{ rustcVersion, rustcSha256, enableRustcDev ? true, bootstrapVersion, bootstrapHashes, selectRustPackage, rustcPatches ? [ ], llvmShared, llvmSharedForBuild, llvmSharedForHost, llvmSharedForTarget, llvmPackages, # Exposed through rustc for LTO in Firefox }: { stdenv, lib, newScope, callPackage, CoreFoundation, Security, SystemConfiguration, pkgsBuildBuild, pkgsBuildHost, pkgsBuildTarget, pkgsTargetTarget, makeRustPlatform, wrapRustcWith, path, }: let # Use `import` to make sure no packages sneak in here. lib' = import (path + /pkgs/build-support/rust/lib) { inherit lib stdenv pkgsBuildHost pkgsBuildTarget pkgsTargetTarget ; }; # Allow faster cross compiler generation by reusing Build artifacts fastCross = (stdenv.buildPlatform == stdenv.hostPlatform) && (stdenv.hostPlatform != stdenv.targetPlatform); in { lib = lib'; # Backwards compat before `lib` was factored out. inherit (lib') toTargetArch toTargetOs toRustTarget toRustTargetSpec IsNoStdTarget toRustTargetForUseInEnvVars envVars ; # This just contains tools for now. But it would conceivably contain # libraries too, say if we picked some default/recommended versions to build # by Hydra. # # In the end game, rustc, the rust standard library (`core`, `std`, etc.), # and cargo would themselves be built with `buildRustCreate` like # everything else. Tools and `build.rs` and procedural macro dependencies # would be taken from `buildRustPackages` (and `bootstrapRustPackages` for # anything provided prebuilt or their build-time dependencies to break # cycles / purify builds). In this way, nixpkgs would be in control of all # bootstrapping. packages = { prebuilt = callPackage ./bootstrap.nix { version = bootstrapVersion; hashes = bootstrapHashes; }; stable = lib.makeScope newScope ( self: let # Like `buildRustPackages`, but may also contain prebuilt binaries to # break cycle. Just like `bootstrapTools` for nixpkgs as a whole, # nothing in the final package set should refer to this. bootstrapRustPackages = if fastCross then pkgsBuildBuild.rustPackages else self.buildRustPackages.overrideScope ( _: _: lib.optionalAttrs (stdenv.buildPlatform == stdenv.hostPlatform) (selectRustPackage pkgsBuildHost).packages.prebuilt ); bootRustPlatform = makeRustPlatform bootstrapRustPackages; in { # Packages suitable for build-time, e.g. `build.rs`-type stuff. buildRustPackages = (selectRustPackage pkgsBuildHost).packages.stable // { # Prevent `pkgs/top-level/release-attrpaths-superset.nix` from recursing more than one level here. buildRustPackages = self.buildRustPackages // { __attrsFailEvaluation = true; }; }; # Analogous to stdenv rustPlatform = makeRustPlatform self.buildRustPackages; rustc-unwrapped = self.callPackage ./rustc.nix { version = rustcVersion; sha256 = rustcSha256; inherit enableRustcDev; inherit llvmShared llvmSharedForBuild llvmSharedForHost llvmSharedForTarget llvmPackages fastCross ; patches = rustcPatches; # Use boot package set to break cycle inherit (bootstrapRustPackages) cargo rustc rustfmt; }; rustc = wrapRustcWith { inherit (self) rustc-unwrapped; sysroot = if fastCross then self.rustc-unwrapped else null; }; rustfmt = self.callPackage ./rustfmt.nix { inherit Security; inherit (self.buildRustPackages) rustc; }; cargo = if (!fastCross) then self.callPackage ./cargo.nix { # Use boot package set to break cycle rustPlatform = bootRustPlatform; inherit CoreFoundation Security; } else self.callPackage ./cargo_cross.nix { }; cargo-auditable = self.callPackage ./cargo-auditable.nix { }; cargo-auditable-cargo-wrapper = self.callPackage ./cargo-auditable-cargo-wrapper.nix { }; clippy = self.callPackage ./clippy.nix { # We want to use self, not buildRustPackages, so that # buildPackages.clippy uses the cross compiler and supports # linting for the target platform. rustPlatform = makeRustPlatform self; inherit Security; }; } ); }; }