//! Discovery of `cargo` & `rustc` executables. #![warn(rust_2018_idioms, unused_lifetimes, semicolon_in_expressions_from_macros)] use std::{env, iter, path::PathBuf}; pub fn cargo() -> PathBuf { get_path_for_executable("cargo") } pub fn rustc() -> PathBuf { get_path_for_executable("rustc") } pub fn rustup() -> PathBuf { get_path_for_executable("rustup") } pub fn rustfmt() -> PathBuf { get_path_for_executable("rustfmt") } /// Return a `PathBuf` to use for the given executable. /// /// E.g., `get_path_for_executable("cargo")` may return just `cargo` if that /// gives a valid Cargo executable; or it may return a full path to a valid /// Cargo. fn get_path_for_executable(executable_name: &'static str) -> PathBuf { // The current implementation checks three places for an executable to use: // 1) Appropriate environment variable (erroring if this is set but not a usable executable) // example: for cargo, this checks $CARGO environment variable; for rustc, $RUSTC; etc // 2) `` // example: for cargo, this tries just `cargo`, which will succeed if `cargo` is on the $PATH // 3) `~/.cargo/bin/` // example: for cargo, this tries ~/.cargo/bin/cargo // It seems that this is a reasonable place to try for cargo, rustc, and rustup let env_var = executable_name.to_ascii_uppercase(); if let Some(path) = env::var_os(&env_var) { return path.into(); } if lookup_in_path(executable_name) { return executable_name.into(); } if let Some(mut path) = home::home_dir() { path.push(".cargo"); path.push("bin"); path.push(executable_name); if let Some(path) = probe(path) { return path; } } executable_name.into() } fn lookup_in_path(exec: &str) -> bool { let paths = env::var_os("PATH").unwrap_or_default(); env::split_paths(&paths).map(|path| path.join(exec)).find_map(probe).is_some() } fn probe(path: PathBuf) -> Option { let with_extension = match env::consts::EXE_EXTENSION { "" => None, it => Some(path.with_extension(it)), }; iter::once(path).chain(with_extension).find(|it| it.is_file()) }