#![feature(rustc_private, let_chains)] #![warn(rust_2018_idioms, unused_lifetimes)] #![allow(unused_extern_crates)] use cargo_metadata::diagnostic::{Applicability, Diagnostic}; use cargo_metadata::Message; use clippy_config::ClippyConfiguration; use clippy_lints::declared_lints::LINTS; use clippy_lints::deprecated_lints::{DEPRECATED, DEPRECATED_VERSION, RENAMED}; use clippy_lints::LintInfo; use serde::{Deserialize, Serialize}; use test_utils::IS_RUSTC_TEST_SUITE; use ui_test::custom_flags::rustfix::RustfixMode; use ui_test::custom_flags::Flag; use ui_test::spanned::Spanned; use ui_test::test_result::TestRun; use ui_test::{status_emitter, Args, CommandBuilder, Config, Match, OutputConflictHandling}; use std::collections::{BTreeMap, HashMap}; use std::env::{self, set_var, var_os}; use std::ffi::{OsStr, OsString}; use std::fmt::Write; use std::path::{Path, PathBuf}; use std::sync::mpsc::{channel, Sender}; use std::{fs, iter, thread}; // Test dependencies may need an `extern crate` here to ensure that they show up // in the depinfo file (otherwise cargo thinks they are unused) extern crate futures; extern crate if_chain; extern crate itertools; extern crate parking_lot; extern crate quote; extern crate syn; extern crate tokio; mod test_utils; /// All crates used in UI tests are listed here static TEST_DEPENDENCIES: &[&str] = &[ "clippy_config", "clippy_lints", "clippy_utils", "futures", "if_chain", "itertools", "parking_lot", "quote", "regex", "serde_derive", "serde", "syn", "tokio", ]; /// Produces a string with an `--extern` flag for all UI test crate /// dependencies. /// /// The dependency files are located by parsing the depinfo file for this test /// module. This assumes the `-Z binary-dep-depinfo` flag is enabled. All test /// dependencies must be added to Cargo.toml at the project root. Test /// dependencies that are not *directly* used by this test module require an /// `extern crate` declaration. fn extern_flags() -> Vec { let current_exe_depinfo = { let mut path = env::current_exe().unwrap(); path.set_extension("d"); fs::read_to_string(path).unwrap() }; let mut crates = BTreeMap::<&str, &str>::new(); for line in current_exe_depinfo.lines() { // each dependency is expected to have a Makefile rule like `/path/to/crate-hash.rlib:` let parse_name_path = || { if line.starts_with(char::is_whitespace) { return None; } let path_str = line.strip_suffix(':')?; let path = Path::new(path_str); if !matches!(path.extension()?.to_str()?, "rlib" | "so" | "dylib" | "dll") { return None; } let (name, _hash) = path.file_stem()?.to_str()?.rsplit_once('-')?; // the "lib" prefix is not present for dll files let name = name.strip_prefix("lib").unwrap_or(name); Some((name, path_str)) }; if let Some((name, path)) = parse_name_path() { if TEST_DEPENDENCIES.contains(&name) { // A dependency may be listed twice if it is available in sysroot, // and the sysroot dependencies are listed first. As of the writing, // this only seems to apply to if_chain. crates.insert(name, path); } } } let not_found: Vec<&str> = TEST_DEPENDENCIES .iter() .copied() .filter(|n| !crates.contains_key(n)) .collect(); assert!( not_found.is_empty(), "dependencies not found in depinfo: {not_found:?}\n\ help: Make sure the `-Z binary-dep-depinfo` rust flag is enabled\n\ help: Try adding to dev-dependencies in Cargo.toml\n\ help: Be sure to also add `extern crate ...;` to tests/compile-test.rs", ); crates .into_iter() .map(|(name, path)| format!("--extern={name}={path}")) .collect() } // whether to run internal tests or not const RUN_INTERNAL_TESTS: bool = cfg!