mod utils; use crate::utils::start_server_and_client; use bromine::prelude::*; use std::time::Duration; use utils::call_counter::*; use utils::get_free_port; use utils::protocol::*; /// Simple events are passed from the client to the server and responses /// are emitted back to the client. Both will have received an event. #[tokio::test] async fn it_sends_events() { let port = get_free_port(); let ctx = get_client_with_server(port).await; ctx.emit("ping", EmptyPayload).await.unwrap(); // allow the event to be processed tokio::time::sleep(Duration::from_millis(10)).await; let counter = get_counter_from_context(&ctx).await; assert_eq!(counter.get("ping").await, 1); assert_eq!(counter.get("pong").await, 1); } /// Events sent to a specific namespace are handled by the namespace event handler #[tokio::test] async fn it_sends_namespaced_events() { let port = get_free_port(); let ctx = get_client_with_server(port).await; ctx.emit_to("test", "ping", EmptyPayload).await.unwrap(); ctx.emit_to("test", "pong", EmptyPayload).await.unwrap(); // allow the event to be processed tokio::time::sleep(Duration::from_millis(10)).await; let counter = get_counter_from_context(&ctx).await; assert_eq!(counter.get("test:ping").await, 1); assert_eq!(counter.get("test:pong").await, 1); } /// When awaiting the reply to an event the handler for the event doesn't get called. /// Therefore we expect it to have a call count of 0. #[tokio::test] async fn it_receives_responses() { let port = get_free_port(); let ctx = get_client_with_server(port).await; let reply = ctx .emit("ping", EmptyPayload) .await .unwrap() .await_reply(&ctx) .await .unwrap(); let counter = get_counter_from_context(&ctx).await; assert_eq!(reply.name(), "pong"); assert_eq!(counter.get("ping").await, 1); assert_eq!(counter.get("pong").await, 0); } /// When emitting errors from handlers the client should receive an error event /// with the error that occurred on the server. #[tokio::test] async fn it_handles_errors() { let port = get_free_port(); let ctx = get_client_with_server(port).await; ctx.emit("create_error", EmptyPayload).await.unwrap(); // allow the event to be processed tokio::time::sleep(Duration::from_millis(10)).await; let counter = get_counter_from_context(&ctx).await; assert_eq!(counter.get("error").await, 1); } /// When waiting for the reply to an event and an error occurs, the error should /// bypass the handler and be passed as the Err variant on the await reply instead. #[tokio::test] async fn it_receives_error_responses() { let port = get_free_port(); let ctx = get_client_with_server(port).await; let result = ctx .emit("create_error", EmptyPayload) .await .unwrap() .with_timeout(Duration::from_millis(100)) .await_reply(&ctx) .await; let counter = get_counter_from_context(&ctx).await; assert!(result.is_err()); assert_eq!(counter.get("error").await, 0); } async fn get_client_with_server(port: u8) -> Context { start_server_and_client(move || get_builder(port)).await } fn get_builder(port: u8) -> IPCBuilder { IPCBuilder::new() .address(port) .timeout(Duration::from_millis(100)) .on("ping", callback!(handle_ping_event)) .on("pong", callback!(handle_pong_event)) .on("create_error", callback!(handle_create_error_event)) .on("error", callback!(handle_error_event)) .namespace("test") .on("ping", callback!(handle_ping_event)) .on("pong", callback!(handle_pong_event)) .on("create_error", callback!(handle_create_error_event)) .build() } async fn handle_ping_event(ctx: &Context, event: Event) -> IPCResult<()> { increment_counter_for_event(ctx, &event).await; ctx.emit("pong", EmptyPayload).await?; Ok(()) } async fn handle_pong_event(ctx: &Context, event: Event) -> IPCResult<()> { increment_counter_for_event(ctx, &event).await; Ok(()) } async fn handle_create_error_event(ctx: &Context, event: Event) -> IPCResult<()> { increment_counter_for_event(ctx, &event).await; Err(IPCError::from("Test Error")) } async fn handle_error_event(ctx: &Context, event: Event) -> IPCResult<()> { increment_counter_for_event(ctx, &event).await; Ok(()) } pub struct EmptyPayload; impl IntoPayload for EmptyPayload { fn into_payload(self, _: &Context) -> IPCResult> { Ok(vec![]) } }