.vscode | ||
axum-connect | ||
axum-connect-build | ||
axum-connect-examples | ||
.envrc | ||
.gitignore | ||
buf.yaml | ||
Cargo.toml | ||
flake.lock | ||
flake.nix | ||
LICENSE-APACHE | ||
LICENSE-MIT | ||
README.md |
Axum Connect-Web
Brings the protobuf-based Connect-Web RPC framework to Rust via idiomatic Axum.
Axum Version
axum-connect:0.3
works withaxum:0.7
axum-connect:0.2
works withaxum:0.6
Features 🔍
- Integrates into existing Axum HTTP applications seamlessly
- Closely mirrors Axum's API
- Extract State and other
parts
that implRpcFromRequestParts
just like with Axum. - Return any type that impl
RpcIntoResponse
just like Axum.
- Extract State and other
- Generated types and service handlers are strongly typed and...
- Handlers enforce semantically correct HTTP 'parts' access.
- Allows users to derive
RpcIntoResponse
andRpcFromRequestParts
just like Axum.- Note: These must be derivatives of Axum's types because they are more
restrictive; you're not dealing with arbitrary HTTP any more, you're
speaking
connect-web
RPC over HTTP.
- Note: These must be derivatives of Axum's types because they are more
restrictive; you're not dealing with arbitrary HTTP any more, you're
speaking
- Wrap
connect-web
error handling in idiomatic Axum/Rust. - Codegen from
*.proto
files in a separate crate. - All the other amazing benefits that come with Axum, like the community, documentation and performance!
Caution ⚠️
We use axum-connect
in production, but I don't kow that anyone with more sense
does. It's written in Rust which obviously offers some amazing compiler
guarantees, but it's not well tested or battle-proven yet. Do what you will with
that information.
Please let me know if you're using axum-connect
! And open issues if you find a
bug.
Getting Started 🤓
Prior knowledge with Protobuf (both the IDL and it's use in RPC frameworks) and Axum are assumed.
Dependencies 👀
You'll need 2 axum-connect
crates, one for code-gen and one for runtime use.
Because of how prost works, you'll also need to add it to your own project.
You'll obviously also need axum
and tokio
.
# Note: axum-connect-build will fetch `protoc` for you.
cargo add --build axum-connect-build
cargo add axum-connect prost axum
cargo add tokio --features full
Protobuf File 🥱
Start by creating the obligatory 'hello world' proto service definition.
proto/hello.proto
syntax = "proto3";
package hello;
message HelloRequest { string name = 1; }
message HelloResponse { string message = 1; }
service HelloWorldService {
rpc SayHello(HelloRequest) returns (HelloResponse) {}
}
Codegen 🤔
Use the axum_connect_codegen
crate to generate Rust code from the proto IDL.
Currently all codegen is done by having the proto files locally on-disk, and using a
build.rs
file. Someday I hope to support more of Buf's idioms like Remote Code Gen.
build.rs
use axum_connect_build::{axum_connect_codegen, AxumConnectGenSettings};
fn main() {
// This helper will use `proto` as the import path, and globs all .proto
// files in the `proto` directory.
//
// Note that you might need to re-save the `build.rs` file after updating
// a proto file to get rust-analyzer to pickup the change. I haven't put
// time into looking for a fix to that yet.
let settings = AxumConnectGenSettings::from_directory_recursive("proto")
.expect("failed to glob proto files");
axum_connect_codegen(settings).unwrap();
}
The Fun Part 😁
With the boring stuff out of the way, let's implement our service using Axum!
use async_stream::stream;
use axum::{extract::Host, Router};
use axum_connect::{futures::Stream, prelude::*};
use error::Error;
use proto::hello::*;
use tower_http::cors::CorsLayer;
// Take a peak at error.rs to see how errors work in axum-connect.
mod error;
mod proto {
// Include the generated code in a `proto` module.
//
// Note: I'm not super happy with this pattern. I hope to add support to `protoc-gen-prost` in
// the near-ish future instead see:
// https://github.com/neoeinstein/protoc-gen-prost/issues/82#issuecomment-1877107220 That will
// better align with Buf.build's philosophy. This is how it works for now though.
pub mod hello {
include!(concat!(env!("OUT_DIR"), "/hello.rs"));
}
}
#[tokio::main]
async fn main() {
// Build our application with a route. Note the `rpc` method which was added by `axum-connect`.
// It expect a service method handler, wrapped in it's respective type. The handler (below) is
// just a normal Rust function. Just like Axum, it also supports extractors!
let app = Router::new()
// A standard unary (POST based) Connect-Web request handler.
.rpc(HelloWorldService::say_hello(say_hello_unary))
// A GET version of the same thing, which has well-defined semantics for caching.
.rpc(HelloWorldService::say_hello_unary_get(say_hello_unary))
// A server-streaming request handler. Very useful when you need them!
.rpc(HelloWorldService::say_hello_stream(stream_three_reponses));
let listener = tokio::net::TcpListener::bind("127.0.0.1:3030")
.await
.unwrap();
println!("listening on http://{:?}", listener.local_addr().unwrap());
axum::serve(listener, app.layer(CorsLayer::very_permissive()))
.await
.unwrap();
}
/// The bread-and-butter of Connect-Web, a Unary request handler.
///
/// Just to demo error handling, I've chose to return a `Result` here. If your method is
/// infallible, you could just as easily return a `HellResponse` directly. The error type I'm using
/// is defined in `error.rs` and is worth taking a quick peak at.