(feature = "internal"); struct TestContext { args: Args, extern_flags: Vec, diagnostic_collector: Option, collector_thread: Option>, } impl TestContext { fn new() -> Self { let mut args = Args::test().unwrap(); args.bless |= var_os("RUSTC_BLESS").is_some_and(|v| v != "0"); let (diagnostic_collector, collector_thread) = var_os("COLLECT_METADATA") .is_some() .then(DiagnosticCollector::spawn) .unzip(); Self { args, extern_flags: extern_flags(), diagnostic_collector, collector_thread, } } fn base_config(&self, test_dir: &str) -> Config { let target_dir = PathBuf::from(var_os("CARGO_TARGET_DIR").unwrap_or_else(|| "target".into())); let mut config = Config { output_conflict_handling: OutputConflictHandling::Error, filter_files: env::var("TESTNAME") .map(|filters| filters.split(',').map(str::to_string).collect()) .unwrap_or_default(), target: None, bless_command: Some("cargo uibless".into()), out_dir: target_dir.join("ui_test"), ..Config::rustc(Path::new("tests").join(test_dir)) }; let defaults = config.comment_defaults.base(); defaults.exit_status = None.into(); defaults.require_annotations = None.into(); defaults.diagnostic_code_prefix = Some(Spanned::dummy("clippy::".into())).into(); defaults.set_custom("rustfix", RustfixMode::Everything); if let Some(collector) = self.diagnostic_collector.clone() { defaults.set_custom("diagnostic-collector", collector); } config.with_args(&self.args); let current_exe_path = env::current_exe().unwrap(); let deps_path = current_exe_path.parent().unwrap(); let profile_path = deps_path.parent().unwrap(); config.program.args.extend( [ "--emit=metadata", "-Aunused", "-Ainternal_features", "-Zui-testing", "-Zdeduplicate-diagnostics=no", "-Dwarnings", &format!("-Ldependency={}", deps_path.display()), ] .map(OsString::from), ); config.program.args.extend(self.extern_flags.iter().map(OsString::from)); // Prevent rustc from creating `rustc-ice-*` files the console output is enough. config.program.envs.push(("RUSTC_ICE".into(), Some("0".into()))); if let Some(host_libs) = option_env!("HOST_LIBS") { let dep = format!("-Ldependency={}", Path::new(host_libs).join("deps").display()); config.program.args.push(dep.into()); } config.program.program = profile_path.join(if cfg!(windows) { "clippy-driver.exe" } else { "clippy-driver" }); config } } fn run_ui(cx: &TestContext) { let mut config = cx.base_config("ui"); config .program .envs .push(("CLIPPY_CONF_DIR".into(), Some("tests".into()))); ui_test::run_tests_generic( vec![config], ui_test::default_file_filter, ui_test::default_per_file_config, status_emitter::Text::from(cx.args.format), ) .unwrap(); } fn run_internal_tests(cx: &TestContext) { if !RUN_INTERNAL_TESTS { return; } let mut config = cx.base_config("ui-internal"); config.bless_command = Some("cargo uitest --features internal -- -- --bless".into()); ui_test::run_tests_generic( vec![config], ui_test::default_file_filter, ui_test::default_per_file_config, status_emitter::Text::from(cx.args.format), ) .unwrap(); } fn run_ui_toml(cx: &TestContext) { let mut config = cx.base_config("ui-toml"); config .comment_defaults .base() .normalize_stderr .push((Match::from(env::current_dir().unwrap().as_path()), b"$DIR".into())); ui_test::run_tests_generic( vec![config], ui_test::default_file_filter, |config, file_contents| { let path = file_contents.span().file; config .program .envs .push(("CLIPPY_CONF_DIR".into(), Some(path.parent().unwrap().into()))); }, status_emitter::Text::from(cx.args.format), ) .unwrap(); } // Allow `Default::default` as `OptWithSpan` is not nameable #[allow(clippy::default_trait_access)] fn run_ui_cargo(cx: &TestContext) { if IS_RUSTC_TEST_SUITE { return; } let mut config = cx.base_config("ui-cargo"); config.program.input_file_flag = CommandBuilder::cargo().input_file_flag; config.program.out_dir_flag = CommandBuilder::cargo().out_dir_flag; config.program.args = vec!["clippy".into(), "--color".into(), "never".into(), "--quiet".into()]; config .program .envs .push(("RUSTFLAGS".into(), Some("-Dwarnings".into()))); // We need to do this while we still have a rustc in the `program` field. config.fill_host_and_target().unwrap(); config.program.program.set_file_name(if cfg!