//! A `Subscriber` for formatting and logging `tracing` data. //! //! # Overview //! //! [`tracing`] is a framework for instrumenting Rust programs with context-aware, //! structured, event-based diagnostic information. This crate provides an //! implementation of the [`Subscriber`] trait that records `tracing`'s `Event`s //! and `Span`s by formatting them as text and logging them to stdout. //! //! # Usage //! //! First, add this to your `Cargo.toml` file: //! //! ```toml //! [dependencies] //! tracing-subscriber = "0.3" //! ``` //! //! *Compiler support: [requires `rustc` 1.49+][msrv]* //! //! [msrv]: super#supported-rust-versions //! //! Add the following to your executable to initialize the default subscriber: //! ```rust //! use tracing_subscriber; //! //! tracing_subscriber::fmt::init(); //! ``` //! //! ## Filtering Events with Environment Variables //! //! The default subscriber installed by `init` enables you to filter events //! at runtime using environment variables (using the [`EnvFilter`]). //! //! The filter syntax is a superset of the [`env_logger`] syntax. //! //! For example: //! - Setting `RUST_LOG=debug` enables all `Span`s and `Event`s //! set to the log level `DEBUG` or higher //! - Setting `RUST_LOG=my_crate=trace` enables `Span`s and `Event`s //! in `my_crate` at all log levels //! //! **Note**: This should **not** be called by libraries. Libraries should use //! [`tracing`] to publish `tracing` `Event`s. //! //! # Configuration //! //! You can configure a subscriber instead of using the defaults with //! the following functions: //! //! ### Subscriber //! //! The [`FmtSubscriber`] formats and records `tracing` events as line-oriented logs. //! You can create one by calling: //! //! ```rust //! let subscriber = tracing_subscriber::fmt() //! // ... add configuration //! .finish(); //! ``` //! //! You can find the configuration methods for [`FmtSubscriber`] in //! [`SubscriberBuilder`]. //! //! ## Formatters //! //! The output format used by the layer and subscriber in this module is //! represented by implementing the [`FormatEvent`] trait, and can be //! customized. This module provides a number of formatter implementations: //! //! * [`format::Full`]: The default formatter. This emits human-readable, //! single-line logs for each event that occurs, with the current span context //! displayed before the formatted representation of the event. See //! [here](format::Full#example-output) for sample output. //! //! * [`format::Compact`]: A variant of the default formatter, optimized for //! short line lengths. Fields from the current span context are appended to //! the fields of the formatted event. See //! [here](format::Compact#example-output) for sample output. //! //! * [`format::Pretty`]: Emits excessively pretty, multi-line logs, optimized //! for human readability. This is primarily intended to be used in local //! development and debugging, or for command-line applications, where //! automated analysis and compact storage of logs is less of a priority than //! readability and visual appeal. See [here](format::Pretty#example-output) //! for sample output. //! //! * [`format::Json`]: Outputs newline-delimited JSON logs. This is intended //! for production use with systems where structured logs are consumed as JSON //! by analysis and viewing tools. The JSON output is not optimized for human //! readability. See [here](format::Json#example-output) for sample output. //! //! ### Customizing Formatters //! //! The formatting of log lines for spans and events is controlled by two //! traits, [`FormatEvent`] and [`FormatFields`]. The [`FormatEvent`] trait //! determines the overall formatting of the log line, such as what information //! from the event's metadata and span context is included and in what order. //! The [`FormatFields`] trait determines how fields — both the event's //! fields and fields on spans — are formatted. //! //! The [`fmt::format`] module provides several types which implement these traits, //! many of which expose additional configuration options to customize their //! output. The [`format::Format`] type implements common configuration used by //! all the formatters provided in this crate, and can be used as a builder to //! set specific formatting settings. For example: //! //! ``` //! use tracing_subscriber::fmt; //! //! // Configure a custom event formatter //! let format = fmt::format() //! .with_level(false) // don't include levels in formatted output //! .with_target(false) // don't include targets //! .with_thread_ids(true) // include the thread ID of the current thread //! .with_thread_names(true) // include