use std::env; use std::fs; use std::path::PathBuf; use std::process::Command; use crate::builder::{Builder, Cargo as CargoCommand, RunConfig, ShouldRun, Step}; use crate::channel::GitInfo; use crate::compile; use crate::config::TargetSelection; use crate::toolstate::ToolState; use crate::util::{add_dylib_path, exe, t}; use crate::Compiler; use crate::Mode; use crate::{gha, Kind}; #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum SourceType { InTree, Submodule, } #[derive(Debug, Clone, Hash, PartialEq, Eq)] struct ToolBuild { compiler: Compiler, target: TargetSelection, tool: &'static str, path: &'static str, mode: Mode, is_optional_tool: bool, source_type: SourceType, extra_features: Vec, /// Nightly-only features that are allowed (comma-separated list). allow_features: &'static str, } impl Builder<'_> { #[track_caller] fn msg_tool( &self, mode: Mode, tool: &str, build_stage: u32, host: &TargetSelection, target: &TargetSelection, ) -> Option { match mode { // depends on compiler stage, different to host compiler Mode::ToolRustc => self.msg_sysroot_tool( Kind::Build, build_stage, format_args!("tool {tool}"), *host, *target, ), // doesn't depend on compiler, same as host compiler _ => self.msg(Kind::Build, build_stage, format_args!("tool {tool}"), *host, *target), } } } impl Step for ToolBuild { type Output = Option; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { run.never() } /// Builds a tool in `src/tools` /// /// This will build the specified tool with the specified `host` compiler in /// `stage` into the normal cargo output directory. fn run(self, builder: &Builder<'_>) -> Option { let compiler = self.compiler; let target = self.target; let mut tool = self.tool; let path = self.path; let is_optional_tool = self.is_optional_tool; match self.mode { Mode::ToolRustc => { builder.ensure(compile::Std::new(compiler, compiler.host)); builder.ensure(compile::Rustc::new(compiler, target)); } Mode::ToolStd => builder.ensure(compile::Std::new(compiler, target)), Mode::ToolBootstrap => {} // uses downloaded stage0 compiler libs _ => panic!("unexpected Mode for tool build"), } let mut cargo = prepare_tool_cargo( builder, compiler, self.mode, target, "build", path, self.source_type, &self.extra_features, ); if !self.allow_features.is_empty() { cargo.allow_features(self.allow_features); } let _guard = builder.msg_tool( self.mode, self.tool, self.compiler.stage, &self.compiler.host, &self.target, ); let mut cargo = Command::from(cargo); #[allow(deprecated)] // we check this in `is_optional_tool` in a second let is_expected = builder.config.try_run(&mut cargo).is_ok(); builder.save_toolstate( tool, if is_expected { ToolState::TestFail } else { ToolState::BuildFail }, ); if !is_expected { if !is_optional_tool { crate::exit!(1); } else { None } } else { // HACK(#82501): on Windows, the tools directory gets added to PATH when running tests, and // compiletest confuses HTML tidy with the in-tree tidy. Name the in-tree tidy something // different so the problem doesn't come up. if tool == "tidy" { tool = "rust-tidy"; } let cargo_out = builder.cargo_out(compiler, self.mode, target).join(exe(tool, target)); let bin = builder.tools_dir(compiler).join(exe(tool, target)); builder.copy(&cargo_out, &bin); Some(bin) } } } pub fn prepare_tool_cargo( builder: &Builder<'_>, compiler: Compiler, mode: Mode, target: TargetSelection, command: &'static str, path: &str, source_type: SourceType, extra_features: &[String], ) -> CargoCommand { let mut cargo = builder.cargo(compiler, mode, source_type, target, command); let dir = builder.src.join(path); cargo.arg("--manifest-path").arg(dir.join("Cargo.toml")); let mut features = extra_features.to_vec(); if builder.build.config.cargo_native_static { if path.ends_with("cargo") || path.ends_with("rls") || path.ends_with("clippy") || path.ends_with("miri") || path.ends_with("rustfmt") { cargo.env("LIBZ_SYS_STATIC", "1"); } if path.ends_with("cargo") { features.push("all-static".to_string()); } } // clippy tests need to know about the stage sysroot. Set them consistently while building to // avoid rebuilding when running tests. cargo.env("SYSROOT", builder.sysroot(compiler)); // if tools are using lzma we want to force the build script to build its // own copy cargo.env("LZMA_API_STATIC", "1"); // CFG_RELEASE is needed by rustfmt (and possibly other tools) which // import rustc-ap-rustc_attr which requires this to be set for the // `#[cfg(version(...))]