///
/// Like Axum, both the request AND response types just need to implement RpcFromRequestParts` and
/// `RpcIntoResponse` respectively. This allows for a ton of flexibility in what your handlers
/// actually accept/return. This is a concept very core to Axum, so I won't go too deep into the
/// ideology here.
async fn say_hello_unary(Host(host): Host, request: HelloRequest) -> Result<HelloResponse, Error> {
Ok(HelloResponse {
message: format!(
"Hello {}! You're addressing the hostname: {}.",
request.name.unwrap_or_else(|| "unnamed".to_string()),
host
),
})
}
/// This is a server-streaming request handler. Much more rare to see one in the wild, but they
/// sure are useful when you need them! axum-connect has only partial support for everything
/// connect-web defines in server-streaming requests. For example, it doesn't define a way to
/// return trailers. I've never once actually needed them, so it feels weird to muddy the API just
/// to support such a niche use. Trailers are IMO the worst single decision gRPC made, locking them
/// into HTTP/2 forever. I'm not a fan -.-
///
/// You can however return a stream of anything that converts `RpcIntoResponse`, just like the
/// unary handlers. Again, very flexible. In this case I'm using the amazing `async-stream` crate
/// to make the code nice and readable.
async fn stream_three_reponses(
Host(host): Host,
request: HelloRequest,
) -> impl Stream<Item = HelloResponse> {
stream! {
yield HelloResponse { message: "Hello".to_string() };
tokio::time::sleep(std::time::Duration::from_secs(1)).await;
yield HelloResponse { message: request.name().to_string() };
tokio::time::sleep(std::time::Duration::from_secs(1)).await;
yield HelloResponse { message: format!("You're addressing the hostname: {}", host) };
tokio::time::sleep(std::time::Duration::from_secs(1)).await;
}
}
SEND IT 🚀
cargo run -p axum-connect-example
It's Connect RPCs, so you can use the Buf Studio to test things out! https://buf.build/studio/athilenius/axum-connect/main/hello.HelloWorldService/SayHello?target=http%3A%2F%2Flocalhost%3A3030
Request/Response Parts 🙍♂️
Both the request and response types are derived in axum-connect
. This might
seem redundant at first.
Let's go over the easier one first, RpcIntoResponse
. Connect RPCs are not
arbitrary HTML requests, they cannot return arbitrary HTML responses. For
example, streaming responses MUST return an HTTP 200 regardless of error state.
Keeping with Axum's (fantastic) paradigm, that is enforced by the type system.
RPC handlers may not return arbitrary HTML, but instead must return something
that axum-connect
knows how to turn into a valid Connect response.
Somewhat less intuitively, axum-connect
derives RpcFromRequestParts
, which
is almost identical to Axum's FromRequestParts
. Importantly though,
FromRequestParts
can return back an error of arbitrary HTML responses, which
is a problem for the same reason.
Axum also allows a FromRequest
to occupy the last parameter in a handler which
consumed the remainder of the HTTP request (including the body). axum-connect
needs to handle the request input itself, so there is no equivalent for RPCs
handlers.
Roadmap / Stated Non-Goals 🛣️
- Explore better typing than
RpcFromRequestParts
- Ideally clients only need to provide an
RpcIntoError
, but I haven't fully thought this problem through. I just know that having to specific both aFromRequestParts
and anRpcFromRequestParts
on custom types is a PITA.
- Ideally clients only need to provide an
- Rework error responses to allow for multiple errors
- Version checking between generated and runtime code
- A plan for forward-compatibility
- Bring everything in-line with
connect-web
and... - Comprehensive integration tests
More Distant Goals 🌜
- I would love to also support a WASM-ready client library
- Use
buf.build
to support remote codegen and streamlined proto handling - Support gRPC calls
- I don't think this is hard to do, I just have no personal use-case for it
- Possibly maybe-someday support BiDi streaming over WebRTC
- This would require
connect-web
picking up support for the same - WebRTC streams because they are DTLS/SRTP and are resilient
- This would require
- Replace Prost (with something custom and simpler)
Non-goals 🙅
- To support every feature gRPC does
- You get a lot of this already with Axum, but gRPC is a monster that I don't wish to reproduce. That complexity is useful for Google, and gets in the way for pretty much everyone else.
- To do everything and integrate with everything
- I plan on keeping
axum-connect
highly focused. Good at what it does and nothing else. - This is idiomatic Rust. Do one thing well, and leave the rest to other crates.
- I plan on keeping
Prost and Protobuf 📖
Protoc Version
The installed version of protoc
can be configured in the
AxumConnectGenSettings
if you need/wish to do so. Setting the value to None
will disable the download entirely.
Reasoning
Prost stopped shipping protoc
binaries (a decision I disagree with) so
axum-connect-build
internally uses
protoc-fetcher to download and
resolve a copy of protoc
. This is far more turnkey than forcing every build
environment (often Heroku and/or Docker) to have a recent protoc
binary
pre-installed. This behavior can be disabled if you disagree, or if you need to
comply with corporate policy, or your build environment is offline.
I would someday like to replace all of it with a new 'lean and mean' protoc library for the Rust community. One with a built-in parser, that supports only the latest proto3 syntax as well as the canonical JSON serialization format and explicitly doesn't support many of the rarely used features. But that day is not today.
License 🧾
Axum-Connect is dual licensed (at your option)
- MIT License (LICENSE-MIT or http://opensource.org/licenses/MIT)
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)