(windows) { "cargo-clippy.exe" } else { "cargo-clippy" }); config.comment_defaults.base().custom.clear(); config .comment_defaults .base() .normalize_stderr .push((Match::from(env::current_dir().unwrap().as_path()), b"$DIR".into())); let ignored_32bit = |path: &Path| { // FIXME: for some reason the modules are linted in a different order for this test cfg!(target_pointer_width = "32") && path.ends_with("tests/ui-cargo/module_style/fail_mod/Cargo.toml") }; ui_test::run_tests_generic( vec![config], |path, config| { path.ends_with("Cargo.toml") .then(|| ui_test::default_any_file_filter(path, config) && !ignored_32bit(path)) }, |_config, _file_contents| {}, status_emitter::Text::from(cx.args.format), ) .unwrap(); } fn main() { set_var("CLIPPY_DISABLE_DOCS_LINKS", "true"); let cx = TestContext::new(); // The SPEEDTEST_* env variables can be used to check Clippy's performance on your PR. It runs the // affected test 1000 times and gets the average. if let Ok(speedtest) = std::env::var("SPEEDTEST") { println!("----------- STARTING SPEEDTEST -----------"); let f = match speedtest.as_str() { "ui" => run_ui, "cargo" => run_ui_cargo, "toml" => run_ui_toml, "internal" => run_internal_tests, _ => panic!("unknown speedtest: {speedtest} || accepted speedtests are: [ui, cargo, toml, internal]"), }; let iterations; if let Ok(iterations_str) = std::env::var("SPEEDTEST_ITERATIONS") { iterations = iterations_str .parse::() .unwrap_or_else(|_| panic!("Couldn't parse `{iterations_str}`, please use a valid u64")); } else { iterations = 1000; } let mut sum = 0; for _ in 0..iterations { let start = std::time::Instant::now(); f(&cx); sum += start.elapsed().as_millis(); } println!( "average {} time: {} millis.", speedtest.to_uppercase(), sum / u128::from(iterations) ); } else { run_ui(&cx); run_ui_toml(&cx); run_ui_cargo(&cx); run_internal_tests(&cx); drop(cx.diagnostic_collector); ui_cargo_toml_metadata(); if let Some(thread) = cx.collector_thread { thread.join().unwrap(); } } } fn ui_cargo_toml_metadata() { let ui_cargo_path = Path::new("tests/ui-cargo"); let cargo_common_metadata_path = ui_cargo_path.join("cargo_common_metadata"); let publish_exceptions = ["fail_publish", "fail_publish_true", "pass_publish_empty"].map(|path| cargo_common_metadata_path.join(path)); for entry in walkdir::WalkDir::new(ui_cargo_path) { let entry = entry.unwrap(); let path = entry.path(); if path.file_name() != Some(OsStr::new("Cargo.toml")) { continue; } let toml = fs::read_to_string(path).unwrap().parse::().unwrap(); let package = toml.as_table().unwrap().get("package").unwrap().as_table().unwrap(); let name = package.get("name").unwrap().as_str().unwrap().replace('-', "_"); assert!( path.parent() .unwrap() .components() .map(|component| component.as_os_str().to_string_lossy().replace('-', "_")) .any(|s| *s == name) || path.starts_with(&cargo_common_metadata_path), "{path:?} has incorrect package name" ); let publish = package.get("publish").and_then(toml::Value::as_bool).unwrap_or(true); assert!( !publish || publish_exceptions.contains(&path.parent().unwrap().to_path_buf()), "{path:?} lacks `publish = false`" ); } } #[derive(Deserialize)] #[serde(untagged)] enum DiagnosticOrMessage { Diagnostic(Diagnostic), Message(Message), } /// Collects applicabilities from the diagnostics produced for each UI test, producing the /// `util/gh-pages/lints.json` file used by #[derive(Debug, Clone)] struct DiagnosticCollector { sender: Sender>, } impl DiagnosticCollector { #[allow(clippy::assertions_on_constants)] fn spawn() -> (Self, thread::JoinHandle<()>) { assert!