optionalString (!nativeTools) gnugrep;
# stdenv.cc.cc should not be null and we have nothing better for now.
# if the native impure bootstrap is gotten rid of this can become `inherit cc;` again.
cc = optionalString (!nativeTools) cc;
wrapperName = "CC_WRAPPER";
inherit suffixSalt coreutils_bin bintools;
inherit libc_bin libc_dev libc_lib;
inherit darwinPlatformForCC darwinMinVersion darwinMinVersionVariable;
};
meta =
let cc_ = lib.optionalAttrs (cc != null) cc; in
(lib.optionalAttrs (cc_ ? meta) (removeAttrs cc.meta ["priority"])) //
{ description =
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lib.attrByPath ["meta" "description"] "System C compiler" cc_
+ " (wrapper script)";
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priority = 10;
mainProgram = if name != "" then name else ccName;
};
}