//! Structured logging. //! //! Add the `kv` feature to your `Cargo.toml` to enable //! this module: //! //! ```toml //! [dependencies.log] //! features = ["kv"] //! ``` //! //! # Structured logging in `log` //! //! Structured logging enhances traditional text-based log records with user-defined //! attributes. Structured logs can be analyzed using a variety of data processing //! techniques, without needing to find and parse attributes from unstructured text first. //! //! In `log`, user-defined attributes are part of a [`Source`] on the log record. //! Each attribute is a key-value; a pair of [`Key`] and [`Value`]. Keys are strings //! and values are a datum of any type that can be formatted or serialized. Simple types //! like strings, booleans, and numbers are supported, as well as arbitrarily complex //! structures involving nested objects and sequences. //! //! ## Adding key-values to log records //! //! Key-values appear before the message format in the `log!` macros: //! //! ``` //! # use log::info; //! info!(a = 1; "Something of interest"); //! ``` //! //! Key-values support the same shorthand identifier syntax as `format_args`: //! //! ``` //! # use log::info; //! let a = 1; //! //! info!(a; "Something of interest"); //! ``` //! //! Values are capturing using the [`ToValue`] trait by default. To capture a value //! using a different trait implementation, use a modifier after its key. Here's how //! the same example can capture `a` using its `Debug` implementation instead: //! //! ``` //! # use log::info; //! info!(a:? = 1; "Something of interest"); //! ``` //! //! The following capturing modifiers are supported: //! //! - `:?` will capture the value using `Debug`. //! - `:debug` will capture the value using `Debug`. //! - `:%` will capture the value using `Display`. //! - `:display` will capture the value using `Display`. //! - `:err` will capture the value using `std::error::Error` (requires the `kv_std` feature). //! - `:sval` will capture the value using `sval::Value` (requires the `kv_sval` feature). //! - `:serde` will capture the value using `serde::Serialize` (requires the `kv_serde` feature). //! //! ## Working with key-values on log records //! //! Use the [`Record::key_values`](../struct.Record.html#method.key_values) method to access key-values. //! //! Individual values can be pulled from the source by their key: //! //! ``` //! # fn main() -> Result<(), log::kv::Error> { //! use log::kv::{Source, Key, Value}; //! # let record = log::Record::builder().key_values(&[("a", 1)]).build(); //! //! // info!(a = 1; "Something of interest"); //! //! let a: Value = record.key_values().get(Key::from("a")).unwrap(); //! assert_eq!(1, a.to_i64().unwrap()); //! # Ok(()) //! # } //! ``` //! //! All key-values can also be enumerated using a [`VisitSource`]: //! //! ``` //! # fn main() -> Result<(), log::kv::Error> { //! use std::collections::BTreeMap; //! //! use log::kv::{self, Source, Key, Value, VisitSource}; //! //! struct Collect<'kvs>(BTreeMap, Value<'kvs>>); //! //! impl<'kvs> VisitSource<'kvs> for Collect<'kvs> { //! fn visit_pair(&mut self, key: Key<'kvs>, value: Value<'kvs>) -> Result<(), kv::Error> { //! self.0.insert(key, value); //! //! Ok(()) //! } //! } //! //! let mut visitor = Collect(BTreeMap::new()); //! //! # let record = log::Record::builder().key_values(&[("a", 1), ("b", 2), ("c", 3)]).build(); //! // info!(a = 1, b = 2, c = 3; "Something of interest"); //! //! record.key_values().visit(&mut visitor)?; //! //! let collected = visitor.0; //! //! assert_eq!( //! vec!["a", "b", "c"], //! collected //! .keys() //! .map(|k| k.as_str()) //! .collect::>(), //! ); //! # Ok(()) //! # } //! ``` //! //! [`Value`]s have methods for conversions to common types: //! //! ``` //! # fn main() -> Result<(), log::kv::Error> { //! use log::kv::{Source, Key}; //! # let record = log::Record::builder().key_values(&[("a", 1)]).build(); //! //! // info!