//! Tests for Cargo's behavior under Rustup. use cargo_test_support::paths::{home, root, CargoPathExt}; use cargo_test_support::{cargo_process, process, project}; use std::env; use std::env::consts::EXE_EXTENSION; use std::ffi::OsString; use std::fs; use std::path::{Path, PathBuf}; /// Helper to generate an executable. fn make_exe(dest: &Path, name: &str, contents: &str, env: &[(&str, PathBuf)]) -> PathBuf { let rs_name = format!("{name}.rs"); fs::write( root().join(&rs_name), &format!("fn main() {{ {contents} }}"), ) .unwrap(); let mut pb = process("rustc"); env.iter().for_each(|(key, value)| { pb.env(key, value); }); pb.arg("--edition=2021") .arg(root().join(&rs_name)) .exec() .unwrap(); let exe = Path::new(name).with_extension(EXE_EXTENSION); let output = dest.join(&exe); fs::rename(root().join(&exe), &output).unwrap(); output } fn prepend_path(path: &Path) -> OsString { let mut paths = vec![path.to_path_buf()]; paths.extend(env::split_paths(&env::var_os("PATH").unwrap_or_default())); env::join_paths(paths).unwrap() } struct RustupEnvironment { /// Path for ~/.cargo/bin cargo_bin: PathBuf, /// Path for ~/.rustup rustup_home: PathBuf, /// Path to the cargo executable in the toolchain directory /// (~/.rustup/toolchain/test-toolchain/bin/cargo.exe). cargo_toolchain_exe: PathBuf, } /// Creates an executable which prints a message and then runs the *real* rustc. fn real_rustc_wrapper(bin_dir: &Path, message: &str) -> PathBuf { let real_rustc = cargo_util::paths::resolve_executable("rustc".as_ref()).unwrap(); // The toolchain rustc needs to call the real rustc. In order to do that, // it needs to restore or clear the RUSTUP environment variables so that // if rustup is installed, it will call the correct rustc. let rustup_toolchain_setup = match std::env::var_os("RUSTUP_TOOLCHAIN") { Some(t) => format!( ".env(\"RUSTUP_TOOLCHAIN\", \"{}\")", t.into_string().unwrap() ), None => format!(".env_remove(\"RUSTUP_TOOLCHAIN\")"), }; let mut env = vec![("CARGO_RUSTUP_TEST_real_rustc", real_rustc)]; let rustup_home_setup = match std::env::var_os("RUSTUP_HOME") { Some(h) => { env.push(("CARGO_RUSTUP_TEST_RUSTUP_HOME", h.into())); format!(".env(\"RUSTUP_HOME\", env!(\"CARGO_RUSTUP_TEST_RUSTUP_HOME\"))") } None => format!(".env_remove(\"RUSTUP_HOME\")"), }; make_exe( bin_dir, "rustc", &format!( r#" eprintln!("{message}"); let r = std::process::Command::new(env!("CARGO_RUSTUP_TEST_real_rustc")) .args(std::env::args_os().skip(1)) {rustup_toolchain_setup} {rustup_home_setup} .status(); std::process::exit(r.unwrap().code().unwrap_or(2)); "# ), &env, ) } /// Creates a simulation of a rustup environment with `~/.cargo/bin` and /// `~/.rustup` directories populated with some executables that simulate /// rustup. fn simulated_rustup_environment() -> RustupEnvironment { // Set up ~/.rustup/toolchains/test-toolchain/bin with a custom rustc and cargo. let rustup_home = home().join(".rustup"); let toolchain_bin = rustup_home .join("toolchains") .join("test-toolchain") .join("bin"); toolchain_bin.mkdir_p(); let rustc_toolchain_exe = real_rustc_wrapper(&toolchain_bin, "real rustc running"); let cargo_toolchain_exe = make_exe( &toolchain_bin, "cargo", r#"panic!("cargo toolchain should not be called");"#, &[], ); // Set up ~/.cargo/bin with a typical set of rustup proxies. let cargo_bin = home().join(".cargo").join("bin"); cargo_bin.mkdir_p(); let rustc_proxy = make_exe( &cargo_bin, "rustc", &format!( r#" match std::env::args().next().unwrap().as_ref() {{ "rustc" => {{}} arg => panic!("proxy only supports rustc, got {{arg:?}}"), }} eprintln!("rustc proxy running"); let r = std::process::Command::new(env!