//! Implementation of the install aspects of the compiler. //! //! This module is responsible for installing the standard library, //! compiler, and documentation. use std::env; use std::fs; use std::path::{Component, Path, PathBuf}; use std::process::Command; use crate::util::t; use crate::dist; use crate::tarball::GeneratedTarball; use crate::Compiler; use crate::builder::{Builder, RunConfig, ShouldRun, Step}; use crate::config::{Config, TargetSelection}; #[cfg(target_os = "illumos")] const SHELL: &str = "bash"; #[cfg(not(target_os = "illumos"))] const SHELL: &str = "sh"; // We have to run a few shell scripts, which choke quite a bit on both `\` // characters and on `C:\` paths, so normalize both of them away. fn sanitize_sh(path: &Path) -> String { let path = path.to_str().unwrap().replace("\\", "/"); return change_drive(unc_to_lfs(&path)).unwrap_or(path); fn unc_to_lfs(s: &str) -> &str { s.strip_prefix("//?/").unwrap_or(s) } fn change_drive(s: &str) -> Option { let mut ch = s.chars(); let drive = ch.next().unwrap_or('C'); if ch.next() != Some(':') { return None; } if ch.next() != Some('/') { return None; } Some(format!("/{}/{}", drive, &s[drive.len_utf8() + 2..])) } } fn install_sh( builder: &Builder<'_>, package: &str, stage: u32, host: Option, tarball: &GeneratedTarball, ) { builder.info(&format!("Install {} stage{} ({:?})", package, stage, host)); let prefix = default_path(&builder.config.prefix, "/usr/local"); let sysconfdir = prefix.join(default_path(&builder.config.sysconfdir, "/etc")); let datadir = prefix.join(default_path(&builder.config.datadir, "share")); let docdir = prefix.join(default_path(&builder.config.docdir, "share/doc/rust")); let mandir = prefix.join(default_path(&builder.config.mandir, "share/man")); let libdir = prefix.join(default_path(&builder.config.libdir, "lib")); let bindir = prefix.join(&builder.config.bindir); // Default in config.rs let empty_dir = builder.out.join("tmp/empty_dir"); t!(fs::create_dir_all(&empty_dir)); let mut cmd = Command::new(SHELL); cmd.current_dir(&empty_dir) .arg(sanitize_sh(&tarball.decompressed_output().join("install.sh"))) .arg(format!("--prefix={}", prepare_dir(prefix))) .arg(format!("--sysconfdir={}", prepare_dir(sysconfdir))) .arg(format!("--datadir={}", prepare_dir(datadir))) .arg(format!("--docdir={}", prepare_dir(docdir))) .arg(format!("--bindir={}", prepare_dir(bindir))) .arg(format!("--libdir={}", prepare_dir(libdir))) .arg(format!("--mandir={}", prepare_dir(mandir))) .arg("--disable-ldconfig"); builder.run(&mut cmd); t!(fs::remove_dir_all(&empty_dir)); } fn default_path(config: &Option, default: &str) -> PathBuf { config.as_ref().cloned().unwrap_or_else(|| PathBuf::from(default)) } fn prepare_dir(mut path: PathBuf) -> String { // The DESTDIR environment variable is a standard way to install software in a subdirectory // while keeping the original directory structure, even if the prefix or other directories // contain absolute paths. // // More information on the environment variable is available here: // https://www.gnu.org/prep/standards/html_node/DESTDIR.html if let Some(destdir) = env::var_os("DESTDIR").map(PathBuf::from) { let without_destdir = path.clone(); path = destdir; // Custom .join() which ignores disk roots. for part in without_destdir.components() { if let Component::Normal(s) = part { path.push(s) } } } // The installation command is not executed from the current directory, but from a temporary // directory. To prevent relative paths from breaking this converts relative paths to absolute // paths. std::fs::canonicalize is not used as that requires the path to actually be present. if path.is_relative() { path = std::env::current_dir().expect("failed to get the current directory").join(path); assert!(path.is_absolute(), "could not make the path relative"); } sanitize_sh(&path) } macro_rules! install { (($sel:ident, $builder:ident, $_config:ident), $($name:ident, $condition_name: ident = $path_or_alias: literal, $default_cond:expr, only_hosts: $only_hosts:expr, $run_item:block $(, $c:ident)*;)+) => { $( #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct $name { pub compiler: Compiler, pub target: TargetSelection, } impl $name { #[allow(dead_code)] fn should_build(config: &Config) -> bool { config.extended && config.tools.as_ref() .map_or(true, |t| t.contains($path_or_alias)) } } impl Step for $name { type Output = (); const DEFAULT: bool = true; const ONLY_HOSTS: bool = $only_hosts; $(const $c: bool = true;)* fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { let $_config = &run.builder.config; run.$condition_name($path_or_alias).default_condition($default_cond) } fn make_run(run: RunConfig<'_>) { run.builder.ensure($name { compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build), target: run.target, }); } fn run($sel, $builder: &Builder<'_>) { $run_item } })+ } } install!