(a = 1; "Something of interest"); //! //! let a = record.key_values().get(Key::from("a")).unwrap(); //! //! assert_eq!(1, a.to_i64().unwrap()); //! # Ok(()) //! # } //! ``` //! //! Values also have their own [`VisitValue`] type. Value visitors are a lightweight //! API for working with primitives types: //! //! ``` //! # fn main() -> Result<(), log::kv::Error> { //! use log::kv::{self, Source, Key, VisitValue}; //! # let record = log::Record::builder().key_values(&[("a", 1)]).build(); //! //! struct IsNumeric(bool); //! //! impl<'kvs> VisitValue<'kvs> for IsNumeric { //! fn visit_any(&mut self, _value: kv::Value) -> Result<(), kv::Error> { //! self.0 = false; //! Ok(()) //! } //! //! fn visit_u64(&mut self, _value: u64) -> Result<(), kv::Error> { //! self.0 = true; //! Ok(()) //! } //! //! fn visit_i64(&mut self, _value: i64) -> Result<(), kv::Error> { //! self.0 = true; //! Ok(()) //! } //! //! fn visit_u128(&mut self, _value: u128) -> Result<(), kv::Error> { //! self.0 = true; //! Ok(()) //! } //! //! fn visit_i128(&mut self, _value: i128) -> Result<(), kv::Error> { //! self.0 = true; //! Ok(()) //! } //! //! fn visit_f64(&mut self, _value: f64) -> Result<(), kv::Error> { //! self.0 = true; //! Ok(()) //! } //! } //! //! // info!(a = 1; "Something of interest"); //! //! let a = record.key_values().get(Key::from("a")).unwrap(); //! //! let mut visitor = IsNumeric(false); //! //! a.visit(&mut visitor)?; //! //! let is_numeric = visitor.0; //! //! assert!(is_numeric); //! # Ok(()) //! # } //! ``` //! //! To serialize a value to a format like JSON, you can also use either `serde` or `sval`: //! //! ``` //! # fn main() -> Result<(), Box> { //! # #[cfg(feature = "serde")] //! # { //! # use log::kv::Key; //! #[derive(serde::Serialize)] //! struct Data { //! a: i32, b: bool, //! c: &'static str, //! } //! //! let data = Data { a: 1, b: true, c: "Some data" }; //! //! # let source = [("a", log::kv::Value::from_serde(&data))]; //! # let record = log::Record::builder().key_values(&source).build(); //! // info!(a = data; "Something of interest"); //! //! let a = record.key_values().get(Key::from("a")).unwrap(); //! //! assert_eq!("{\"a\":1,\"b\":true,\"c\":\"Some data\"}", serde_json::to_string(&a)?); //! # } //! # Ok(()) //! # } //! ``` //! //! The choice of serialization framework depends on the needs of the consumer. //! If you're in a no-std environment, you can use `sval`. In other cases, you can use `serde`. //! Log producers and log consumers don't need to agree on the serialization framework. //! A value can be captured using its `serde::Serialize` implementation and still be serialized //! through `sval` without losing any structure or data. //! //! Values can also always be formatted using the standard `Debug` and `Display` //! traits: //! //! ``` //! # use log::kv::Key; //! # #[derive(Debug)] //! struct Data { //! a: i32, //! b: bool, //! c: &'static str, //! } //! //! let data = Data { a: 1, b: true, c: "Some data" }; //! //! # let source = [("a", log::kv::Value::from_debug(&data))]; //! # let record = log::Record::builder().key_values(&source).build(); //! // info!(a = data; "Something of interest"); //! //! let a = record.key_values().get(Key::from("a")).unwrap(); //! //! assert_eq!("Data { a: 1, b: true, c: \"Some data\" }", format!("{a:?}")); //! ``` mod error; mod key; #[cfg(not(feature = "kv_unstable"))] mod source; #[cfg(not(feature = "kv_unstable"))] mod value; pub use self::error::Error; pub use self::key::{Key, ToKey}; pub use self::source::{Source, VisitSource}; pub use self::value::{ToValue, Value, VisitValue}; #[cfg(feature = "kv_unstable")] pub mod source; #[cfg(feature = "kv_unstable")] pub mod value; #[cfg(feature = "kv_unstable")] pub use self::source::Visitor;