//! This crate allows tools to enable rust logging without having to magically //! match rustc's tracing crate version. //! //! For example if someone is working on rustc_ast and wants to write some //! minimal code against it to run in a debugger, with access to the `debug!` //! logs emitted by rustc_ast, that can be done by writing: //! //! ```toml //! [dependencies] //! rustc_ast = { path = "../rust/compiler/rustc_ast" } //! rustc_log = { path = "../rust/compiler/rustc_log" } //! rustc_span = { path = "../rust/compiler/rustc_span" } //! ``` //! //! ``` //! fn main() { //! rustc_log::init_rustc_env_logger().unwrap(); //! //! let edition = rustc_span::edition::Edition::Edition2021; //! rustc_span::create_session_globals_then(edition, || { //! /* ... */ //! }); //! } //! ``` //! //! Now `RUSTC_LOG=debug cargo run` will run your minimal main.rs and show //! rustc's debug logging. In a workflow like this, one might also add //! `std::env::set_var("RUSTC_LOG", "debug")` to the top of main so that `cargo //! run` by itself is sufficient to get logs. //! //! The reason rustc_log is a tiny separate crate, as opposed to exposing the //! same things in rustc_driver only, is to enable the above workflow. If you //! had to depend on rustc_driver in order to turn on rustc's debug logs, that's //! an enormously bigger dependency tree; every change you make to rustc_ast (or //! whichever piece of the compiler you are interested in) would involve //! rebuilding all the rest of rustc up to rustc_driver in order to run your //! main.rs. Whereas by depending only on rustc_log and the few crates you are //! debugging, you can make changes inside those crates and quickly run main.rs //! to read the debug logs. #![deny(rustc::untranslatable_diagnostic)] #![deny(rustc::diagnostic_outside_of_impl)] #![feature(is_terminal)] use std::env::{self, VarError}; use std::fmt::{self, Display}; use std::io::{self, IsTerminal}; use tracing_core::{Event, Subscriber}; use tracing_subscriber::filter::{Directive, EnvFilter, LevelFilter}; use tracing_subscriber::fmt::{ format::{self, FormatEvent, FormatFields}, FmtContext, }; use tracing_subscriber::layer::SubscriberExt; pub fn init_rustc_env_logger() -> Result<(), Error> { init_rustc_env_logger_with_backtrace_option(&None) } pub fn init_rustc_env_logger_with_backtrace_option( backtrace_target: &Option, ) -> Result<(), Error> { init_env_logger_with_backtrace_option("RUSTC_LOG", backtrace_target) } /// In contrast to `init_rustc_env_logger` this allows you to choose an env var /// other than `RUSTC_LOG`. pub fn init_env_logger(env: &str) -> Result<(), Error> { init_env_logger_with_backtrace_option(env, &None) } pub fn init_env_logger_with_backtrace_option( env: &str, backtrace_target: &Option, ) -> Result<(), Error> { let filter = match env::var(env) { Ok(env) => EnvFilter::new(env), _ => EnvFilter::default().add_directive(Directive::from(LevelFilter::WARN)), }; let color_logs = match env::var(String::from(env) + "_COLOR") { Ok(value) => match value.as_ref() { "always" => true, "never" => false, "auto" => stderr_isatty(), _ => return Err(Error::InvalidColorValue(value)), }, Err(VarError::NotPresent) => stderr_isatty(), Err(VarError::NotUnicode(_value)) => return Err(Error::NonUnicodeColorValue), }; let verbose_entry_exit = match env::var_os(String::from(env) + "_ENTRY_EXIT") { None => false, Some(v) => &v != "0", }; let layer = tracing_tree::HierarchicalLayer::default() .with_writer(io::stderr) .with_indent_lines(true) .with_ansi(color_logs) .with_targets(true) .with_verbose_exit(verbose_entry_exit) .with_verbose_entry(verbose_entry_exit) .with_indent_amount(2); #[cfg(parallel_compiler)] let layer = layer.with_thread_ids(true).with_thread_names(true); let subscriber = tracing_subscriber::Registry::default().with(filter).with(layer); match backtrace_target { Some(str) => { let fmt_layer = tracing_subscriber::fmt::layer() .with_writer(io::stderr) .without_time() .event_format(BacktraceFormatter { backtrace_target: str.to_string() }); let subscriber = subscriber.with(fmt_layer); tracing::subscriber::set_global_default(subscriber).unwrap(); } None => { tracing::subscriber::set_global_default(subscriber).unwrap(); } }; Ok(()) } struct BacktraceFormatter { backtrace_target: String, } impl FormatEvent for BacktraceFormatter where S: Subscriber + for<'a> tracing_subscriber::registry::LookupSpan<'a>, N: for<'a> FormatFields<'a> + 'static, { fn format_event( &self, _ctx: &FmtContext<'_, S, N>, mut writer: format::Writer<'_>, event: &Event<'_>, ) -> fmt::Result { let target = event.metadata().target(); if !target.contains(&self.backtrace_target) { return Ok(()); } let backtrace = std::backtrace::Backtrace::capture(); writeln!(writer, "stack backtrace: \n{:?}", backtrace) } } pub fn stdout_isatty() -> bool { io::stdout().is_terminal() } pub fn stderr_isatty() -> bool { io::stderr().is_terminal() } #[derive(Debug)] pub enum Error { InvalidColorValue(String), NonUnicodeColorValue, } impl std::error::Error for Error {} impl Display for Error { fn fmt(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result { match self { Error::InvalidColorValue(value) => write!( formatter, "invalid log color value '{value}': expected one of always, never, or auto", ), Error::NonUnicodeColorValue => write!( formatter, "non-Unicode log color value: expected one of always, never, or auto", ), } } }