365 lines
13 KiB
Nix
365 lines
13 KiB
Nix
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{ lowPrio, newScope, pkgs, lib, stdenv, cmake, ninja
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, preLibcCrossHeaders
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, libxml2, python3, fetchFromGitHub, overrideCC, wrapCCWith, wrapBintoolsWith
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, buildLlvmTools # tools, but from the previous stage, for cross
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, targetLlvmLibraries # libraries, but from the next stage, for cross
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, targetLlvm
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# This is the default binutils, but with *this* version of LLD rather
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# than the default LLVM verion's, if LLD is the choice. We use these for
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# the `useLLVM` bootstrapping below.
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, bootBintoolsNoLibc ?
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if stdenv.targetPlatform.linker == "lld"
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then null
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else pkgs.bintoolsNoLibc
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, bootBintools ?
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if stdenv.targetPlatform.linker == "lld"
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then null
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else pkgs.bintools
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, darwin
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# LLVM release information; specify one of these but not both:
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, gitRelease ? null
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# i.e.:
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# {
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# version = /* i.e. "15.0.0" */;
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# rev = /* commit SHA */;
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# rev-version = /* human readable version; i.e. "unstable-2022-26-07" */;
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# sha256 = /* checksum for this release, can omit if specifying your own `monorepoSrc` */;
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# }
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, officialRelease ? { version = "17.0.6"; sha256 = "sha256-8MEDLLhocshmxoEBRSKlJ/GzJ8nfuzQ8qn0X/vLA+ag="; }
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# i.e.:
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# {
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# version = /* i.e. "15.0.0" */;
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# candidate = /* optional; if specified, should be: "rcN" */
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# sha256 = /* checksum for this release, can omit if specifying your own `monorepoSrc` */;
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# }
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# By default, we'll try to fetch a release from `github:llvm/llvm-project`
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# corresponding to the `gitRelease` or `officialRelease` specified.
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#
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# You can provide your own LLVM source by specifying this arg but then it's up
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# to you to make sure that the LLVM repo given matches the release configuration
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# specified.
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, monorepoSrc ? null
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}:
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assert let
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int = a: if a then 1 else 0;
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xor = a: b: ((builtins.bitXor (int a) (int b)) == 1);
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in
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lib.assertMsg
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(xor
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(gitRelease != null)
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(officialRelease != null))
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("must specify `gitRelease` or `officialRelease`" +
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(lib.optionalString (gitRelease != null) " — not both"));
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let
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monorepoSrc' = monorepoSrc;
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in let
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inherit (import ../common/common-let.nix { inherit lib gitRelease officialRelease; }) releaseInfo;
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inherit (releaseInfo) release_version version;
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inherit (import ../common/common-let.nix { inherit lib fetchFromGitHub release_version gitRelease officialRelease monorepoSrc'; }) llvm_meta monorepoSrc;
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tools = lib.makeExtensible (tools: let
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callPackage = newScope (tools // { inherit stdenv cmake ninja libxml2 python3 release_version version monorepoSrc buildLlvmTools; });
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major = lib.versions.major release_version;
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mkExtraBuildCommands0 = cc: ''
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rsrc="$out/resource-root"
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mkdir "$rsrc"
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ln -s "${cc.lib}/lib/clang/${major}/include" "$rsrc"
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echo "-resource-dir=$rsrc" >> $out/nix-support/cc-cflags
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'';
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mkExtraBuildCommands = cc: mkExtraBuildCommands0 cc + ''
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ln -s "${targetLlvmLibraries.compiler-rt.out}/lib" "$rsrc/lib"
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ln -s "${targetLlvmLibraries.compiler-rt.out}/share" "$rsrc/share"
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'';
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bintoolsNoLibc' =
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if bootBintoolsNoLibc == null
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then tools.bintoolsNoLibc
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else bootBintoolsNoLibc;
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bintools' =
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if bootBintools == null
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then tools.bintools
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else bootBintools;
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in {
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libllvm = callPackage ./llvm {
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inherit llvm_meta;
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};
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# `llvm` historically had the binaries. When choosing an output explicitly,
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# we need to reintroduce `outputSpecified` to get the expected behavior e.g. of lib.get*
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llvm = tools.libllvm;
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libclang = callPackage ./clang {
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inherit llvm_meta;
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};
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clang-unwrapped = tools.libclang;
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llvm-manpages = lowPrio (tools.libllvm.override {
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enableManpages = true;
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python3 = pkgs.python3; # don't use python-boot
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});
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clang-manpages = lowPrio (tools.libclang.override {
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enableManpages = true;
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python3 = pkgs.python3; # don't use python-boot
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});
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lldb-manpages = lowPrio (tools.lldb.override {
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enableManpages = true;
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python3 = pkgs.python3; # don't use python-boot
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});
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# pick clang appropriate for package set we are targeting
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clang =
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/**/ if stdenv.targetPlatform.useLLVM or false then tools.clangUseLLVM
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else if (pkgs.targetPackages.stdenv or stdenv).cc.isGNU then tools.libstdcxxClang
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else tools.libcxxClang;
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libstdcxxClang = wrapCCWith rec {
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cc = tools.clang-unwrapped;
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# libstdcxx is taken from gcc in an ad-hoc way in cc-wrapper.
