4.4 KiB
4.4 KiB
axum-app-wrapper
A small plugin layer for axum applications, inspired by fastify from the Node/JS ecosystem.
Plugins can:
- add startup state before the final axum state type exists
- add routes, services, and middleware after state is initialized
- run graceful shutdown work in reverse registration order
This crate is intentionally thin. It does not replace axum's router, extractors, or middleware. Rather, it organizes your server setup and teardown into plugins.
Lifecycle
App::init() runs plugins in this order:
on_initin registration order, passing aTypeMapto build state.S::try_from(TypeMap)to build the final typed app state.on_setupin registration order, passingRouter<S>and&S.on_shutdownconsecutively in reverse registration order
Example
use std::{net::SocketAddr, sync::Arc};
use axum::{
extract::State,
routing::get,
Extension,
};
use axum_app_wrapper::{AdHocPlugin, App, AppState};
#[derive(Clone, AppState)]
struct AppState {
config: Arc<Config>,
metrics: Arc<Metrics>,
}
#[derive(Clone)]
struct Config {
service_name: String,
}
struct Metrics;
impl Metrics {
fn new() -> Self {
Self
}
async fn flush(&self) {
tracing::info!("flushed metrics");
}
}
async fn health(State(state): State<AppState>) -> String {
format!("{}:ok", state.config.service_name)
}
async fn metrics_handler(Extension(metrics): Extension<Arc<Metrics>>) -> &'static str {
let _metrics = metrics;
"metrics:ok"
}
#[tokio::main]
async fn main() -> anyhow::Result<()> {
let config = Arc::new(Config {
service_name: "api".to_owned(),
});
let metrics_registry = Arc::new(Metrics::new());
let config_plugin = AdHocPlugin::<AppState>::new()
.on_init(async move |mut state| {
state.insert(config);
Ok(state)
})
.on_setup(|router, state| {
tracing::info!(service = %state.config.service_name, "configuring routes");
Ok(router.route("/health", get(health)))
});
let metrics_plugin = AdHocPlugin::<AppState>::new()
.on_init(async move |mut state| {
state.insert(metrics_registry);
Ok(state)
})
.on_setup(|router, state| {
Ok(router
.route("/metrics", get(metrics_handler))
.layer(Extension(Arc::clone(&state.metrics))))
})
.on_shutdown(|state| {
let metrics = Arc::clone(&state.metrics);
async move {
metrics.flush().await;
}
});
let app = App::<AppState>::new()
.register(config_plugin)
.register(metrics_plugin);
let (router, state, on_shutdown) = app.init().await?;
let router = router.with_state(state);
let addr: SocketAddr = "127.0.0.1:3000".parse()?;
let listener = tokio::net::TcpListener::bind(addr).await?;
axum::serve(listener, router)
.with_graceful_shutdown(async {
tokio::signal::ctrl_c().await.expect("failed to listen for ctrl-c");
on_shutdown.await;
})
.await?;
Ok(())
}
For on_setup closures that access typed state, construct the plugin as
AdHocPlugin::<AppState>::new(). That gives Rust enough context to infer the state parameter:
let plugin = AdHocPlugin::<AppState>::new()
.on_setup(|router, state| {
let config = Arc::clone(&state.config);
Ok(router.layer(axum::Extension(config)))
});
Reusable Plugins
Implement AppPlugin<S> directly when setup should be reusable across apps:
use axum::Router;
use axum_app_wrapper::{AppPlugin, TypeMap};
use futures::{future::BoxFuture, FutureExt};
struct ConfigPlugin {
config: Config,
}
impl AppPlugin<AppState> for ConfigPlugin {
fn on_init(&mut self, mut state: TypeMap) -> BoxFuture<'static, anyhow::Result<TypeMap>> {
let config = self.config.clone();
async move {
state.insert(config);
Ok(state)
}
.boxed()
}
fn on_setup(
&mut self,
router: Router<AppState>,
_state: &AppState,
) -> anyhow::Result<Router<AppState>> {
Ok(router.route("/health", axum::routing::get(health)))
}
}
Shutdown hooks run like stack unwinding: the last registered plugin shuts down first, and each hook finishes before the next one starts.