the name of the current thread //! .compact(); // use the `Compact` formatting style. //! //! // Create a `fmt` subscriber that uses our custom event format, and set it //! // as the default. //! tracing_subscriber::fmt() //! .event_format(format) //! .init(); //! ``` //! //! However, if a specific output format is needed, other crates can //! also implement [`FormatEvent`] and [`FormatFields`]. See those traits' //! documentation for details on how to implement them. //! //! ## Filters //! //! If you want to filter the `tracing` `Events` based on environment //! variables, you can use the [`EnvFilter`] as follows: //! //! ```rust //! use tracing_subscriber::EnvFilter; //! //! let filter = EnvFilter::from_default_env(); //! ``` //! //! As mentioned above, the [`EnvFilter`] allows `Span`s and `Event`s to //! be filtered at runtime by setting the `RUST_LOG` environment variable. //! //! You can find the other available [`filter`]s in the documentation. //! //! ### Using Your Subscriber //! //! Finally, once you have configured your `Subscriber`, you need to //! configure your executable to use it. //! //! A subscriber can be installed globally using: //! ```rust //! use tracing; //! use tracing_subscriber::FmtSubscriber; //! //! let subscriber = FmtSubscriber::new(); //! //! tracing::subscriber::set_global_default(subscriber) //! .map_err(|_err| eprintln!("Unable to set global default subscriber")); //! // Note this will only fail if you try to set the global default //! // subscriber multiple times //! ``` //! //! ### Composing Layers //! //! Composing an [`EnvFilter`] `Layer` and a [format `Layer`][super::fmt::Layer]: //! //! ```rust //! use tracing_subscriber::{fmt, EnvFilter}; //! use tracing_subscriber::prelude::*; //! //! let fmt_layer = fmt::layer() //! .with_target(false); //! let filter_layer = EnvFilter::try_from_default_env() //! .or_else(|_| EnvFilter::try_new("info")) //! .unwrap(); //! //! tracing_subscriber::registry() //! .with(filter_layer) //! .with(fmt_layer) //! .init(); //! ``` //! //! [`EnvFilter`]: super::filter::EnvFilter //! [`env_logger`]: https://docs.rs/env_logger/ //! [`filter`]: super::filter //! [`FmtSubscriber`]: Subscriber //! [`Subscriber`]: //! https://docs.rs/tracing/latest/tracing/trait.Subscriber.html //! [`tracing`]: https://crates.io/crates/tracing //! [`fmt::format`]: mod@crate::fmt::format use std::{any::TypeId, error::Error, io}; use tracing_core::{span, subscriber::Interest, Event, Metadata}; mod fmt_layer; #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] pub mod format; #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] pub mod time; #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] pub mod writer; pub use fmt_layer::{FmtContext, FormattedFields, Layer}; use crate::layer::Layer as _; use crate::util::SubscriberInitExt; use crate::{ filter::LevelFilter, layer, registry::{LookupSpan, Registry}, }; #[doc(inline)] pub use self::{ format::{format, FormatEvent, FormatFields}, time::time, writer::{MakeWriter, TestWriter}, }; /// A `Subscriber` that logs formatted representations of `tracing` events. /// /// This consists of an inner `Formatter` wrapped in a layer that performs filtering. #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] #[derive(Debug)] pub struct Subscriber< N = format::DefaultFields, E = format::Format, F = LevelFilter, W = fn() -> io::Stdout, > { inner: layer::Layered>, } /// A `Subscriber` that logs formatted representations of `tracing` events. /// This type only logs formatted events; it does not perform any filtering. #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] pub type Formatter< N = format::DefaultFields, E = format::Format, W = fn() -> io::Stdout, > = layer::Layered, Registry>; /// Configures and constructs `Subscriber`s. #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] #[derive(Debug)] #[must_use] pub struct SubscriberBuilder< N = format::DefaultFields, E = format::Format, F = LevelFilter, W = fn() -> io::Stdout, > { filter: F, inner: Layer, } /// Returns a new [`SubscriberBuilder`] for configuring a [formatting subscriber]. /// /// This is essentially shorthand for [`SubscriberBuilder::default()]`. /// /// # Examples /// /// Using [`init`] to set the default subscriber: /// /// ```rust /// tracing_subscriber::fmt().init(); /// ``` /// /// Configuring the output format: /// /// ```rust /// /// tracing_subscriber::fmt() /// // Configure formatting settings. /// .with_target(false) /// .with_timer(tracing_subscriber::fmt::time::uptime()) /// .with_level(true) /// // Set the subscriber as the default. /// .init(); /// ``` /// /// [`try_init`] returns an error