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libcxx = null;
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extraPackages = [
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targetLlvmLibraries.compiler-rt
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];
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extraBuildCommands = mkExtraBuildCommands cc;
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};
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libcxxClang = wrapCCWith rec {
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cc = tools.clang-unwrapped;
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libcxx = targetLlvmLibraries.libcxx;
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extraPackages = [
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libcxx.cxxabi
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targetLlvmLibraries.compiler-rt
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];
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extraBuildCommands = mkExtraBuildCommands cc;
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};
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lld = callPackage ./lld {
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inherit llvm_meta;
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};
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lldb = callPackage ../common/lldb.nix {
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src = callPackage ({ runCommand }: runCommand "lldb-src-${version}" {} ''
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mkdir -p "$out"
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cp -r ${monorepoSrc}/cmake "$out"
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cp -r ${monorepoSrc}/lldb "$out"
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'') { };
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patches =
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[
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# FIXME: do we need this? ./procfs.patch
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./lldb/gnu-install-dirs.patch
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]
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# This is a stopgap solution if/until the macOS SDK used for x86_64 is
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# updated.
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#
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# The older 10.12 SDK used on x86_64 as of this writing has a `mach/machine.h`
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# header that does not define `CPU_SUBTYPE_ARM64E` so we replace the one use
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# of this preprocessor symbol in `lldb` with its expansion.
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#
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# See here for some context:
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# https://github.com/NixOS/nixpkgs/pull/194634#issuecomment-1272129132
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++ lib.optional (
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stdenv.targetPlatform.isDarwin
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&& !stdenv.targetPlatform.isAarch64
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&& (lib.versionOlder darwin.apple_sdk.sdk.version "11.0")
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) ./lldb/cpu_subtype_arm64e_replacement.patch;
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inherit llvm_meta;
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};
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# Below, is the LLVM bootstrapping logic. It handles building a
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# fully LLVM toolchain from scratch. No GCC toolchain should be
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# pulled in. As a consequence, it is very quick to build different
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# targets provided by LLVM and we can also build for what GCC
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# doesn’t support like LLVM. Probably we should move to some other
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# file.
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bintools-unwrapped = callPackage ../common/bintools.nix { };
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bintoolsNoLibc = wrapBintoolsWith {
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bintools = tools.bintools-unwrapped;
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libc = preLibcCrossHeaders;
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};
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bintools = wrapBintoolsWith {
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bintools = tools.bintools-unwrapped;
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};
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clangUseLLVM = wrapCCWith rec {
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cc = tools.clang-unwrapped;
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libcxx = targetLlvmLibraries.libcxx;
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bintools = bintools';
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extraPackages = [
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libcxx.cxxabi
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targetLlvmLibraries.compiler-rt
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] ++ lib.optionals (!stdenv.targetPlatform.isWasm) [
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targetLlvmLibraries.libunwind
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];
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extraBuildCommands = mkExtraBuildCommands cc;
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nixSupport.cc-cflags =
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[ "-rtlib=compiler-rt"
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"-Wno-unused-command-line-argument"
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"-B${targetLlvmLibraries.compiler-rt}/lib"
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]
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++ lib.optional (!stdenv.targetPlatform.isWasm) "--unwindlib=libunwind"
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++ lib.optional
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(!stdenv.targetPlatform.isWasm && stdenv.targetPlatform.useLLVM or false)
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"-lunwind"
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++ lib.optional stdenv.targetPlatform.isWasm "-fno-exceptions";
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};
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clangNoLibcxx = wrapCCWith rec {
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cc = tools.clang-unwrapped;
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libcxx = null;
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bintools = bintools';
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extraPackages = [
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targetLlvmLibraries.compiler-rt
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];
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extraBuildCommands = mkExtraBuildCommands cc;
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nixSupport.cc-cflags =
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[
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"-rtlib=compiler-rt"
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"-B${targetLlvmLibraries.compiler-rt}/lib"
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"-nostdlib++"
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]
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++ lib.optional stdenv.targetPlatform.isWasm "-fno-exceptions";
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};
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clangNoLibc = wrapCCWith rec {
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cc = tools.clang-unwrapped;
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libcxx = null;
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bintools = bintoolsNoLibc';
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extraPackages = [
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targetLlvmLibraries.compiler-rt
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];
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extraBuildCommands = mkExtraBuildCommands cc;
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nixSupport.cc-cflags =
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[
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"-rtlib=compiler-rt"
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"-B${targetLlvmLibraries.compiler-rt}/lib"
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]
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++ lib.optional stdenv.targetPlatform.isWasm "-fno-exceptions";
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};
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clangNoCompilerRt = wrapCCWith rec {
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cc = tools.clang-unwrapped;
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libcxx = null;
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bintools = bintoolsNoLibc';
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extraPackages = [ ];
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extraBuildCommands = mkExtraBuildCommands0 cc;
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nixSupport.cc-cflags =
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[
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"-nostartfiles"
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]
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++ lib.optional stdenv.targetPlatform.isWasm "-fno-exceptions";
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};
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clangNoCompilerRtWithLibc = wrapCCWith (rec {
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cc = tools.clang-unwrapped;
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libcxx = null;
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bintools = bintools';
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extraPackages = [ ];
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extraBuildCommands = mkExtraBuildCommands0 cc;
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} // lib.optionalAttrs stdenv.targetPlatform.isWasm {
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nixSupport.cc-cflags = [ "-fno-exceptions" ];
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});
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# Has to be in tools despite mostly being a library,
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# because we use a native helper executable from a
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# non-cross build in cross builds.
