use crate::context::Context; use crate::error::Result; use crate::events::event::Event; use serde::Serialize; use std::sync::Arc; use tokio::io::AsyncWriteExt; use tokio::net::tcp::OwnedWriteHalf; use tokio::sync::Mutex; /// An abstraction over the raw tokio tcp stream /// to emit events and share a connection across multiple /// contexts. #[derive(Clone)] pub struct StreamEmitter { stream: Arc>, } impl StreamEmitter { pub fn new(stream: OwnedWriteHalf) -> Self { Self { stream: Arc::new(Mutex::new(stream)), } } pub async fn _emit( &self, event: &str, data: T, res_id: Option, ) -> Result { let data_bytes = rmp_serde::to_vec(&data)?; let event = Event::new(event.to_string(), data_bytes, res_id); let event_bytes = event.to_bytes()?; { let mut stream = self.stream.lock().await; (*stream).write_all(&event_bytes[..]).await?; } Ok(EmitMetadata::new(event.id())) } /// Emits an event pub async fn emit(&self, event: &str, data: T) -> Result { let metadata = self._emit(event, data, None).await?; Ok(metadata) } /// Emits a response to an event pub async fn emit_response( &self, event_id: u64, event: &str, data: T, ) -> Result { let metadata = self._emit(event, data, Some(event_id)).await?; Ok(metadata) } } /// A metadata object returned after emitting an event. /// This object can be used to wait for a response to an event. pub struct EmitMetadata { message_id: u64, } impl EmitMetadata { pub(crate) fn new(message_id: u64) -> Self { Self { message_id } } /// The ID of the emitted message pub fn message_id(&self) -> u64 { self.message_id } /// Waits for a reply to the given message. pub async fn await_reply(&self, ctx: &Context) -> Result { let reply = ctx.await_reply(self.message_id).await?; Ok(reply) } }