Server signals are leptos signals kept in sync with the server through server-sent-events (SSE).
The signals are read-only on the client side, and can be written to by the server. This is useful if you want real-time updates on the UI controlled by the server.
Changes to a signal are sent through a SSE to the client as json patches.
This project is heavily based on leptos_server_signal.
ssr
: ssr is enabled when rendering the app on the server.actix
: integration with the Actix web framework.axum
: integration with the Axum web framework.
Cargo.toml
[dependencies]
leptos_sse = "*"
serde = { version = "*", features = ["derive"] }
[features]
ssr = [
"leptos_sse/ssr",
"leptos_sse/axum", # or actix
]
Client
use leptos::*;
use leptos_sse::create_sse_signal;
use serde::{Deserialize, Serialize};
#[derive(Clone, Default, Serialize, Deserialize)]
pub struct Count {
pub value: i32,
}
#[component]
pub fn App() -> impl IntoView {
// Provide SSE connection
leptos_sse::provide_sse("http://localhost:3000/sse").unwrap();
// Create server signal
let count = create_sse_signal::<Count>("counter");
view! {
<h1>"Count: " {move || count().value.to_string()}</h1>
}
}
If on stable, use
count.get().value
instead ofcount().value
.
Server (Axum)
#[cfg(feature = "ssr")]
use {
axum::response::sse::{Event, KeepAlive, Sse},
futures::stream::Stream,
};
#[cfg(feature = "ssr")]
async fn handle_sse() -> Sse<impl Stream<Item = Result<Event, axum::BoxError>>> {
use futures::stream;
use leptos_sse::ServerSentEvents;
use std::time::Duration;
use tokio_stream::StreamExt as _;
let mut value = 0;
let stream = ServerSentEvents::new(
"counter",
stream::repeat_with(move || {
let curr = value;
value += 1;
Ok(Count { value: curr })
})
.throttle(Duration::from_secs(1)),
)
.unwrap();
Sse::new(stream).keep_alive(KeepAlive::default())
}
This work is released under the MIT license. A copy of the license is provided in the LICENSE file.