((self, builder, _config), Docs, path = "src/doc", _config.docs, only_hosts: false, { let tarball = builder.ensure(dist::Docs { host: self.target }).expect("missing docs"); install_sh(builder, "docs", self.compiler.stage, Some(self.target), &tarball); }; Std, path = "library/std", true, only_hosts: false, { for target in &builder.targets { // `expect` should be safe, only None when host != build, but this // only runs when host == build let tarball = builder.ensure(dist::Std { compiler: self.compiler, target: *target }).expect("missing std"); install_sh(builder, "std", self.compiler.stage, Some(*target), &tarball); } }; Cargo, alias = "cargo", Self::should_build(_config), only_hosts: true, { let tarball = builder .ensure(dist::Cargo { compiler: self.compiler, target: self.target }) .expect("missing cargo"); install_sh(builder, "cargo", self.compiler.stage, Some(self.target), &tarball); }; RustAnalyzer, alias = "rust-analyzer", Self::should_build(_config), only_hosts: true, { if let Some(tarball) = builder.ensure(dist::RustAnalyzer { compiler: self.compiler, target: self.target }) { install_sh(builder, "rust-analyzer", self.compiler.stage, Some(self.target), &tarball); } else { builder.info( &format!("skipping Install rust-analyzer stage{} ({})", self.compiler.stage, self.target), ); } }; Clippy, alias = "clippy", Self::should_build(_config), only_hosts: true, { let tarball = builder .ensure(dist::Clippy { compiler: self.compiler, target: self.target }) .expect("missing clippy"); install_sh(builder, "clippy", self.compiler.stage, Some(self.target), &tarball); }; Miri, alias = "miri", Self::should_build(_config), only_hosts: true, { if let Some(tarball) = builder.ensure(dist::Miri { compiler: self.compiler, target: self.target }) { install_sh(builder, "miri", self.compiler.stage, Some(self.target), &tarball); } else { // Miri is only available on nightly builder.info( &format!("skipping Install miri stage{} ({})", self.compiler.stage, self.target), ); } }; LlvmTools, alias = "llvm-tools", Self::should_build(_config), only_hosts: true, { let tarball = builder .ensure(dist::LlvmTools { target: self.target }) .expect("missing llvm-tools"); install_sh(builder, "llvm-tools", self.compiler.stage, Some(self.target), &tarball); }; Rustfmt, alias = "rustfmt", Self::should_build(_config), only_hosts: true, { if let Some(tarball) = builder.ensure(dist::Rustfmt { compiler: self.compiler, target: self.target }) { install_sh(builder, "rustfmt", self.compiler.stage, Some(self.target), &tarball); } else { builder.info( &format!("skipping Install Rustfmt stage{} ({})", self.compiler.stage, self.target), ); } }; RustDemangler, alias = "rust-demangler", Self::should_build(_config), only_hosts: true, { // Note: Even though `should_build` may return true for `extended` default tools, // dist::RustDemangler may still return None, unless the target-dependent `profiler` config // is also true, or the `tools` array explicitly includes "rust-demangler". if let Some(tarball) = builder.ensure(dist::RustDemangler { compiler: self.compiler, target: self.target }) { install_sh(builder, "rust-demangler", self.compiler.stage, Some(self.target), &tarball); } else { builder.info( &format!("skipping Install RustDemangler stage{} ({})", self.compiler.stage, self.target), ); } }; Analysis, alias = "analysis", Self::should_build(_config), only_hosts: false, { // `expect` should be safe, only None with host != build, but this // only uses the `build` compiler let tarball = builder.ensure(dist::Analysis { // Find the actual compiler (handling the full bootstrap option) which // produced the save-analysis data because that data isn't copied // through the sysroot uplifting. compiler: builder.compiler_for(builder.top_stage, builder.config.build, self.target), target: self.target }).expect("missing analysis"); install_sh(builder, "analysis", self.compiler.stage, Some(self.target), &tarball); }; Rustc, path = "compiler/rustc", true, only_hosts: true, { let tarball = builder.ensure(dist::Rustc { compiler: builder.compiler(builder.top_stage, self.target), }); install_sh(builder, "rustc", self.compiler.stage, Some(self.target), &tarball); }; ); #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub struct Src { pub stage: u32, } impl Step for Src { type Output = (); const DEFAULT: bool = true; const ONLY_HOSTS: bool = true; fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> { let config = &run.builder.config; let cond = config.extended && config.tools.as_ref().map_or(true, |t| t.contains("src")); run.path("src").default_condition(cond) } fn make_run(run: RunConfig<'_>) { run.builder.ensure(Src { stage: run.builder.top_stage }); } fn run(self, builder: &Builder<'_>) { let tarball = builder.ensure(dist::Src); install_sh(builder, "src", self.stage, None, &tarball); } }