` attribute. cargo.env("CFG_RELEASE", builder.rust_release()); cargo.env("CFG_RELEASE_CHANNEL", &builder.config.channel); cargo.env("CFG_VERSION", builder.rust_version()); cargo.env("CFG_RELEASE_NUM", &builder.version); cargo.env("DOC_RUST_LANG_ORG_CHANNEL", builder.doc_rust_lang_org_channel()); if let Some(ref ver_date) = builder.rust_info().commit_date() { cargo.env("CFG_VER_DATE", ver_date); } if let Some(ref ver_hash) = builder.rust_info().sha() { cargo.env("CFG_VER_HASH", ver_hash); } let info = GitInfo::new(builder.config.omit_git_hash, &dir); if let Some(sha) = info.sha() { cargo.env("CFG_COMMIT_HASH", sha); } if let Some(sha_short) = info.sha_short() { cargo.env("CFG_SHORT_COMMIT_HASH", sha_short); } if let Some(date) = info.commit_date() { cargo.env("CFG_COMMIT_DATE", date); } if !features.is_empty() { cargo.arg("--features").arg(&features.join(", ")); } cargo } macro_rules! bootstrap_tool { ($( $name:ident, $path:expr, $tool_name:expr $(,is_external_tool = $external:expr)* $(,is_unstable_tool = $unstable:expr)* $(,allow_features = $allow_features:expr)? ; )+) => { #[derive(Copy, PartialEq, Eq, Clone)] pub enum Tool { $( $name, )+ } impl<'a> Builder<'a> { pub fn tool_exe(&self, tool: Tool) -> PathBuf { match tool { $(Tool::$name => self.ensure($name { compiler: self.compiler(0, self.config.build), target: self.config.build, }), )+ } } } $( #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct $name { pub compiler: Compiler, pub target: TargetSelection, } impl Step for $name { type Output = PathBuf; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { run.path($path) } fn make_run(run: RunConfig<'_>) { run.builder.ensure($name { // snapshot compiler compiler: run.builder.compiler(0, run.builder.config.build), target: run.target, }); } fn run(self, builder: &Builder<'_>) -> PathBuf { builder.ensure(ToolBuild { compiler: self.compiler, target: self.target, tool: $tool_name, mode: if false $(|| $unstable)* { // use in-tree libraries for unstable features Mode::ToolStd } else { Mode::ToolBootstrap }, path: $path, is_optional_tool: false, source_type: if false $(|| $external)* { SourceType::Submodule } else { SourceType::InTree }, extra_features: vec![], allow_features: concat!($($allow_features)*), }).expect("expected to build -- essential tool") } } )+ } } bootstrap_tool!( Rustbook, "src/tools/rustbook", "rustbook"; UnstableBookGen, "src/tools/unstable-book-gen", "unstable-book-gen"; Tidy, "src/tools/tidy", "tidy"; Linkchecker, "src/tools/linkchecker", "linkchecker"; CargoTest, "src/tools/cargotest", "cargotest"; Compiletest, "src/tools/compiletest", "compiletest", is_unstable_tool = true, allow_features = "test"; BuildManifest, "src/tools/build-manifest", "build-manifest"; RemoteTestClient, "src/tools/remote-test-client", "remote-test-client"; RustInstaller, "src/tools/rust-installer", "rust-installer"; RustdocTheme, "src/tools/rustdoc-themes", "rustdoc-themes"; ExpandYamlAnchors, "src/tools/expand-yaml-anchors", "expand-yaml-anchors"; LintDocs, "src/tools/lint-docs", "lint-docs"; JsonDocCk, "src/tools/jsondocck", "jsondocck"; JsonDocLint, "src/tools/jsondoclint", "jsondoclint"; HtmlChecker, "src/tools/html-checker", "html-checker"; BumpStage0, "src/tools/bump-stage0", "bump-stage0"; ReplaceVersionPlaceholder, "src/tools/replace-version-placeholder", "replace-version-placeholder"; CollectLicenseMetadata, "src/tools/collect-license-metadata", "collect-license-metadata"; GenerateCopyright, "src/tools/generate-copyright", "generate-copyright"; SuggestTests, "src/tools/suggest-tests", "suggest-tests"; GenerateWindowsSys, "src/tools/generate-windows-sys", "generate-windows-sys"; RustdocGUITest, "src/tools/rustdoc-gui-test", "rustdoc-gui-test", is_unstable_tool = true, allow_features = "test"; OptimizedDist, "src/tools/opt-dist", "opt-dist"; CoverageDump, "src/tools/coverage-dump", "coverage-dump"; ); #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq, Ord, PartialOrd)] pub struct ErrorIndex { pub compiler: Compiler, } impl ErrorIndex { pub fn command(builder: &Builder<'_>) -> Command { // Error-index-generator links with the rustdoc library, so we need to add `rustc_lib_paths` // for rustc_private and libLLVM.so, and `sysroot_lib` for libstd, etc. let host = builder.config.build; let compiler = builder.compiler_for(builder.top_stage, host, host); let mut cmd = Command::new(builder.ensure(ErrorIndex { compiler })); let mut dylib_paths = builder.rustc_lib_paths(compiler); dylib_paths.push(PathBuf::from(&builder.sysroot_libdir(compiler, compiler.host))); add_dylib_path(dylib_paths, &mut cmd); cmd } } impl Step for ErrorIndex { type Output = PathBuf; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { run.path("src/tools/error_index_generator") } fn make_run(run: RunConfig<'_>) { // Compile the error-index in the same stage as rustdoc to avoid // recompiling rustdoc twice if we can. // // NOTE: This `make_run` isn't used in normal situations, only if you // manually build the tool with `x.py build // src/tools/error-index-generator` which almost nobody does. // Normally, `x.py test` or `x.py doc` will use the // `ErrorIndex::command` function instead. let compiler = run.builder.compiler(run.builder.top_stage.saturating_sub(1), run.builder.config.build); run.builder.ensure(ErrorIndex { compiler }); } fn run(self, builder: &Builder<'_>) -> PathBuf { builder .ensure(ToolBuild { compiler: self.compiler, target: self.compiler.host, tool: "error_index_generator", mode: Mode::ToolRustc, path: "src/tools/error_index_generator", is_optional_tool: false, source_type: SourceType::InTree, extra_features: Vec::new(), allow_features: "", }) .expect("expected to build -- essential tool") } } #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct RemoteTestServer { pub compiler: Compiler, pub target: TargetSelection, } impl Step for RemoteTestServer { type Output = PathBuf; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { run.path("src/tools/remote-test-server") } fn make_run(run: RunConfig<'_>) { run.builder.ensure(RemoteTestServer { compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build), target: run.target, }); } fn run(self, builder: &Builder<'_>) -> PathBuf { builder .ensure(ToolBuild { compiler: self.compiler, target: self.target, tool: "remote-test-server", mode: Mode::ToolStd, path: "src/tools/remote-test-server", is_optional_tool: false, source_type: SourceType::InTree, extra_features: Vec::new(), allow_features: "", }) .expect("expected to build -- essential tool") } } #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq, Ord, PartialOrd)] pub struct Rustdoc { /// This should only ever be 0 or 2. /// We sometimes want to reference the "bootstrap" rustdoc, which is why this option is here. pub compiler: Compiler, } impl Step for Rustdoc { type Output = PathBuf; const DEFAULT: bool = true; const ONLY_HOSTS: bool = true; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { run.path("src/tools/rustdoc").path("src/librustdoc") } fn make_run(run: RunConfig<'_>) { run.builder.ensure(Rustdoc { // Note: this is somewhat unique in that we actually want a *target* // compiler here, because rustdoc *is* a compiler. We won't be using // this as the compiler to build with, but rather this is "what // compiler are we producing"? compiler: run.builder.compiler(run.builder.top_stage, run.target), }); } fn run(self, builder: &Builder<'_>) -> PathBuf { let target_compiler = self.compiler; if target_compiler.stage == 0 { if !target_compiler.is_snapshot(builder) { panic!