Iroh gives you an API for dialing by public key. You say “connect to that phone”, iroh will find & maintain the fastest connection for you, regardless of where it is.
The fastest route is a direct connection, so if necessary, iroh tries to hole-punch. Should this fail, it can fall back to an open ecosystem of public relay servers. To ensure these connections are as fast as possible, we continuously measure iroh.
Built on QUIC
Iroh uses Quinn to establish QUIC connections between nodes. This way you get authenticated encryption, concurrent streams with stream prioirities, a datagram transport and avoid head-of-line-blocking out of the box.
Use pre-existing protocols built on iroh instead of writing your own:
- iroh-blobs for BLAKE3-based content-addressed blob transfer scaling from kilobytes to terrabytes
- iroh-gossip for establishing publish-subscribe overlay networks that scale, requiring only resources that your average phone can handle
- iroh-docs for an eventually-consistent key-value store of iroh-blobs blobs
- iroh-willow for an (in-construction) implementation of the willow protocol
It's easiest to use iroh from rust.
Install it using cargo add iroh
, then on the connecting side:
const ALPN: &[u8] = b"iroh-example/echo/0";
let endpoint = Endpoint::builder().discovery_n0().bind().await?;
// Open a connection to the accepting node
let conn = endpoint.connect(addr, ALPN).await?;
// Open a bidirectional QUIC stream
let (mut send, mut recv) = conn.open_bi().await?;
// Send some data to be echoed
send.write_all(b"Hello, world!").await?;
send.finish()?;
// Receive the echo
let response = recv.read_to_end(1000).await?;
assert_eq!(&response, b"Hello, world!");
// Close the endpoint and all its connections
endpoint.close(0u32.into(), b"bye!").await?;
And on the accepting side:
let endpoint = Endpoint::builder().discovery_n0().bind().await?;
let router = Router::builder(endpoint)
.accept(ALPN.to_vec(), Arc::new(Echo))
.spawn()
.await?;
// The protocol definition:
#[derive(Debug, Clone)]
struct Echo;
impl ProtocolHandler for Echo {
fn accept(self: Arc<Self>, connecting: Connecting) -> BoxedFuture<Result<()>> {
Box::pin(async move {
let connection = connecting.await?;
let (mut send, mut recv) = connection.accept_bi().await?;
// Echo any bytes received back directly.
let bytes_sent = tokio::io::copy(&mut recv, &mut send).await?;
send.finish()?;
connection.closed().await;
Ok(())
})
}
}
The full example code with more comments can be found at echo.rs
.
Or use one of the pre-existing protocols, e.g. iroh-blobs or iroh-gossip.
If you want to use iroh from other languages, make sure to check out iroh-ffi, the repository for FFI bindings.
This repository contains a workspace of crates:
iroh
: The core library for hole-punching & communicating with relays.iroh-relay
: The relay server implementation. This is the code we run in production (and you can, too!).iroh-base
: Common types likeHash
, key types orRelayUrl
.iroh-metrics
: Helper library for adding metrics support to crates.iroh-test
: Test utilities.iroh-dns-server
: DNS server implementation powering then0_discovery
for NodeIds, running at dns.iroh.link.iroh-net-report
: Analyzes your host's networking ability & NAT.net-tools/*
: Networking utility crates
Copyright 2024 N0, INC.
This project is licensed under either of
- Apache License, Version 2.0, (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this project by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.