use std::env; use std::fs; use std::io::Write; use std::path::{Path, PathBuf}; use std::process::{self, Command, Stdio}; use super::path::{Dirs, RelPath}; use super::rustc_info::{get_cargo_path, get_rustc_path, get_rustdoc_path, get_wrapper_file_name}; #[derive(Clone, Debug)] pub(crate) struct Compiler { pub(crate) cargo: PathBuf, pub(crate) rustc: PathBuf, pub(crate) rustdoc: PathBuf, pub(crate) rustflags: String, pub(crate) rustdocflags: String, pub(crate) triple: String, pub(crate) runner: Vec, } impl Compiler { pub(crate) fn llvm_with_triple(triple: String) -> Compiler { Compiler { cargo: get_cargo_path(), rustc: get_rustc_path(), rustdoc: get_rustdoc_path(), rustflags: String::new(), rustdocflags: String::new(), triple, runner: vec![], } } pub(crate) fn clif_with_triple(dirs: &Dirs, triple: String) -> Compiler { let rustc_clif = RelPath::DIST.to_path(&dirs).join(get_wrapper_file_name("rustc-clif", "bin")); let rustdoc_clif = RelPath::DIST.to_path(&dirs).join(get_wrapper_file_name("rustdoc-clif", "bin")); Compiler { cargo: get_cargo_path(), rustc: rustc_clif.clone(), rustdoc: rustdoc_clif.clone(), rustflags: String::new(), rustdocflags: String::new(), triple, runner: vec![], } } pub(crate) fn set_cross_linker_and_runner(&mut self) { match self.triple.as_str() { "aarch64-unknown-linux-gnu" => { // We are cross-compiling for aarch64. Use the correct linker and run tests in qemu. self.rustflags += " -Clinker=aarch64-linux-gnu-gcc"; self.rustdocflags += " -Clinker=aarch64-linux-gnu-gcc"; self.runner = vec![ "qemu-aarch64".to_owned(), "-L".to_owned(), "/usr/aarch64-linux-gnu".to_owned(), ]; } "s390x-unknown-linux-gnu" => { // We are cross-compiling for s390x. Use the correct linker and run tests in qemu. self.rustflags += " -Clinker=s390x-linux-gnu-gcc"; self.rustdocflags += " -Clinker=s390x-linux-gnu-gcc"; self.runner = vec![ "qemu-s390x".to_owned(), "-L".to_owned(), "/usr/s390x-linux-gnu".to_owned(), ]; } "x86_64-pc-windows-gnu" => { // We are cross-compiling for Windows. Run tests in wine. self.runner = vec!["wine".to_owned()]; } _ => { println!("Unknown non-native platform"); } } } } pub(crate) struct CargoProject { source: &'static RelPath, target: &'static str, } impl CargoProject { pub(crate) const fn new(path: &'static RelPath, target: &'static str) -> CargoProject { CargoProject { source: path, target } } pub(crate) fn source_dir(&self, dirs: &Dirs) -> PathBuf { self.source.to_path(dirs) } pub(crate) fn manifest_path(&self, dirs: &Dirs) -> PathBuf { self.source_dir(dirs).join("Cargo.toml") } pub(crate) fn target_dir(&self, dirs: &Dirs) -> PathBuf { RelPath::BUILD.join(self.target).to_path(dirs) } fn base_cmd(&self, command: &str, cargo: &Path, dirs: &Dirs) -> Command { let mut cmd = Command::new(cargo); cmd.arg(command) .arg("--manifest-path") .arg(self.manifest_path(dirs)) .arg("--target-dir") .arg(self.target_dir(dirs)); cmd } fn build_cmd(&self, command: &str, compiler: &Compiler, dirs: &Dirs) -> Command { let mut cmd = self.base_cmd(command, &compiler.cargo, dirs); cmd.arg("--target").arg(&compiler.triple); cmd.env("RUSTC", &compiler.rustc); cmd.env("RUSTDOC", &compiler.rustdoc); cmd.env("RUSTFLAGS", &compiler.rustflags); cmd.env("RUSTDOCFLAGS", &compiler.rustdocflags); if !compiler.runner.is_empty() { cmd.env( format!