("rustdoc in stage 0 must be snapshot rustdoc"); } return builder.initial_rustc.with_file_name(exe("rustdoc", target_compiler.host)); } let target = target_compiler.host; // Similar to `compile::Assemble`, build with the previous stage's compiler. Otherwise // we'd have stageN/bin/rustc and stageN/bin/rustdoc be effectively different stage // compilers, which isn't what we want. Rustdoc should be linked in the same way as the // rustc compiler it's paired with, so it must be built with the previous stage compiler. let build_compiler = builder.compiler(target_compiler.stage - 1, builder.config.build); // When using `download-rustc` and a stage0 build_compiler, copying rustc doesn't actually // build stage0 libstd (because the libstd in sysroot has the wrong ABI). Explicitly build // it. builder.ensure(compile::Std::new(build_compiler, target_compiler.host)); builder.ensure(compile::Rustc::new(build_compiler, target_compiler.host)); // NOTE: this implies that `download-rustc` is pretty useless when compiling with the stage0 // compiler, since you do just as much work. if !builder.config.dry_run() && builder.download_rustc() && build_compiler.stage == 0 { println!( "warning: `download-rustc` does nothing when building stage1 tools; consider using `--stage 2` instead" ); } // The presence of `target_compiler` ensures that the necessary libraries (codegen backends, // compiler libraries, ...) are built. Rustdoc does not require the presence of any // libraries within sysroot_libdir (i.e., rustlib), though doctests may want it (since // they'll be linked to those libraries). As such, don't explicitly `ensure` any additional // libraries here. The intuition here is that If we've built a compiler, we should be able // to build rustdoc. // let mut features = Vec::new(); if builder.config.jemalloc { features.push("jemalloc".to_string()); } let mut cargo = prepare_tool_cargo( builder, build_compiler, Mode::ToolRustc, target, "build", "src/tools/rustdoc", SourceType::InTree, features.as_slice(), ); if builder.config.rustc_parallel { cargo.rustflag("--cfg=parallel_compiler"); } let _guard = builder.msg_tool( Mode::ToolRustc, "rustdoc", build_compiler.stage, &self.compiler.host, &target, ); builder.run(&mut cargo.into()); // Cargo adds a number of paths to the dylib search path on windows, which results in // the wrong rustdoc being executed. To avoid the conflicting rustdocs, we name the "tool" // rustdoc a different name. let tool_rustdoc = builder .cargo_out(build_compiler, Mode::ToolRustc, target) .join(exe("rustdoc_tool_binary", target_compiler.host)); // don't create a stage0-sysroot/bin directory. if target_compiler.stage > 0 { let sysroot = builder.sysroot(target_compiler); let bindir = sysroot.join("bin"); t!(fs::create_dir_all(&bindir)); let bin_rustdoc = bindir.join(exe("rustdoc", target_compiler.host)); let _ = fs::remove_file(&bin_rustdoc); builder.copy(&tool_rustdoc, &bin_rustdoc); bin_rustdoc } else { tool_rustdoc } } } #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct Cargo { pub compiler: Compiler, pub target: TargetSelection, } impl Step for Cargo { type Output = PathBuf; const DEFAULT: bool = true; const ONLY_HOSTS: bool = true; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { let builder = run.builder; run.path("src/tools/cargo").default_condition( builder.config.extended && builder.config.tools.as_ref().map_or( true, // If `tools` is set, search list for this tool. |tools| tools.iter().any(|tool| tool == "cargo"), ), ) } fn make_run(run: RunConfig<'_>) { run.builder.ensure(Cargo { compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build), target: run.target, }); } fn run(self, builder: &Builder<'_>) -> PathBuf { let cargo_bin_path = builder .ensure(ToolBuild { compiler: self.compiler, target: self.target, tool: "cargo", mode: Mode::ToolRustc, path: "src/tools/cargo", is_optional_tool: false, source_type: SourceType::Submodule, extra_features: Vec::new(), allow_features: "", }) .expect("expected to build -- essential tool"); cargo_bin_path } } #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct LldWrapper { pub compiler: Compiler, pub target: TargetSelection, } impl Step for LldWrapper { type Output = PathBuf; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { run.never() } fn run(self, builder: &Builder<'_>) -> PathBuf { let src_exe = builder .ensure(ToolBuild { compiler: self.compiler, target: self.target, tool: "lld-wrapper", mode: Mode::ToolStd, path: "src/tools/lld-wrapper", is_optional_tool: false, source_type: SourceType::InTree, extra_features: Vec::new(), allow_features: "", }) .expect("expected to build -- essential tool"); src_exe } } #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct RustAnalyzer { pub compiler: Compiler, pub target: TargetSelection, } impl RustAnalyzer { pub const ALLOW_FEATURES: &'static str = "proc_macro_internals,proc_macro_diagnostic,proc_macro_span,proc_macro_span_shrink"; } impl Step for RustAnalyzer { type Output = Option; const DEFAULT: bool = true; const ONLY_HOSTS: bool = true; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { let builder = run.builder; run.path("src/tools/rust-analyzer").default_condition( builder.config.extended && builder .config .tools .as_ref() .map_or(true, |tools| tools.iter().any(|tool| tool == "rust-analyzer")), ) } fn make_run(run: RunConfig<'_>) { run.builder.ensure(RustAnalyzer { compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build), target: run.target, }); } fn run(self, builder: &Builder<'_>) -> Option { builder.ensure(ToolBuild { compiler: self.compiler, target: self.target, tool: "rust-analyzer", mode: Mode::ToolStd, path: "src/tools/rust-analyzer", extra_features: vec!["rust-analyzer/in-rust-tree".to_owned()], is_optional_tool: false, source_type: SourceType::InTree, allow_features: RustAnalyzer::ALLOW_FEATURES, }) } } #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct RustAnalyzerProcMacroSrv { pub compiler: Compiler, pub target: TargetSelection, } impl Step for RustAnalyzerProcMacroSrv { type Output = Option; const DEFAULT: bool = true; const ONLY_HOSTS: bool = true; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { let builder = run.builder; // Allow building `rust-analyzer-proc-macro-srv` both as part of the `rust-analyzer` and as a stand-alone tool. run.path("src/tools/rust-analyzer") .path("src/tools/rust-analyzer/crates/proc-macro-srv-cli") .default_condition(builder.config.tools.as_ref().map_or(true, |tools| { tools .iter() .any(|tool| tool == "rust-analyzer" || tool == "rust-analyzer-proc-macro-srv") })) } fn make_run(run: RunConfig<'_>) { run.builder.ensure(RustAnalyzerProcMacroSrv { compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build), target: run.target, }); } fn run(self, builder: &Builder<'_>) -> Option { let path = builder.ensure(ToolBuild { compiler: self.compiler, target: self.target, tool: "rust-analyzer-proc-macro-srv", mode: Mode::ToolStd, path: "src/tools/rust-analyzer/crates/proc-macro-srv-cli", extra_features: vec!["sysroot-abi".to_owned()], is_optional_tool: false, source_type: SourceType::InTree, allow_features: RustAnalyzer::ALLOW_FEATURES, })?; // Copy `rust-analyzer-proc-macro-srv` to `/libexec/` // so that r-a can use it. let libexec_path = builder.sysroot(self.compiler).join("libexec"); t!(fs::create_dir_all(&libexec_path)); builder.copy(&path, &libexec_path.join("rust-analyzer-proc-macro-srv")); Some(path) } } macro_rules! tool_extended { (($sel:ident, $builder:ident), $($name:ident, $path:expr, $tool_name:expr, stable = $stable:expr $(,tool_std = $tool_std:literal)? $(,allow_features = $allow_features:expr)? $(,add_bins_to_sysroot = $add_bins_to_sysroot:expr)? ;)+) => { $( #[derive(Debug, Clone, Hash, PartialEq, Eq)] pub struct $name { pub compiler: Compiler, pub target: TargetSelection, pub extra_features: Vec, } impl Step for $name { type Output = Option; const DEFAULT: bool = true; // Overwritten below const ONLY_HOSTS: bool = true; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { let builder = run.builder; run.path($path).default_condition( builder.config.extended && builder.config.tools.as_ref().map_or( // By default, on nightly/dev enable all tools, else only // build stable tools. $stable || builder.build.unstable_features(), // If `tools` is set, search list for this tool. |tools| { tools.iter().any(|tool| match tool.as_ref() { "clippy" => $tool_name == "clippy-driver", x => $tool_name == x, }) }), ) } fn make_run(run: RunConfig<'_>) { run.builder.ensure($name { compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build), target: run.target, extra_features: Vec::new(), }); } #[allow(unused_mut)] fn run(mut $sel, $builder: &Builder<'_>) -> Option { let tool = $builder.ensure(ToolBuild { compiler: $sel.compiler, target: $sel.target, tool: $tool_name, mode: if false $(|| $tool_std)? { Mode::ToolStd } else { Mode::ToolRustc }, path: $path, extra_features: $sel.extra_features, is_optional_tool: true, source_type: SourceType::InTree, allow_features: concat!($($allow_features)*), })?; if (false $(|| !$add_bins_to_sysroot.is_empty())?) && $sel.compiler.stage > 0 { let bindir = $builder.sysroot($sel.compiler).join("bin"); t!(fs::create_dir_all(&bindir)); #[allow(unused_variables)] let tools_out = $builder .cargo_out($sel.compiler, Mode::ToolRustc, $sel.target); $(for add_bin in $add_bins_to_sysroot { let bin_source = tools_out.join(exe(add_bin, $sel.target)); let bin_destination = bindir.join(exe(add_bin, $sel.compiler.host)); $builder.copy(&bin_source, &bin_destination); })? let tool = bindir.join(exe($tool_name, $sel.compiler.host)); Some(tool) } else { Some(tool) } } } )+ } } // Note: tools need to be also added to `Builder::get_step_descriptions` in `builder.rs` // to make `./x.py build ` work. // Note: Most submodule updates for tools are handled by bootstrap.py, since they're needed just to // invoke Cargo to build bootstrap. See the comment there for more details. tool_extended!((self, builder), Cargofmt, "src/tools/rustfmt", "cargo-fmt", stable=true; CargoClippy, "src/tools/clippy", "cargo-clippy", stable=true; Clippy, "src/tools/clippy", "clippy-driver", stable=true, add_bins_to_sysroot = ["clippy-driver", "cargo-clippy"]; Miri, "src/tools/miri", "miri", stable=false, add_bins_to_sysroot = ["miri"]; CargoMiri, "src/tools/miri/cargo-miri", "cargo-miri", stable=true, add_bins_to_sysroot = ["cargo-miri"]; // FIXME: tool_std is not quite right, we shouldn't allow nightly features. // But `builder.cargo` doesn't know how to handle ToolBootstrap in stages other than 0, // and this is close enough for now. Rls, "src/tools/rls", "rls", stable=true, tool_std=true; RustDemangler, "src/tools/rust-demangler", "rust-demangler", stable=false, tool_std=true; Rustfmt, "src/tools/rustfmt", "rustfmt", stable=true, add_bins_to_sysroot = ["rustfmt", "cargo-fmt"]; ); impl<'a> Builder<'a> { /// Gets a `Command` which is ready to run `tool` in `stage` built for /// `host`. pub fn tool_cmd(&self, tool: Tool) -> Command { let mut cmd = Command::new(self.tool_exe(tool)); let compiler = self.compiler(0, self.config.build); let host = &compiler.host; // Prepares the `cmd` provided to be able to run the `compiler` provided. // // Notably this munges the dynamic library lookup path to point to the // right location to run `compiler`. let mut lib_paths: Vec = vec![ self.build.rustc_snapshot_libdir(), self.cargo_out(compiler, Mode::ToolBootstrap, *host).join("deps"), ]; // On MSVC a tool may invoke a C compiler (e.g., compiletest in run-make // mode) and that C compiler may need some extra PATH modification. Do // so here. if compiler.host.contains("msvc") { let curpaths = env::var_os("PATH").unwrap_or_default(); let curpaths = env::split_paths(&curpaths).collect::>(); for &(ref k, ref v) in self.cc.borrow()[&compiler.host].env() { if k != "PATH" { continue; } for path in env::split_paths(v) { if !curpaths.contains(&path) { lib_paths.push(path); } } } } add_dylib_path(lib_paths, &mut cmd); // Provide a RUSTC for this command to use. cmd.env("RUSTC", &self.initial_rustc); cmd } }