use tracing::{instrument, Span}; use tracing_error::{ErrorLayer, InstrumentResult, SpanTrace, TracedError}; #[instrument(level = "trace", target = "profile::indexing")] fn foo() -> Result<(), TracedError> { let _ = bar(40, 2); bar(40, 2) } #[derive(Debug)] pub enum Error { XTooBig, } impl std::fmt::Display for Error { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_str("x too big") } } impl std::error::Error for Error {} #[instrument(level = "trace", target = "profile::indexing")] fn bar(x: u32, y: u32) -> Result<(), TracedError> { let handle_ok = spawn_in_current_scope(move || baz(y)); let handle = spawn_in_current_scope(move || baz(x + y)); handle_ok.join().unwrap().and(handle.join().unwrap()) } pub fn spawn_in_current_scope(f: F) -> std::thread::JoinHandle where F: FnOnce() -> T + Send + 'static, T: Send + 'static, { let current = Span::current(); std::thread::spawn(move || { let span = tracing::trace_span!(parent: ¤t, "thread_spawn", id = ?std::thread::current().id(), name = tracing::field::Empty); if let Some(name) = std::thread::current().name() { span.record("name", name); } span.in_scope(f) }) } #[instrument(level = "trace", target = "profile::indexing")] fn baz(x: u32) -> Result<(), TracedError> { if x > 10 { fibo_recursive(10); return Err(Error::XTooBig).in_current_span(); } Ok(()) } #[instrument(level = "trace", target = "profile::indexing")] fn fibo_recursive(n: u32) -> u32 { if n == 0 { return 1; } if n == 1 { return 2; } return fibo_recursive(n - 1) - fibo_recursive(n - 2); } use tracing_error::ExtractSpanTrace as _; use tracing_subscriber::layer::SubscriberExt as _; use tracing_trace::processor; fn on_panic(info: &std::panic::PanicInfo) { let info = info.to_string(); let trace = SpanTrace::capture(); tracing::error!(%info, %trace); } fn main() { let (mut trace, profiling_layer) = tracing_trace::TraceWriter::new(std::fs::File::create("trace.json").unwrap(), true); let subscriber = tracing_subscriber::registry() // any number of other subscriber layers may be added before or // after the `ErrorLayer`... .with(ErrorLayer::default()) .with(profiling_layer) /*.with( tracing_subscriber::fmt::layer() .with_line_number(true) .with_span_events(FmtSpan::FULL), /*.with_filter( tracing_subscriber::filter::LevelFilter::from_level(tracing::Level::TRACE).and( tracing_subscriber::filter::Targets::new() .with_target("profile", tracing::Level::TRACE) .not(), ), )*/ )*/; // set the subscriber as the default for the application tracing::subscriber::set_global_default(subscriber).unwrap(); std::panic::set_hook(Box::new(on_panic)); let res = foo(); if let Err(error) = res { print_extracted_spantraces(&error) } while trace.try_receive().unwrap().is_continue() {} trace.flush().unwrap(); let trace = tracing_trace::TraceReader::new(std::fs::File::open("trace.json").unwrap()); let profile = processor::firefox_profiler::to_firefox_profile(trace, "test").unwrap(); serde_json::to_writer(std::fs::File::create("processed.json").unwrap(), &profile).unwrap(); } fn print_extracted_spantraces(error: &(dyn std::error::Error + 'static)) { let mut error = Some(error); let mut ind = 0; eprintln!("Error:"); while let Some(err) = error { if let Some(spantrace) = err.span_trace() { eprintln!("found a spantrace:\n{}", color_spantrace::colorize(spantrace)); } else { eprintln!("{:>4}: {}", ind, err); } error = err.source(); ind += 1; } }