b2c53987d9
## Motivation In `tokio-trace`, field values may be recorded as either a subset of Rust primitive types or as `fmt::Display` and `fmt::Debug` implementations. Currently, `tokio-trace` provides the `field::display` and `field::debug` functions which wrap a type with a type that implements `Value` using the wrapped type's `fmt::Display` or `fmt::Debug` implementation. However, importing and using these functions adds unnecessary boilerplate. In #1081, @jonhoo suggested adding shorthand syntax to the macros, similar to that used by the `slog` crate, as a solution for the wordiness of the current API. ## Solution This branch adds `?` and `%` sigils to field values in the span and event macros, which expand to the `field::debug` and `field::display` wrappers, respectively. The shorthand sigils may be used in any position where the macros take a field value. For example: ```rust trace_span!("foo", my_field = ?something, ...); // shorthand for `debug` info!(foo = %value, bar = false, ...) // shorthand for `display` ``` Adding this shorthand required a fairly large change to how field key-value pairs are handled by the macros --- since `%foo` and `%foo` are not valid Rust expressions, we can no longer match repeated `$ident = $expr` patterns, and must now match field lists as repeated token trees. The inner helper macros for constructing `FieldSet`s and `ValueSet`s have to parse the token trees recursively. This added a decent chunk of complexity, but fortunately we have a large number of compile tests for the macros and I'm quite confident that all existing invocations will still work. Closes #1081 Signed-off-by: Eliza Weisman <eliza@buoyant.io>
Tokio
A runtime for writing reliable, asynchronous, and slim applications with the Rust programming language. It is:
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Fast: Tokio's zero-cost abstractions give you bare-metal performance.
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Reliable: Tokio leverages Rust's ownership, type system, and concurrency model to reduce bugs and ensure thread safety.
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Scalable: Tokio has a minimal footprint, and handles backpressure and cancellation naturally.
Website | Guides | API Docs | Chat
The API docs for the master branch are published here.
Overview
Tokio is an event-driven, non-blocking I/O platform for writing asynchronous applications with the Rust programming language. At a high level, it provides a few major components:
- A multithreaded, work-stealing based task scheduler.
- A reactor backed by the operating system's event queue (epoll, kqueue, IOCP, etc...).
- Asynchronous TCP and UDP sockets.
These components provide the runtime components necessary for building an asynchronous application.
Example
A basic TCP echo server with Tokio:
use tokio::prelude::*;
use tokio::io::copy;
use tokio::net::TcpListener;
fn main() {
// Bind the server's socket.
let addr = "127.0.0.1:12345".parse().unwrap();
let listener = TcpListener::bind(&addr)
.expect("unable to bind TCP listener");
// Pull out a stream of sockets for incoming connections
let server = listener.incoming()
.map_err(|e| eprintln!("accept failed = {:?}", e))
.for_each(|sock| {
// Split up the reading and writing parts of the
// socket.
let (reader, writer) = sock.split();
// A future that echos the data and returns how
// many bytes were copied...
let bytes_copied = copy(reader, writer);
// ... after which we'll print what happened.
let handle_conn = bytes_copied.map(|amt| {
println!("wrote {:?} bytes", amt)
}).map_err(|err| {
eprintln!("IO error {:?}", err)
});
// Spawn the future as a concurrent task.
tokio::spawn(handle_conn)
});
// Start the Tokio runtime
tokio::run(server);
}
More examples can be found here.
Getting Help
First, see if the answer to your question can be found in the [Guides] or the [API documentation]. If the answer is not there, there is an active community in the Tokio Gitter channel. We would be happy to try to answer your question. Last, if that doesn't work, try opening an issue with the question.
Contributing
🎈 Thanks for your help improving the project! We are so happy to have you! We have a contributing guide to help you get involved in the Tokio project.
Project layout
The tokio crate, found at the root, is primarily intended for use by
application developers. Library authors should depend on the sub crates, which
have greater guarantees of stability.
The crates included as part of Tokio are:
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tokio-current-thread: Schedule the execution of futures on the current thread. -
tokio-executor: Task execution related traits and utilities. -
tokio-fs: Filesystem (and standard in / out) APIs. -
tokio-futures: Experimentalstd::future::Futureandasync/awaitsupport. -
tokio-codec: Utilities for encoding and decoding protocol frames. -
tokio-io: Asynchronous I/O related traits and utilities. -
tokio-macros: Macros for usage with Tokio. -
tokio-reactor: Event loop that drives I/O resources (like TCP and UDP sockets). -
tokio-tcp: TCP bindings for use withtokio-ioandtokio-reactor. -
tokio-threadpool: Schedules the execution of futures across a pool of threads. -
tokio-timer: Time related APIs. -
tokio-udp: UDP bindings for use withtokio-ioandtokio-reactor. -
tokio-uds: Unix Domain Socket bindings for use withtokio-ioandtokio-reactor.
Supported Rust Versions
Tokio is built against the latest stable, nightly, and beta Rust releases. The minimum version supported is the stable release from three months before the current stable release version. For example, if the latest stable Rust is 1.29, the minimum version supported is 1.26. The current Tokio version is not guaranteed to build on Rust versions earlier than the minimum supported version.
License
This project is licensed under the MIT license.
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in Tokio by you, shall be licensed as MIT, without any additional terms or conditions.