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libclc = callPackage ../common/libclc.nix {
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inherit buildLlvmTools;
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};
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});
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libraries = lib.makeExtensible (libraries: let
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callPackage = newScope (libraries // buildLlvmTools // { inherit stdenv cmake ninja libxml2 python3 release_version version monorepoSrc; });
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in {
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compiler-rt-libc = callPackage ./compiler-rt {
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inherit llvm_meta;
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stdenv = if stdenv.hostPlatform.useLLVM or false || (stdenv.hostPlatform.isDarwin && stdenv.hostPlatform.isStatic)
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then overrideCC stdenv buildLlvmTools.clangNoCompilerRtWithLibc
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else stdenv;
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};
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compiler-rt-no-libc = callPackage ./compiler-rt {
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inherit llvm_meta;
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stdenv = if stdenv.hostPlatform.useLLVM or false
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then overrideCC stdenv buildLlvmTools.clangNoCompilerRt
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else stdenv;
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};
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# N.B. condition is safe because without useLLVM both are the same.
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compiler-rt = if stdenv.hostPlatform.isAndroid || stdenv.hostPlatform.isDarwin
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then libraries.compiler-rt-libc
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else libraries.compiler-rt-no-libc;
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stdenv = overrideCC stdenv buildLlvmTools.clang;
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libcxxStdenv = overrideCC stdenv buildLlvmTools.libcxxClang;
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libcxxabi = let
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# CMake will "require" a compiler capable of compiling C++ programs
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# cxx-header's build does not actually use one so it doesn't really matter
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# what stdenv we use here, as long as CMake is happy.
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cxx-headers = callPackage ./libcxx {
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inherit llvm_meta;
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# Note that if we use the regular stdenv here we'll get cycle errors
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# when attempting to use this compiler in the stdenv.
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#
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# The final stdenv pulls `cxx-headers` from the package set where
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# hostPlatform *is* the target platform which means that `stdenv` at
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# that point attempts to use this toolchain.
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#
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# So, we use `stdenv_` (the stdenv containing `clang` from this package
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# set, defined below) to sidestep this issue.
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#
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# Because we only use `cxx-headers` in `libcxxabi` (which depends on the
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# clang stdenv _anyways_), this is okay.
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stdenv = stdenv_;
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headersOnly = true;
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};
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# `libcxxabi` *doesn't* need a compiler with a working C++ stdlib but it
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# *does* need a relatively modern C++ compiler (see:
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# https://releases.llvm.org/15.0.0/projects/libcxx/docs/index.html#platform-and-compiler-support).
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#
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# So, we use the clang from this LLVM package set, like libc++
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# "boostrapping builds" do:
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# https://releases.llvm.org/15.0.0/projects/libcxx/docs/BuildingLibcxx.html#bootstrapping-build
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#
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# We cannot use `clangNoLibcxx` because that contains `compiler-rt` which,
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# on macOS, depends on `libcxxabi`, thus forming a cycle.
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stdenv_ = overrideCC stdenv buildLlvmTools.clangNoCompilerRtWithLibc;
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in callPackage ./libcxxabi {
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stdenv = stdenv_;
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inherit llvm_meta cxx-headers;
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};
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# Like `libcxxabi` above, `libcxx` requires a fairly modern C++ compiler,
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# so: we use the clang from this LLVM package set instead of the regular
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# stdenv's compiler.
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libcxx = callPackage ./libcxx {
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inherit llvm_meta;
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stdenv = overrideCC stdenv buildLlvmTools.clangNoLibcxx;
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};
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libunwind = callPackage ./libunwind {
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inherit llvm_meta;
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stdenv = overrideCC stdenv buildLlvmTools.clangNoLibcxx;
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};
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openmp = callPackage ./openmp {
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inherit llvm_meta targetLlvm;
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};
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});
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noExtend = extensible: lib.attrsets.removeAttrs extensible [ "extend" ];
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in { inherit tools libraries release_version; } // (noExtend libraries) // (noExtend tools)
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