("CARGO_RUSTUP_TEST_rustc_toolchain_exe")) .args(std::env::args_os().skip(1)) .status(); std::process::exit(r.unwrap().code().unwrap_or(2)); "# ), &[("CARGO_RUSTUP_TEST_rustc_toolchain_exe", rustc_toolchain_exe)], ); fs::hard_link( &rustc_proxy, cargo_bin.join("cargo").with_extension(EXE_EXTENSION), ) .unwrap(); fs::hard_link( &rustc_proxy, cargo_bin.join("rustup").with_extension(EXE_EXTENSION), ) .unwrap(); RustupEnvironment { cargo_bin, rustup_home, cargo_toolchain_exe, } } #[cargo_test] fn typical_rustup() { // Test behavior under a typical rustup setup with a normal toolchain. let RustupEnvironment { cargo_bin, rustup_home, cargo_toolchain_exe, } = simulated_rustup_environment(); // Set up a project and run a normal cargo build. let p = project().file("src/lib.rs", "").build(); // The path is modified so that cargo will call `rustc` from // `~/.cargo/bin/rustc to use our custom rustup proxies. let path = prepend_path(&cargo_bin); p.cargo("check") .env("RUSTUP_TOOLCHAIN", "test-toolchain") .env("RUSTUP_HOME", &rustup_home) .env("PATH", &path) .with_stderr( "\ [CHECKING] foo v0.0.1 [..] real rustc running [FINISHED] [..] ", ) .run(); // Do a similar test, but with a toolchain link that does not have cargo // (which normally would do a fallback to nightly/beta/stable). cargo_toolchain_exe.rm_rf(); p.build_dir().rm_rf(); p.cargo("check") .env("RUSTUP_TOOLCHAIN", "test-toolchain") .env("RUSTUP_HOME", &rustup_home) .env("PATH", &path) .with_stderr( "\ [CHECKING] foo v0.0.1 [..] real rustc running [FINISHED] [..] ", ) .run(); } // This doesn't work on Windows because Cargo forces the PATH to contain the // sysroot_libdir, which is actually `bin`, preventing the test from // overriding the bin directory. #[cargo_test(ignore_windows = "PATH can't be overridden on Windows")] fn custom_calls_other_cargo() { // Test behavior when a custom subcommand tries to manipulate PATH to use // a different toolchain. let RustupEnvironment { cargo_bin, rustup_home, cargo_toolchain_exe: _, } = simulated_rustup_environment(); // Create a directory with a custom toolchain (outside of the rustup universe). let custom_bin = root().join("custom-bin"); custom_bin.mkdir_p(); // `cargo` points to the real cargo. let cargo_exe = cargo_test_support::cargo_exe(); fs::hard_link(&cargo_exe, custom_bin.join(cargo_exe.file_name().unwrap())).unwrap(); // `rustc` executes the real rustc. real_rustc_wrapper(&custom_bin, "custom toolchain rustc running"); // A project that cargo-custom will try to build. let p = project().file("src/lib.rs", "").build(); // Create a custom cargo subcommand. // This will modify PATH to a custom toolchain and call cargo from that. make_exe( &cargo_bin, "cargo-custom", r#" use std::env; use std::process::Command; eprintln!("custom command running"); let mut paths = vec![std::path::PathBuf::from(env!("CARGO_RUSTUP_TEST_custom_bin"))]; paths.extend(env::split_paths(&env::var_os("PATH").unwrap_or_default())); let path = env::join_paths(paths).unwrap(); let status = Command::new("cargo") .arg("check") .current_dir(env!("CARGO_RUSTUP_TEST_project_dir")) .env("PATH", path) .status() .unwrap(); assert!(status.success()); "#, &[ ("CARGO_RUSTUP_TEST_custom_bin", custom_bin), ("CARGO_RUSTUP_TEST_project_dir", p.root()), ], ); cargo_process("custom") // Set these to simulate what would happen when running under rustup. // We want to make sure that cargo-custom does not try to use the // rustup proxies. .env("RUSTUP_TOOLCHAIN", "test-toolchain") .env("RUSTUP_HOME", &rustup_home) .with_stderr( "\ custom command running [CHECKING] foo [..] custom toolchain rustc running [FINISHED] [..] ", ) .run(); }