if the default subscriber could not be set: /// /// ```rust /// use std::error::Error; /// /// fn init_subscriber() -> Result<(), Box> { /// tracing_subscriber::fmt() /// // Configure the subscriber to emit logs in JSON format. /// .json() /// // Configure the subscriber to flatten event fields in the output JSON objects. /// .flatten_event(true) /// // Set the subscriber as the default, returning an error if this fails. /// .try_init()?; /// /// Ok(()) /// } /// ``` /// /// Rather than setting the subscriber as the default, [`finish`] _returns_ the /// constructed subscriber, which may then be passed to other functions: /// /// ```rust /// let subscriber = tracing_subscriber::fmt() /// .with_max_level(tracing::Level::DEBUG) /// .compact() /// .finish(); /// /// tracing::subscriber::with_default(subscriber, || { /// // the subscriber will only be set as the default /// // inside this closure... /// }) /// ``` /// /// [formatting subscriber]: Subscriber /// [`SubscriberBuilder::default()`]: SubscriberBuilder::default /// [`init`]: SubscriberBuilder::init() /// [`try_init`]: SubscriberBuilder::try_init() /// [`finish`]: SubscriberBuilder::finish() #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] pub fn fmt() -> SubscriberBuilder { SubscriberBuilder::default() } /// Returns a new [formatting layer] that can be [composed] with other layers to /// construct a [`Subscriber`]. /// /// This is a shorthand for the equivalent [`Layer::default()`] function. /// /// [formatting layer]: Layer /// [composed]: crate::layer /// [`Layer::default()`]: Layer::default #[cfg_attr(docsrs, doc(cfg(all(feature = "fmt", feature = "std"))))] pub fn layer() -> Layer { Layer::default() } impl Subscriber { /// The maximum [verbosity level] that is enabled by a `Subscriber` by /// default. /// /// This can be overridden with the [`SubscriberBuilder::with_max_level`] method. /// /// [verbosity level]: tracing_core::Level /// [`SubscriberBuilder::with_max_level`]: SubscriberBuilder::with_max_level pub const DEFAULT_MAX_LEVEL: LevelFilter = LevelFilter::INFO; /// Returns a new `SubscriberBuilder` for configuring a format subscriber. pub fn builder() -> SubscriberBuilder { SubscriberBuilder::default() } /// Returns a new format subscriber with the default configuration. pub fn new() -> Self { Default::default() } } impl Default for Subscriber { fn default() -> Self { SubscriberBuilder::default().finish() } } // === impl Subscriber === impl tracing_core::Subscriber for Subscriber where N: for<'writer> FormatFields<'writer> + 'static, E: FormatEvent + 'static, F: layer::Layer> + 'static, W: for<'writer> MakeWriter<'writer> + 'static, layer::Layered>: tracing_core::Subscriber, fmt_layer::Layer: layer::Layer, { #[inline] fn register_callsite(&self, meta: &'static Metadata<'static>) -> Interest { self.inner.register_callsite(meta) } #[inline] fn enabled(&self, meta: &Metadata<'_>) -> bool { self.inner.enabled(meta) } #[inline] fn new_span(&self, attrs: &span::Attributes<'_>) -> span::Id { self.inner.new_span(attrs) } #[inline] fn record(&self, span: &span::Id, values: &span::Record<'_>) { self.inner.record(span, values) } #[inline] fn record_follows_from(&self, span: &span::Id, follows: &span::Id) { self.inner.record_follows_from(span, follows) } #[inline] fn event_enabled(&self, event: &Event<'_>) -> bool { self.inner.event_enabled(event) } #[inline] fn event(&self, event: &Event<'_>) { self.inner.event(event); } #[inline] fn enter(&self, id: &span::Id) { // TODO: add on_enter hook self.inner.enter(id); } #[inline] fn exit(&self, id: &span::Id) { self.inner.exit(id); } #[inline] fn current_span(&self) -> span::Current { self.inner.current_span() } #[inline] fn clone_span(&self, id: &span::Id) -> span::Id { self.inner.clone_span(id) } #[inline] fn try_close(&self, id: span::Id) -> bool { self.inner.try_close(id) } #[inline] fn max_level_hint(&self) -> Option { self.inner.max_level_hint() } unsafe fn downcast_raw(&self, id: TypeId) -> Option<*const ()> { if id == TypeId::of::() { Some(self as *const Self as *const ()) } else { self.inner.downcast_raw(id) } } } impl<'a, N, E, F, W> LookupSpan<'a> for Subscriber where layer::Layered>: LookupSpan<'a>, { type Data = > as LookupSpan<'a>>::Data; fn span_data(&'a self, id: &span::Id) -> Option { self.inner.span_data(id) } } // ===== impl SubscriberBuilder ===== impl Default for SubscriberBuilder { fn default() -> Self { SubscriberBuilder { filter: Subscriber::DEFAULT_MAX_LEVEL, inner: Default::default(), } .log_internal_errors(true) } } impl SubscriberBuilder where N: for<'writer> FormatFields<'writer> + 'static, E: FormatEvent + 'static, W: for<'writer> MakeWriter<'writer> + 'static, F: layer::Layer> + Send + Sync + 'static, fmt_layer::Layer: layer::Layer + Send + Sync + 'static, { /// Finish the builder, returning a new `FmtSubscriber`. pub fn finish(self) -> Subscriber { let subscriber = self.inner.with_subscriber(Registry::default()); Subscriber { inner: self.filter.with_subscriber(subscriber), } } /// Install this Subscriber as the global default if one is /// not already set. /// /// If the `tracing-log` feature is enabled, this will also install /// the LogTracer to convert `Log` records into `tracing` `Event`s. /// /// # Errors /// Returns an Error if the initialization was unsuccessful, likely /// because a global subscriber was already installed by another /// call to `try_init`. pub fn try_init(self) -> Result<(), Box> { use crate::util::SubscriberInitExt; self.finish().try_init()?; Ok(()) } /// Install this Subscriber as the global default. /// /// If the `tracing-log` feature is enabled, this will also install /// the LogTracer to convert `Log` records into `tracing` `Event`s. /// /// # Panics /// Panics if the initialization was unsuccessful, likely because a /// global subscriber was already installed by another call to `try_init`. pub fn init(self) { self.try_init() .expect("Unable to install global subscriber") } } impl From> for tracing_core::Dispatch where N: for<'writer> FormatFields<'writer> + 'static, E: FormatEvent + 'static, W: for<'writer> MakeWriter<'writer> + 'static, F: layer::Layer> + Send + Sync + 'static, fmt_layer::Layer: layer::Layer + Send + Sync + 'static, { fn from(builder: SubscriberBuilder) -> tracing_core::Dispatch { tracing_core::Dispatch::new(builder.finish()) } } impl SubscriberBuilder, F, W> where N: for<'writer> FormatFields<'writer> + 'static, { /// Use the given [`timer`] for log message timestamps. /// /// See the [`time` module] for the provided timer implementations. /// /// Note that using the `"time`"" feature flag enables the /// additional time formatters [`UtcTime`] and [`LocalTime`], which use the /// [`time` crate] to provide more sophisticated timestamp formatting /// options. /// /// [`timer`]: time::FormatTime /// [`time` module]: mod@time /// [`UtcTime`]: time::UtcTime /// [`LocalTime`]: time::LocalTime /// [`time` crate]: https://docs.rs/time/0.3 pub fn with_timer(self, timer: T2) -> SubscriberBuilder, F, W> { SubscriberBuilder { filter: self.filter, inner: self.inner.with_timer(timer), } } /// Do not emit timestamps with log messages. pub fn without_time(self) -> SubscriberBuilder, F, W> { SubscriberBuilder { filter: self.filter, inner: self.inner.without_time(), } } /// Configures how synthesized events are emitted at points in the [span /// lifecycle][lifecycle]. /// /// The following options are available: /// /// - `FmtSpan::NONE`: No events will be synthesized when spans are /// created, entered, exited, or closed. Data from spans will still be /// included as the context for formatted events. This is the default. /// - `FmtSpan::NEW`: An event will be synthesized when spans are created. /// - `FmtSpan::ENTER`: An event will be synthesized when spans are entered. /// - `FmtSpan::EXIT`: An event will be synthesized when spans are exited. /// - `FmtSpan::CLOSE`: An event will be synthesized when a span closes. If /// [timestamps are enabled][time] for this formatter, the generated /// event will contain fields with the span's _busy time_ (the total /// time for which it was entered) and _idle time_ (the total time that /// the span existed but was not entered). /// - `FmtSpan::ACTIVE`: An event will be synthesized when spans are entered /// or exited. /// - `FmtSpan::FULL`: Events will be synthesized whenever a span is /// created, entered, exited, or closed. If timestamps are enabled, the /// close event will contain the span's busy and idle time, as /// described above. /// /// The options can be enabled in any combination. For instance, the following /// will synthesize events whenever spans are created and closed: /// /// ```rust /// use tracing_subscriber::fmt::format::FmtSpan; /// use tracing_subscriber::fmt; /// /// let subscriber = fmt() /// .with_span_events(FmtSpan::NEW | FmtSpan::CLOSE) /// .finish(); /// ``` /// /// Note that the generated events will only be part of the log output by /// this formatter; they will not be recorded by other `Subscriber`s or by /// `Layer`s added to this subscriber. /// /// [lifecycle]: https://docs.rs/tracing/latest/tracing/span/index.html#the-span-lifecycle /// [time]: SubscriberBuilder::without_time() pub fn with_span_events(self, kind: format::FmtSpan) -> Self { SubscriberBuilder { inner: self.inner.with_span_events(kind), ..self } } /// Enable ANSI encoding for formatted events. #[cfg(feature = "ansi")] #[cfg_attr(docsrs, doc(cfg(feature = "ansi")))] pub fn with_ansi(self, ansi: bool) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_ansi(ansi), ..self } } /// Sets whether to write errors from [`FormatEvent`] to the writer. /// Defaults to true. /// /// By default, `fmt::Layer` will write any `FormatEvent`-internal errors to /// the writer. These errors are unlikely and will only occur if there is a /// bug in the `FormatEvent` implementation or its dependencies. /// /// If writing to the writer fails, the error message is printed to stderr /// as a fallback. /// /// [`FormatEvent`]: crate::fmt::FormatEvent pub fn log_internal_errors( self, log_internal_errors: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.log_internal_errors(log_internal_errors), ..self } } /// Sets whether or not an event's target is displayed. pub fn with_target( self, display_target: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_target(display_target), ..self } } /// Sets whether or not an event's [source code file path][file] is /// displayed. /// /// [file]: tracing_core::Metadata::file pub fn with_file( self, display_filename: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_file(display_filename), ..self } } /// Sets whether or not an event's [source code line number][line] is /// displayed. /// /// [line]: tracing_core::Metadata::line pub fn with_line_number( self, display_line_number: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_line_number(display_line_number), ..self } } /// Sets whether or not an event's level is displayed. pub fn with_level( self, display_level: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_level(display_level), ..self } } /// Sets whether or not the [name] of the current thread is displayed /// when formatting events. /// /// [name]: std::thread#naming-threads pub fn with_thread_names( self, display_thread_names: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_thread_names(display_thread_names), ..self } } /// Sets whether or not the [thread ID] of the current thread is displayed /// when formatting events. /// /// [thread ID]: std::thread::ThreadId pub fn with_thread_ids( self, display_thread_ids: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { inner: self.inner.with_thread_ids(display_thread_ids), ..self } } /// Sets the subscriber being built to use a less verbose formatter. /// /// See [`format::Compact`]. pub fn compact(self) -> SubscriberBuilder, F, W> where N: for<'writer> FormatFields<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.compact(), } } /// Sets the subscriber being built to use an [excessively pretty, human-readable formatter](crate::fmt::format::Pretty). #[cfg(feature = "ansi")] #[cfg_attr(docsrs, doc(cfg(feature = "ansi")))] pub fn pretty( self, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { filter: self.filter, inner: self.inner.pretty(), } } /// Sets the subscriber being built to use a JSON formatter. /// /// See [`format::Json`][super::fmt::format::Json] #[cfg(feature = "json")] #[cfg_attr(docsrs, doc(cfg(feature = "json")))] pub fn json( self, ) -> SubscriberBuilder, F, W> where N: for<'writer> FormatFields<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.json(), } } } #[cfg(feature = "json")] #[cfg_attr(docsrs, doc(cfg(feature = "json")))] impl SubscriberBuilder, F, W> { /// Sets the json subscriber being built to flatten event metadata. /// /// See [`format::Json`][super::fmt::format::Json] pub fn flatten_event( self, flatten_event: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { filter: self.filter, inner: self.inner.flatten_event(flatten_event), } } /// Sets whether or not the JSON subscriber being built will include the current span /// in formatted events. /// /// See [`format::Json`][super::fmt::format::Json] pub fn with_current_span( self, display_current_span: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { filter: self.filter, inner: self.inner.with_current_span(display_current_span), } } /// Sets whether or not the JSON subscriber being built will include a list (from /// root to leaf) of all currently entered spans in formatted events. /// /// See [`format::Json`][super::fmt::format::Json] pub fn with_span_list( self, display_span_list: bool, ) -> SubscriberBuilder, F, W> { SubscriberBuilder { filter: self.filter, inner: self.inner.with_span_list(display_span_list), } } } #[cfg(feature = "env-filter")] #[cfg_attr(docsrs, doc(cfg(feature = "env-filter")))] impl SubscriberBuilder where Formatter: tracing_core::Subscriber + 'static, { /// Configures