pub use crate::passes::BoxedResolver; use crate::util; use rustc_ast::token; use rustc_ast::{self as ast, LitKind, MetaItemKind}; use rustc_codegen_ssa::traits::CodegenBackend; use rustc_data_structures::fx::{FxHashMap, FxHashSet}; use rustc_data_structures::sync::Lrc; use rustc_data_structures::OnDrop; use rustc_errors::registry::Registry; use rustc_errors::{ErrorGuaranteed, Handler}; use rustc_lint::LintStore; use rustc_middle::ty; use rustc_parse::maybe_new_parser_from_source_str; use rustc_query_impl::QueryCtxt; use rustc_session::config::{self, CheckCfg, ErrorOutputType, Input, OutputFilenames}; use rustc_session::lint; use rustc_session::parse::{CrateConfig, ParseSess}; use rustc_session::Session; use rustc_session::{early_error, CompilerIO}; use rustc_span::source_map::{FileLoader, FileName}; use rustc_span::symbol::sym; use std::path::PathBuf; use std::result; pub type Result = result::Result; /// Represents a compiler session. Note that every `Compiler` contains a /// `Session`, but `Compiler` also contains some things that cannot be in /// `Session`, due to `Session` being in a crate that has many fewer /// dependencies than this crate. /// /// Can be used to run `rustc_interface` queries. /// Created by passing [`Config`] to [`run_compiler`]. pub struct Compiler { pub(crate) sess: Lrc, codegen_backend: Lrc>, pub(crate) register_lints: Option>, pub(crate) override_queries: Option, } impl Compiler { pub fn session(&self) -> &Lrc { &self.sess } pub fn codegen_backend(&self) -> &Lrc> { &self.codegen_backend } pub fn register_lints(&self) -> &Option> { &self.register_lints } pub fn build_output_filenames( &self, sess: &Session, attrs: &[ast::Attribute], ) -> OutputFilenames { util::build_output_filenames(attrs, sess) } } /// Converts strings provided as `--cfg [cfgspec]` into a `crate_cfg`. pub fn parse_cfgspecs(cfgspecs: Vec) -> FxHashSet<(String, Option)> { rustc_span::create_default_session_if_not_set_then(move |_| { let cfg = cfgspecs .into_iter() .map(|s| { let sess = ParseSess::with_silent_emitter(Some(format!( "this error occurred on the command line: `--cfg={s}`" ))); let filename = FileName::cfg_spec_source_code(&s); macro_rules! error { ($reason: expr) => { early_error( ErrorOutputType::default(), &format!(concat!("invalid `--cfg` argument: `{}` (", $reason, ")"), s), ); }; } match maybe_new_parser_from_source_str(&sess, filename, s.to_string()) { Ok(mut parser) => match parser.parse_meta_item() { Ok(meta_item) if parser.token == token::Eof => { if meta_item.path.segments.len() != 1 { error!("argument key must be an identifier"); } match &meta_item.kind { MetaItemKind::List(..) => {} MetaItemKind::NameValue(lit) if !lit.kind.is_str() => { error!("argument value must be a string"); } MetaItemKind::NameValue(..) | MetaItemKind::Word => { let ident = meta_item.ident().expect("multi-segment cfg key"); return (ident.name, meta_item.value_str()); } } } Ok(..) => {} Err(err) => err.cancel(), }, Err(errs) => drop(errs), } // If the user tried to use a key="value" flag, but is missing the quotes, provide // a hint about how to resolve this. if s.contains('=') && !s.contains("=\"") && !s.ends_with('"') { error!(concat!( r#"expected `key` or `key="value"`, ensure escaping is appropriate"#, r#" for your shell, try 'key="value"' or key=\"value\""# )); } else { error!(r#"expected `key` or `key="value"`"#); } }) .collect::(); cfg.into_iter().map(|(a, b)| (a.to_string(), b.map(|b| b.to_string()))).collect() }) } /// Converts strings provided as `--check-cfg [specs]` into a `CheckCfg`. pub fn parse_check_cfg(specs: Vec) -> CheckCfg { rustc_span::create_default_session_if_not_set_then(move |_| { let mut cfg = CheckCfg::default(); 'specs: for s in specs { let sess = ParseSess::with_silent_emitter(Some(format!( "this error occurred on the command line: `--check-cfg={s}`" ))); let filename = FileName::cfg_spec_source_code(&s); macro_rules! error { ($reason: expr) => { early_error( ErrorOutputType::default(), &format!( concat!("invalid `--check-cfg` argument: `{}` (", $reason, ")"), s ), ); }; } match maybe_new_parser_from_source_str(&sess, filename, s.to_string()) { Ok(mut parser) => match parser.parse_meta_item() { Ok(meta_item) if parser.token == token::Eof => { if let Some(args) = meta_item.meta_item_list() { if meta_item.has_name(sym::names) { let names_valid = cfg.names_valid.get_or_insert_with(|| FxHashSet::default()); for arg in args { if arg.is_word() && arg.ident().is_some() { let ident = arg.ident().expect("multi-segment cfg key"); names_valid.insert(ident.name.to_string()); } else { error!