("CARGO_TARGET_{}_RUNNER", compiler.triple.to_uppercase().replace('-', "_")), compiler.runner.join(" "), ); } cmd } #[must_use] pub(crate) fn fetch(&self, cargo: impl AsRef, dirs: &Dirs) -> Command { let mut cmd = Command::new(cargo.as_ref()); cmd.arg("fetch").arg("--manifest-path").arg(self.manifest_path(dirs)); cmd } #[must_use] pub(crate) fn clean(&self, cargo: &Path, dirs: &Dirs) -> Command { self.base_cmd("clean", cargo, dirs) } #[must_use] pub(crate) fn build(&self, compiler: &Compiler, dirs: &Dirs) -> Command { self.build_cmd("build", compiler, dirs) } #[must_use] pub(crate) fn test(&self, compiler: &Compiler, dirs: &Dirs) -> Command { self.build_cmd("test", compiler, dirs) } #[must_use] pub(crate) fn run(&self, compiler: &Compiler, dirs: &Dirs) -> Command { self.build_cmd("run", compiler, dirs) } } #[must_use] pub(crate) fn hyperfine_command( warmup: u64, runs: u64, prepare: Option<&str>, a: &str, b: &str, ) -> Command { let mut bench = Command::new("hyperfine"); if warmup != 0 { bench.arg("--warmup").arg(warmup.to_string()); } if runs != 0 { bench.arg("--runs").arg(runs.to_string()); } if let Some(prepare) = prepare { bench.arg("--prepare").arg(prepare); } bench.arg(a).arg(b); bench } #[track_caller] pub(crate) fn try_hard_link(src: impl AsRef, dst: impl AsRef) { let src = src.as_ref(); let dst = dst.as_ref(); if let Err(_) = fs::hard_link(src, dst) { fs::copy(src, dst).unwrap(); // Fallback to copying if hardlinking failed } } #[track_caller] pub(crate) fn spawn_and_wait(mut cmd: Command) { if !cmd.spawn().unwrap().wait().unwrap().success() { process::exit(1); } } // Based on the retry function in rust's src/ci/shared.sh #[track_caller] pub(crate) fn retry_spawn_and_wait(tries: u64, mut cmd: Command) { for i in 1..tries + 1 { if i != 1 { println!("Command failed. Attempt {i}/{tries}:"); } if cmd.spawn().unwrap().wait().unwrap().success() { return; } std::thread::sleep(std::time::Duration::from_secs(i * 5)); } println!("The command has failed after {tries} attempts."); process::exit(1); } #[track_caller] pub(crate) fn spawn_and_wait_with_input(mut cmd: Command, input: String) -> String { let mut child = cmd .stdin(Stdio::piped()) .stdout(Stdio::piped()) .spawn() .expect("Failed to spawn child process"); let mut stdin = child.stdin.take().expect("Failed to open stdin"); std::thread::spawn(move || { stdin.write_all(input.as_bytes()).expect("Failed to write to stdin"); }); let output = child.wait_with_output().expect("Failed to read stdout"); if !output.status.success() { process::exit(1); } String::from_utf8(output.stdout).unwrap() } pub(crate) fn copy_dir_recursively(from: &Path, to: &Path) { for entry in fs::read_dir(from).unwrap() { let entry = entry.unwrap(); let filename = entry.file_name(); if filename == "." || filename == ".." { continue; } if entry.metadata().unwrap().is_dir() { fs::create_dir(to.join(&filename)).unwrap(); copy_dir_recursively(&from.join(&filename), &to.join(&filename)); } else { fs::copy(from.join(&filename), to.join(&filename)).unwrap(); } } } pub(crate) fn is_ci() -> bool { env::var("CI").as_deref() == Ok("true") }