the subscriber being built to allow filter reloading at /// runtime. pub fn with_filter_reloading( self, ) -> SubscriberBuilder>, W> { let (filter, _) = crate::reload::Layer::new(self.filter); SubscriberBuilder { filter, inner: self.inner, } } } #[cfg(feature = "env-filter")] #[cfg_attr(docsrs, doc(cfg(feature = "env-filter")))] impl SubscriberBuilder>, W> where Formatter: tracing_core::Subscriber + 'static, { /// Returns a `Handle` that may be used to reload the constructed subscriber's /// filter. pub fn reload_handle(&self) -> crate::reload::Handle> { self.filter.handle() } } impl SubscriberBuilder { /// Sets the field formatter that the subscriber being built will use to record /// fields. /// /// For example: /// ```rust /// use tracing_subscriber::fmt::format; /// use tracing_subscriber::prelude::*; /// /// let formatter = /// // Construct a custom formatter for `Debug` fields /// format::debug_fn(|writer, field, value| write!(writer, "{}: {:?}", field, value)) /// // Use the `tracing_subscriber::MakeFmtExt` trait to wrap the /// // formatter so that a delimiter is added between fields. /// .delimited(", "); /// /// let subscriber = tracing_subscriber::fmt() /// .fmt_fields(formatter) /// .finish(); /// # drop(subscriber) /// ``` pub fn fmt_fields(self, fmt_fields: N2) -> SubscriberBuilder where N2: for<'writer> FormatFields<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.fmt_fields(fmt_fields), } } /// Sets the [`EnvFilter`] that the subscriber will use to determine if /// a span or event is enabled. /// /// Note that this method requires the "env-filter" feature flag to be enabled. /// /// If a filter was previously set, or a maximum level was set by the /// [`with_max_level`] method, that value is replaced by the new filter. /// /// # Examples /// /// Setting a filter based on the value of the `RUST_LOG` environment /// variable: /// ```rust /// use tracing_subscriber::{fmt, EnvFilter}; /// /// fmt() /// .with_env_filter(EnvFilter::from_default_env()) /// .init(); /// ``` /// /// Setting a filter based on a pre-set filter directive string: /// ```rust /// use tracing_subscriber::fmt; /// /// fmt() /// .with_env_filter("my_crate=info,my_crate::my_mod=debug,[my_span]=trace") /// .init(); /// ``` /// /// Adding additional directives to a filter constructed from an env var: /// ```rust /// use tracing_subscriber::{fmt, filter::{EnvFilter, LevelFilter}}; /// /// # fn filter() -> Result<(), Box> { /// let filter = EnvFilter::try_from_env("MY_CUSTOM_FILTER_ENV_VAR")? /// // Set the base level when not matched by other directives to WARN. /// .add_directive(LevelFilter::WARN.into()) /// // Set the max level for `my_crate::my_mod` to DEBUG, overriding /// // any directives parsed from the env variable. /// .add_directive("my_crate::my_mod=debug".parse()?); /// /// fmt() /// .with_env_filter(filter) /// .try_init()?; /// # Ok(())} /// ``` /// [`EnvFilter`]: super::filter::EnvFilter /// [`with_max_level`]: SubscriberBuilder::with_max_level() #[cfg(feature = "env-filter")] #[cfg_attr(docsrs, doc(cfg(feature = "env-filter")))] pub fn with_env_filter( self, filter: impl Into, ) -> SubscriberBuilder where Formatter: tracing_core::Subscriber + 'static, { let filter = filter.into(); SubscriberBuilder { filter, inner: self.inner, } } /// Sets the maximum [verbosity level] that will be enabled by the /// subscriber. /// /// If the max level has already been set, or a [`EnvFilter`] was added by /// [`with_env_filter`], this replaces that configuration with the new /// maximum level. /// /// # Examples /// /// Enable up to the `DEBUG` verbosity level: /// ```rust /// use tracing_subscriber::fmt; /// use tracing::Level; /// /// fmt() /// .with_max_level(Level::DEBUG) /// .init(); /// ``` /// This subscriber won't record any spans or events! /// ```rust /// use tracing_subscriber::{fmt, filter::LevelFilter}; /// /// let subscriber = fmt() /// .with_max_level(LevelFilter::OFF) /// .finish(); /// ``` /// [verbosity level]: tracing_core::Level /// [`EnvFilter`]: struct@crate::filter::EnvFilter /// [`with_env_filter`]: fn@Self::with_env_filter pub fn with_max_level( self, filter: impl Into, ) -> SubscriberBuilder { let filter = filter.into(); SubscriberBuilder { filter, inner: self.inner, } } /// Sets the [event formatter][`FormatEvent`] that the subscriber being built /// will use to format events that occur. /// /// The event formatter may be any type implementing the [`FormatEvent`] /// trait, which is implemented for all functions taking a [`FmtContext`], a /// [`Writer`], and an [`Event`]. /// /// # Examples /// /// Setting a type implementing [`FormatEvent`] as the