(!IS_RUSTC_TEST_SUITE && !RUN_INTERNAL_TESTS); let (sender, receiver) = channel::>(); let handle = thread::spawn(|| { let mut applicabilities = HashMap::new(); for stderr in receiver { for line in stderr.split(|&byte| byte == b'\n') { let diag = match serde_json::from_slice(line) { Ok(DiagnosticOrMessage::Diagnostic(diag)) => diag, Ok(DiagnosticOrMessage::Message(Message::CompilerMessage(message))) => message.message, _ => continue, }; if let Some(lint) = diag.code.as_ref().and_then(|code| code.code.strip_prefix("clippy::")) { let applicability = applicabilities .entry(lint.to_string()) .or_insert(Applicability::Unspecified); let diag_applicability = diag .children .iter() .flat_map(|child| &child.spans) .filter_map(|span| span.suggestion_applicability.clone()) .max_by_key(applicability_ord); if let Some(diag_applicability) = diag_applicability && applicability_ord(&diag_applicability) > applicability_ord(applicability) { *applicability = diag_applicability; } } } } let configs = clippy_config::get_configuration_metadata(); let mut metadata: Vec = LINTS .iter() .map(|lint| LintMetadata::new(lint, &applicabilities, &configs)) .chain( iter::zip(DEPRECATED, DEPRECATED_VERSION) .map(|((lint, reason), version)| LintMetadata::new_deprecated(lint, reason, version)), ) .collect(); metadata.sort_unstable_by(|a, b| a.id.cmp(&b.id)); let json = serde_json::to_string_pretty(&metadata).unwrap(); fs::write("util/gh-pages/lints.json", json).unwrap(); }); (Self { sender }, handle) } } fn applicability_ord(applicability: &Applicability) -> u8 { match applicability { Applicability::MachineApplicable => 4, Applicability::HasPlaceholders => 3, Applicability::MaybeIncorrect => 2, Applicability::Unspecified => 1, _ => unimplemented!(), } } impl Flag for DiagnosticCollector { fn post_test_action( &self, _config: &ui_test::per_test_config::TestConfig<'_>, _cmd: &mut std::process::Command, output: &std::process::Output, _build_manager: &ui_test::build_manager::BuildManager<'_>, ) -> Result, ui_test::Errored> { if !output.stderr.is_empty() { self.sender.send(output.stderr.clone()).unwrap(); } Ok(Vec::new()) } fn clone_inner(&self) -> Box { Box::new(self.clone()) } fn must_be_unique(&self) -> bool { true } } #[derive(Debug, Serialize)] struct LintMetadata { id: String, id_location: Option<&'static str>, group: &'static str, level: &'static str, docs: String, version: &'static str, applicability: Applicability, } impl LintMetadata { fn new(lint: &LintInfo, applicabilities: &HashMap, configs: &[ClippyConfiguration]) -> Self { let name = lint.name_lower(); let applicability = applicabilities .get(&name) .cloned() .unwrap_or(Applicability::Unspecified); let past_names = RENAMED .iter() .filter(|(_, new_name)| new_name.strip_prefix("clippy::") == Some(&name)) .map(|(old_name, _)| old_name.strip_prefix("clippy::").unwrap()) .collect::>(); let mut docs = lint.explanation.to_string(); if !past_names.is_empty() { docs.push_str("\n### Past names\n\n"); for past_name in past_names { writeln!(&mut docs, " * {past_name}").unwrap(); } } let configs: Vec<_> = configs .iter() .filter(|conf| conf.lints.contains(&name.as_str())) .collect(); if !configs.is_empty() { docs.push_str("\n### Configuration\n\n"); for config in configs { writeln!(&mut docs, "{config}").unwrap(); } } Self { id: name, id_location: Some(lint.location), group: lint.category_str(), level: lint.lint.default_level.as_str(), docs, version: lint.version.unwrap(), applicability, } } fn new_deprecated(name: &str, reason: &str, version: &'static str) -> Self { // The reason starts with a lowercase letter and ends without a period. // This needs to be fixed for the website. let mut reason = reason.to_owned(); if let Some(reason) = reason.get_mut(0..1) { reason.make_ascii_uppercase(); } Self { id: name.strip_prefix("clippy::").unwrap().into(), id_location: None, group: "deprecated", level: "none", version, docs: format!( "### What it does\n\n\ Nothing. This lint has been deprecated\n\n\ ### Deprecation reason\n\n{reason}.\n", ), applicability: Applicability::Unspecified, } } }