An async multi-producer multi-consumer broadcast channel, where each consumer gets a clone of every
message sent on the channel. For obvious reasons, the channel can only be used to broadcast types
that implement Clone.
A channel has the Sender and Receiver side. Both sides are cloneable and can be shared
among multiple threads.
When all Senders or all Receivers are dropped, the channel becomes closed. When a channel is
closed, no more messages can be sent, but remaining messages can still be received.
The channel can also be closed manually by calling Sender::close() or
Receiver::close().
use async_broadcast::{broadcast, TryRecvError};
use futures_lite::{future::block_on, stream::StreamExt};
block_on(async move {
let (s1, mut r1) = broadcast(2);
let s2 = s1.clone();
let mut r2 = r1.clone();
// Send 2 messages from two different senders.
s1.broadcast(7).await.unwrap();
s2.broadcast(8).await.unwrap();
// Channel is now at capacity so sending more messages will result in an error.
assert!(s2.try_broadcast(9).unwrap_err().is_full());
assert!(s1.try_broadcast(10).unwrap_err().is_full());
// We can use `recv` method of the `Stream` implementation to receive messages.
assert_eq!(r1.next().await.unwrap(), 7);
assert_eq!(r1.recv().await.unwrap(), 8);
assert_eq!(r2.next().await.unwrap(), 7);
assert_eq!(r2.recv().await.unwrap(), 8);
// All receiver got all messages so channel is now empty.
assert_eq!(r1.try_recv(), Err(TryRecvError::Empty));
assert_eq!(r2.try_recv(), Err(TryRecvError::Empty));
// Drop both senders, which closes the channel.
drop(s1);
drop(s2);
assert_eq!(r1.try_recv(), Err(TryRecvError::Closed));
assert_eq!(r2.try_recv(), Err(TryRecvError::Closed));
})This crate is similar to async-channel in that they both provide an MPMC channel but the main
difference being that in async-channel, each message sent on the channel is only received by one
of the receivers. async-broadcast on the other hand, delivers each message to every receiver
(IOW broadcast) by cloning it for each receiver.
-
broadcaster: The main difference would be thatbroadcasterdoesn't have a sender and receiver split and both sides use clones of the same BroadcastChannel instance. The messages are sent are sent to all channel clones. While this can work for many cases, the lack of sender and receiver split, means that often times, you'll find yourself having to drain the channel on the sending side yourself. -
postage: this crate provides a broadcast API similar toasync_broadcast. However, it:- (at the time of this writing) duplicates futures API, which isn't ideal.
- Does not support overflow mode nor has the concept of inactive receivers, so a slow or inactive receiver blocking the whole channel is not a solvable problem.
- Provides all kinds of channels, which is generally good but if you just need a broadcast
channel,
async_broadcastis probably a better choice.
-
tokio::sync: Tokio'ssyncmodule provides a broadcast channel API. The differences here are:- While this implementation does provide overflow mode, it is the default behavior and not opt-in.
- There is no equivalent of inactive receivers.
- While it's possible to build tokio with only the
syncmodule, it comes with other APIs that you may not need.
This crate uses #![deny(unsafe_code)] to ensure everything is implemented in
100% Safe Rust.
Want to join us? Check out our "Contributing" guide and take a look at some of these issues:
Licensed under either of Apache License, Version 2.0 or MIT license at your option.Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this crate by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.