8546ff826d
* runtime: cleanup and add config options This patch finishes the cleanup as part of the transition to Tokio 0.2. A number of changes were made to take advantage of having all Tokio types in a single crate. Also, fixes using Tokio types from `spawn_blocking`. * Many threads, one resource driver Previously, in the threaded scheduler, a resource driver (mio::Poll / timer combo) was created per thread. This was more or less fine, except it required balancing across the available drivers. When using a resource driver from **outside** of the thread pool, balancing is tricky. The change was original done to avoid having a dedicated driver thread. Now, instead of creating many resource drivers, a single resource driver is used. Each scheduler thread will attempt to "lock" the resource driver before parking on it. If the resource driver is already locked, the thread uses a condition variable to park. Contention should remain low as, under load, the scheduler avoids using the drivers. * Add configuration options to enable I/O / time New configuration options are added to `runtime::Builder` to allow enabling I/O and time drivers on a runtime instance basis. This is useful when wanting to create lightweight runtime instances to execute compute only tasks. * Bug fixes The condition variable parker is updated to the same algorithm used in `std`. This is motivated by some potential deadlock cases discovered by `loom`. The basic scheduler is fixed to fairly schedule tasks. `push_front` was accidentally used instead of `push_back`. I/O, time, and spawning now work from within `spawn_blocking` closures. * Misc cleanup The threaded scheduler is no longer generic over `P :Park`. Instead, it is hard coded to a specific parker. Tests, including loom tests, are updated to use `Runtime` directly. This provides greater coverage. The `blocking` module is moved back into `runtime` as all usage is within `runtime` itself.
Tokio
NOTE: Tokio's master is currently undergoing heavy development. This branch and the alpha releases will see API breaking changes and there are currently significant performance regressions that still need to be fixed before the final release. Use the v0.1.x branch for stable releases.
A runtime for writing reliable, asynchronous, and slim applications with the Rust programming language. It is:
-
Fast: Tokio's zero-cost abstractions give you bare-metal performance.
-
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
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::net::TcpListener;
use tokio::prelude::*;
use std::net::SocketAddr;
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let addr = "127.0.0.1:8080".parse::<SocketAddr>()?;
let mut listener = TcpListener::bind(&addr).await?;
loop {
let (mut socket, _) = listener.accept().await?;
tokio::spawn(async move {
let mut buf = [0; 1024];
// In a loop, read data from the socket and write the data back.
loop {
let n = match socket.read(&mut buf).await {
// socket closed
Ok(n) if n == 0 => return,
Ok(n) => n,
Err(e) => {
println!("failed to read from socket; err = {:?}", e);
return;
}
};
// Write the data back
if let Err(e) = socket.write_all(&buf[0..n]).await {
println!("failed to write to socket; err = {:?}", e);
return;
}
}
});
}
}
More examples can be found here. Note that the master branch
is currently being updated to use async / await. The examples are
not fully ported. Examples for stable Tokio 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.
Related Projects
In addition to the crates in this repository, the Tokio project also maintains several other libraries, including:
-
tracing(formerlytokio-trace): A framework for application-level tracing and async-aware diagnostics. -
mio: A low-level, cross-platform abstraction over OS I/O APIs that powerstokio. -
bytes: Utilities for working with bytes, including efficient byte buffers.
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.