("`names()` arguments must be simple identifiers"); } } continue 'specs; } else if meta_item.has_name(sym::values) { if let Some((name, values)) = args.split_first() { if name.is_word() && name.ident().is_some() { let ident = name.ident().expect("multi-segment cfg key"); let ident_values = cfg .values_valid .entry(ident.name.to_string()) .or_insert_with(|| FxHashSet::default()); for val in values { if let Some(LitKind::Str(s, _)) = val.lit().map(|lit| &lit.kind) { ident_values.insert(s.to_string()); } else { error!( "`values()` arguments must be string literals" ); } } continue 'specs; } else { error!( "`values()` first argument must be a simple identifier" ); } } else if args.is_empty() { cfg.well_known_values = true; continue 'specs; } } } } Ok(..) => {} Err(err) => err.cancel(), }, Err(errs) => drop(errs), } error!( "expected `names(name1, name2, ... nameN)` or \ `values(name, \"value1\", \"value2\", ... \"valueN\")`" ); } if let Some(names_valid) = &mut cfg.names_valid { names_valid.extend(cfg.values_valid.keys().cloned()); } cfg }) } /// The compiler configuration pub struct Config { /// Command line options pub opts: config::Options, /// cfg! configuration in addition to the default ones pub crate_cfg: FxHashSet<(String, Option)>, pub crate_check_cfg: CheckCfg, pub input: Input, pub output_dir: Option, pub output_file: Option, pub file_loader: Option>, pub lint_caps: FxHashMap, /// This is a callback from the driver that is called when [`ParseSess`] is created. pub parse_sess_created: Option>, /// This is a callback from the driver that is called when we're registering lints; /// it is called during plugin registration when we have the LintStore in a non-shared state. /// /// Note that if you find a Some here you probably want to call that function in the new /// function being registered. pub register_lints: Option>, /// This is a callback from the driver that is called just after we have populated /// the list of queries. /// /// The second parameter is local providers and the third parameter is external providers. pub override_queries: Option, /// This is a callback from the driver that is called to create a codegen backend. pub make_codegen_backend: Option Box + Send>>, /// Registry of diagnostics codes. pub registry: Registry, } // JUSTIFICATION: before session exists, only config #[allow(rustc::bad_opt_access)] pub fn run_compiler(config: Config, f: impl FnOnce(&Compiler) -> R + Send) -> R { trace!("run_compiler"); util::run_in_thread_pool_with_globals( config.opts.edition, config.opts.unstable_opts.threads, || { crate::callbacks::setup_callbacks(); let registry = &config.registry; let temps_dir = config.opts.unstable_opts.temps_dir.as_deref().map(PathBuf::from); let (mut sess, codegen_backend) = util::create_session( config.opts, config.crate_cfg, config.crate_check_cfg, config.file_loader, CompilerIO { input: config.input, output_dir: config.output_dir, output_file: config.output_file, temps_dir, }, config.lint_caps, config.make_codegen_backend, registry.clone(), ); if let Some(parse_sess_created) = config.parse_sess_created { parse_sess_created(&mut sess.parse_sess); } let compiler = Compiler { sess: Lrc::new(sess), codegen_backend: Lrc::new(codegen_backend), register_lints: config.register_lints, override_queries: config.override_queries, }; rustc_span::with_source_map(compiler.sess.parse_sess.clone_source_map(), move || { let r = { let _sess_abort_error = OnDrop(|| { compiler.sess.finish_diagnostics(registry); }); f(&compiler) }; let prof = compiler.sess.prof.clone(); prof.generic_activity("drop_compiler").run(move || drop(compiler)); r }) }, ) } pub fn try_print_query_stack(handler: &Handler, num_frames: Option) { eprintln!("query stack during panic:"); // Be careful relying on global state here: this code is called from // a panic hook, which means that the global `Handler` may be in a weird // state if it was responsible for triggering the panic. let i = ty::tls::with_context_opt(|icx| { if let Some(icx) = icx { QueryCtxt::from_tcx(icx.tcx).try_print_query_stack(icx.query, handler, num_frames) } else { 0 } }); if num_frames == None || num_frames >= Some(i) { eprintln!("end of query stack"); } else { eprintln!("we're just showing a limited slice of the query stack"); } }