//! This test is meant to only be run in CI. To run it locally use: //! //! `env INTEGRATION=rust-lang/log cargo test --test integration --features=integration` //! //! You can use a different `INTEGRATION` value to test different repositories. //! //! This test will clone the specified repository and run Clippy on it. The test succeeds, if //! Clippy doesn't produce an ICE. Lint warnings are ignored by this test. #![cfg(feature = "integration")] #![cfg_attr(feature = "deny-warnings", deny(warnings))] #![warn(rust_2018_idioms, unused_lifetimes)] use std::env; use std::ffi::OsStr; use std::process::Command; #[cfg(not(windows))] const CARGO_CLIPPY: &str = "cargo-clippy"; #[cfg(windows)] const CARGO_CLIPPY: &str = "cargo-clippy.exe"; #[cfg_attr(feature = "integration", test)] fn integration_test() { let repo_name = env::var("INTEGRATION").expect("`INTEGRATION` var not set"); let repo_url = format!("https://github.com/{repo_name}"); let crate_name = repo_name .split('/') .nth(1) .expect("repo name should have format `/`"); let mut repo_dir = tempfile::tempdir().expect("couldn't create temp dir").into_path(); repo_dir.push(crate_name); let st = Command::new("git") .args([ OsStr::new("clone"), OsStr::new("--depth=1"), OsStr::new(&repo_url), OsStr::new(&repo_dir), ]) .status() .expect("unable to run git"); assert!(st.success()); let root_dir = std::path::PathBuf::from(env!("CARGO_MANIFEST_DIR")); let target_dir = std::path::Path::new(&root_dir).join("target"); let clippy_binary = target_dir.join(env!("PROFILE")).join(CARGO_CLIPPY); let output = Command::new(clippy_binary) .current_dir(repo_dir) .env("RUST_BACKTRACE", "full") .env("CARGO_TARGET_DIR", target_dir) .args([ "clippy", "--all-targets", "--all-features", "--message-format=short", "--", "--cap-lints", "warn", "-Wclippy::pedantic", "-Wclippy::nursery", ]) .output() .expect("unable to run clippy"); let stderr = String::from_utf8_lossy(&output.stderr); // debug: eprintln!("{stderr}"); // this is an internal test to make sure we would correctly panic on a span_delayed_bug if repo_name == "matthiaskrgr/clippy_ci_panic_test" { // we need to kind of switch around our logic here: // if we find a panic, everything is fine, if we don't panic, SOMETHING is broken about our testing // the repo basically just contains a span_delayed_bug that forces rustc/clippy to panic: /* #![feature(rustc_attrs)] #[rustc_error(delayed_bug_from_inside_query)] fn main() {} */ if stderr.find("error: internal compiler error").is_some() { eprintln!("we saw that we intentionally panicked, yay"); return; } panic!("panic caused by span_delayed_bug was NOT detected! Something is broken!"); } if let Some(backtrace_start) = stderr.find("error: internal compiler error") { static BACKTRACE_END_MSG: &str = "end of query stack"; let backtrace_end = stderr[backtrace_start..] .find(BACKTRACE_END_MSG) .expect("end of backtrace not found"); panic!( "internal compiler error\nBacktrace:\n\n{}", &stderr[backtrace_start..backtrace_start + backtrace_end + BACKTRACE_END_MSG.len()] ); } else if stderr.contains("query stack during panic") { panic!("query stack during panic in the output"); } else if stderr.contains("E0463") { // Encountering E0463 (can't find crate for `x`) did _not_ cause the build to fail in the // past. Even though it should have. That's why we explicitly panic here. // See PR #3552 and issue #3523 for more background. panic!("error: E0463"); } else if stderr.contains("E0514") { panic!("incompatible crate versions"); } else if stderr.contains("failed to run `rustc` to learn about target-specific information") { panic!("couldn't find librustc_driver, consider setting `LD_LIBRARY_PATH`"); } else { assert!( !stderr.contains("toolchain") || !stderr.contains("is not installed"), "missing required toolchain" ); } match output.status.code() { Some(0) => println!("Compilation successful"), Some(code) => eprintln!("Compilation failed. Exit code: {code}"), None => panic!("Process terminated by signal"), } }