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streameroo

A collection of mini-frameworks & tools for building asynchronous applications in rust.

What is this crate for?

streameroo is a collection of mini-frameworks & tools for building asynchronous applications in rust. I built a small version of my ideas for working with AMQP using lapin and tokio, I have a few plans for working with fluvio.

AMQP

Through traits & wrapper types you can instrument the framework to take care of a lot of boilerplate and verbose pain when working with lapin. The inner workings of streameroo might change, however I am satisfied with the API, so that will very very likely NOT change in a breaking manner.

This mini-framework takes care of:

  • ack/nack operations on various types of errors
  • deserialization and serialization of your events
  • Global state management for your handlers
  • Post event-consumption actions:
    1. Publish an event
    2. Respond to a RPC request (reply-to, standard)
    3. Custom?
  • Provides ChannelExt for slightly more convenient publishing of events

Whats missing?

  • Batch consuming/acknowledging to maximize throughput. streameroo currently runs on a single Channel, (You can initialize multiple instances of Streameroo with different channels) and also doesn't support message batching & batch acks

Quickstart

Create a struct for the event you want to handle. If you are using common formats like JSON, MsgPack or other support formats by streameroo all you need is a DeserializeOwned implementing struct.

#[derive(Debug, Deserialize)]
struct MyEvent {
    hello: String
}

Now create a handler. A handler is anything that implements the AMQPHandler trait, you're not supposed to implement this trait yourself, its implemented automatically for matching async functions.

async fn test_event_handler(
    pgpool: State<PgPool>,
    redelivered: Redelivered,
    event: Json<MyEvent>,
)

Lets dissect this a bit:

  • pgpool: This is a global state that you can access in your handler, if you don't provide it in the context it'll panic. You can extract any piece of global data, as long as you have initialized it in the context.
  • exchange: This uses the Redelivered extractor to access the redelivered flag of the delivery.
  • event: This is the event you want to handle. The Json extractor instructs streameroo to deserialize MyEvent using serde_json. For custom protocols that are not covered by the framework you can either just use Vec<u8> or implement Decode yourself.

Now you can create a Streameroo instance and consume events from a queue. The instance of the application runs on top of a Channel, if you want to use multiple channels you need to re-initialize the context, plans to improve on this will come later. However most of the time only a single Channel is used for consumption.

// Connect to the broker and create a channel
// This could be shortened and implemented on top of `Streameroo` in the future if this feels clunky
let url = "amqp://user:password@localhost:5672";
let connection = lapin::Connection::connect(url, Default::default()).await?;
let channel = connection.create_channel().await?;
// Initialize your application's context (global state + channel)
let mut context = Context::new(ctx.channel.clone());
// Add any global state you want to access in your handler, for example a database connection
context.data(pgpool);
// Give your app a consumer tag and the context
let mut app = Streameroo::new(context, "test-consumer");
// Now you can spawn as many consumers as you want
app.consume(test_event_handler, "test").await?;

AMQPHandler

The AMQPHandler trait is used to define a handler for a specific event. Its implemented for all async functions that return a Result<T, E> where T is AMQPResult and E can be turned into a boxed error type.

async fn test_event_handler(
    counter: StateOwned<Arc<AtomicU8>>,
    exchange: Exchange,
    redelivered: Redelivered,
    event: Json<TestEvent>,
) -> anyhow::Result<()> {
    let event = event.into_inner();

    assert_eq!(exchange.into_inner(), "");
    assert_eq!(event.0, "hello");
    let count = counter.load(Ordering::Relaxed);
    tracing::info!(?count);
    if count == 0 {
        assert!(!redelivered.into_inner());
    } else {
        assert!(redelivered.into_inner());
    }
    if count < 3 {
        counter.fetch_add(1, Ordering::Relaxed);
        anyhow::bail!("Go again");
    }
    Ok(())
}

This is a valid handler. All required values are extracted and injected into it at runtime.

AMQPResult

The AMQPResult trait is used to control what happens to a delivery after it has been handled by your handler. The body of the AMQPResult implementation is executed before attempting to acknowledge the delivery. If the impl fails the delivery is nack'ed Some common impls are:

  • () Nothing happens, the delivery is acknowledged as is.
  • Publish<E> Publishes the event to the exchange specified in the Publish struct. E implements Encode. Encode is implemented for most common formats like JSON, MsgPack and others through the wrapper types.
  • DeliveryAction is for fine-grained control, the best way to use this is set your error type to Infallible and handle everything yourself by returning the correct Deliveryaction for your usecase. When returning this value the automatic ack of the framework is disabled as its taken care of by the DeliveryAction impl.
  • PublishReply<E> follows the RPC pattern for rabbitmq. It publishes the event E t the queue specified in the reply-to header.

ChannelExt

ChannelExt is an extension trait for lapin's Channel type that allows working with events with slightly less boilerplate and reuse the wrapper types and Decode/Encode traits. The most useful one is the direct_rpc method which implements the direct reply to RPC pattern from the RabbitMQ docs.

let result: Json<TestEvent> = channel
    .direct_rpc(
        "",
        &queue,
        Duration::from_secs(5),
        Json(TestEvent("hello".into())),
    )
    .await?;

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Framework for event driven applications in rust

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