formatter: /// /// ```rust /// use tracing_subscriber::fmt::format; /// /// let subscriber = tracing_subscriber::fmt() /// .event_format(format().compact()) /// .finish(); /// ``` /// /// [`Writer`]: struct@self::format::Writer pub fn event_format(self, fmt_event: E2) -> SubscriberBuilder where E2: FormatEvent + 'static, N: for<'writer> FormatFields<'writer> + 'static, W: for<'writer> MakeWriter<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.event_format(fmt_event), } } /// Sets the [`MakeWriter`] that the subscriber being built will use to write events. /// /// # Examples /// /// Using `stderr` rather than `stdout`: /// /// ```rust /// use tracing_subscriber::fmt; /// use std::io; /// /// fmt() /// .with_writer(io::stderr) /// .init(); /// ``` pub fn with_writer(self, make_writer: W2) -> SubscriberBuilder where W2: for<'writer> MakeWriter<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.with_writer(make_writer), } } /// Configures the subscriber to support [`libtest`'s output capturing][capturing] when used in /// unit tests. /// /// See [`TestWriter`] for additional details. /// /// # Examples /// /// Using [`TestWriter`] to let `cargo test` capture test output. Note that we do not install it /// globally as it may cause conflicts. /// /// ```rust /// use tracing_subscriber::fmt; /// use tracing::subscriber; /// /// subscriber::set_default( /// fmt() /// .with_test_writer() /// .finish() /// ); /// ``` /// /// [capturing]: /// https://doc.rust-lang.org/book/ch11-02-running-tests.html#showing-function-output /// [`TestWriter`]: writer::TestWriter pub fn with_test_writer(self) -> SubscriberBuilder { SubscriberBuilder { filter: self.filter, inner: self.inner.with_writer(TestWriter::default()), } } /// Updates the event formatter by applying a function to the existing event formatter. /// /// This sets the event formatter that the subscriber being built will use to record fields. /// /// # Examples /// /// Updating an event formatter: /// /// ```rust /// let subscriber = tracing_subscriber::fmt() /// .map_event_format(|e| e.compact()) /// .finish(); /// ``` pub fn map_event_format(self, f: impl FnOnce(E) -> E2) -> SubscriberBuilder where E2: FormatEvent + 'static, N: for<'writer> FormatFields<'writer> + 'static, W: for<'writer> MakeWriter<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.map_event_format(f), } } /// Updates the field formatter by applying a function to the existing field formatter. /// /// This sets the field formatter that the subscriber being built will use to record fields. /// /// # Examples /// /// Updating a field formatter: /// /// ```rust /// use tracing_subscriber::field::MakeExt; /// let subscriber = tracing_subscriber::fmt() /// .map_fmt_fields(|f| f.debug_alt()) /// .finish(); /// ``` pub fn map_fmt_fields(self, f: impl FnOnce(N) -> N2) -> SubscriberBuilder where N2: for<'writer> FormatFields<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.map_fmt_fields(f), } } /// Updates the [`MakeWriter`] by applying a function to the existing [`MakeWriter`]. /// /// This sets the [`MakeWriter`] that the subscriber being built will use to write events. /// /// # Examples /// /// Redirect output to stderr if level is <= WARN: /// /// ```rust /// use tracing::Level; /// use tracing_subscriber::fmt::{self, writer::MakeWriterExt}; /// /// let stderr = std::io::stderr.with_max_level(Level::WARN); /// let layer = tracing_subscriber::fmt() /// .map_writer(move |w| stderr.or_else(w)) /// .finish(); /// ``` pub fn map_writer(self, f: impl FnOnce(W) -> W2) -> SubscriberBuilder where W2: for<'writer> MakeWriter<'writer> + 'static, { SubscriberBuilder { filter: self.filter, inner: self.inner.map_writer(f), } } } /// Install a global tracing subscriber that listens for events and /// filters based on the value of the [`RUST_LOG` environment variable], /// if one is not already set. /// /// If the `tracing-log` feature is enabled, this will also install /// the [`LogTracer`] to convert `log` records into `tracing` `Event`s. /// /// This is shorthand for /// /// ```rust /// # fn doc() -> Result<(), Box> { /// tracing_subscriber::fmt().try_init() /// # } /// ``` /// /// /// # Errors /// /// Returns an Error if the initialization was unsuccessful, /// likely because a global subscriber was already installed by another /// call to `try_init`. /// /// [`LogTracer`]: /// https://docs.rs/tracing-log/0.1.0/tracing_log/struct.LogTracer.html /// [`RUST_LOG` environment variable]: crate::filter::EnvFilter::DEFAULT_ENV pub fn try_init() -> Result<(), Box> { let builder = Subscriber::builder(); #[cfg(feature = "env-filter")] let builder = builder.with_env_filter(crate::EnvFilter::from_default_env()); // If `env-filter` is disabled, remove the default max level filter from the // subscriber; it will be added to the `Targets` filter instead if no filter // is set in `RUST_LOG`. // Replacing the default `LevelFilter` with an `EnvFilter` would imply this, // but we can't replace the builder's filter with a `Targets` filter yet. #[cfg(not(feature = "env-filter"))] let builder = builder.with_max_level(LevelFilter::TRACE); let subscriber = builder.finish(); #[cfg(not(feature = "env-filter"))] let subscriber = { use crate::{filter::Targets, layer::SubscriberExt}; use std::{env, str::FromStr}; let targets = match env::var("RUST_LOG") { Ok(var) => Targets::from_str(&var) .map_err(|e| { eprintln!("Ignoring `RUST_LOG={:?}`: {}", var, e); }) .unwrap_or_default(), Err(env::VarError::NotPresent) => { Targets::new().with_default(Subscriber::DEFAULT_MAX_LEVEL) } Err(e) => { eprintln!("Ignoring `RUST_LOG`: {}", e); Targets::new().with_default(Subscriber::DEFAULT_MAX_LEVEL) } }; subscriber.with(targets) }; subscriber.try_init().map_err(Into::into) } /// Install a global tracing subscriber that listens for events and /// filters based on the value of the [`RUST_LOG` environment variable]. /// /// The configuration of the subscriber initialized by this function /// depends on what [feature flags](crate#feature-flags) are enabled. /// /// If the `tracing-log` feature is enabled, this will also install /// the LogTracer to convert `Log` records into `tracing` `Event`s. /// /// If the `env-filter` feature is enabled, this is shorthand for /// /// ```rust /// # use tracing_subscriber::EnvFilter; /// tracing_subscriber::fmt() /// .with_env_filter(EnvFilter::from_default_env()) /// .init(); /// ``` /// /// # Panics /// Panics if the initialization was unsuccessful, likely because a /// global subscriber was already installed by another call to `try_init`. /// /// [`RUST_LOG` environment variable]: crate::filter::EnvFilter::DEFAULT_ENV pub fn init() { try_init().expect("Unable to install global subscriber") } #[cfg(test)] mod test { use crate::{ filter::LevelFilter, fmt::{ format::{self, Format}, time, writer::MakeWriter, Subscriber, }, }; use std::{ io, sync::{Arc, Mutex, MutexGuard, TryLockError}, }; use tracing_core::dispatcher::Dispatch; pub(crate) struct MockWriter { buf: Arc>>, } impl MockWriter { pub(crate) fn new(buf: Arc>>) -> Self { Self { buf } } pub(crate) fn map_error(err: TryLockError) -> io::Error { match err { TryLockError::WouldBlock => io::Error::from(io::ErrorKind::WouldBlock), TryLockError::Poisoned(_) => io::Error::from(io::ErrorKind::Other), } } pub(crate) fn buf(&self) -> io::Result>> { self.buf.try_lock().map_err(Self::map_error) } } impl io::Write for MockWriter { fn write(&mut self, buf: &[u8]) -> io::Result { self.buf()?.write(buf) } fn flush(&mut self) -> io::Result<()> { self.buf()?.flush() } } #[derive(Clone, Default)] pub(crate) struct MockMakeWriter { buf: Arc>>, } impl MockMakeWriter { pub(crate) fn new(buf: Arc>>) -> Self { Self { buf } } #[cfg(feature = "json")] pub(crate) fn buf(&self) -> MutexGuard<'_, Vec> { self.buf.lock().unwrap() } pub(crate) fn get_string(&self) -> String { let mut buf = self.buf.lock().expect("lock shouldn't be poisoned"); let string = std::str::from_utf8(&buf[..]) .expect("formatter should not have produced invalid utf-8") .to_owned(); buf.clear(); string } } impl<'a> MakeWriter<'a> for MockMakeWriter { type Writer = MockWriter; fn make_writer(&'a self) -> Self::Writer { MockWriter::new(self.buf.clone()) } } #[test] fn impls() { let f = Format::default().with_timer(time::Uptime::default()); let subscriber = Subscriber::builder().event_format(f).finish(); let _dispatch = Dispatch::new(subscriber); let f = format::Format::default(); let subscriber = Subscriber::builder().event_format(f).finish(); let _dispatch = Dispatch::new(subscriber); let f = format::Format::default().compact(); let subscriber = Subscriber::builder().event_format(f).finish(); let _dispatch = Dispatch::new(subscriber); } #[test] fn subscriber_downcasts() { let subscriber = Subscriber::builder().finish(); let dispatch = Dispatch::new(subscriber); assert!(dispatch.downcast_ref::().is_some()); } #[test] fn subscriber_downcasts_to_parts() { let subscriber = Subscriber::new(); let dispatch = Dispatch::new(subscriber); assert!(dispatch.downcast_ref::().is_some()); assert!(dispatch.downcast_ref::().is_some()); assert!(dispatch.downcast_ref::().is_some()) } #[test] fn is_lookup_span() { fn assert_lookup_span crate::registry::LookupSpan<'a>>(_: T) {} let subscriber = Subscriber::new(); assert_lookup_span(subscriber) } }