/// An implementation of [`poll_ready`]() that always signals readiness. /// /// This should only be used for basic leaf services that have no concept of un-readiness. /// For wrapper or other serivice types, use [`forward_ready!`] for simple cases or write a bespoke /// `poll_ready` implementation. /// /// [`poll_ready`]: crate::Service::poll_ready /// /// # Examples /// ```no_run /// use actix_service::Service; /// use futures_util::future::{ready, Ready}; /// /// struct IdentityService; /// /// impl Service for IdentityService { /// type Response = u32; /// type Error = (); /// type Future = Ready>; /// /// actix_service::always_ready!(); /// /// fn call(&self, req: u32) -> Self::Future { /// ready(Ok(req)) /// } /// } /// ``` #[macro_export] macro_rules! always_ready { () => { #[inline] fn poll_ready( &self, _: &mut ::core::task::Context<'_>, ) -> ::core::task::Poll> { ::core::task::Poll::Ready(Ok(())) } }; } /// An implementation of [`poll_ready`] that forwards readiness checks to a /// named struct field. /// /// Tuple structs are not supported. /// /// [`poll_ready`]: crate::Service::poll_ready /// /// # Examples /// ```no_run /// use actix_service::Service; /// use futures_util::future::{ready, Ready}; /// /// struct WrapperService { /// inner: S, /// } /// /// impl Service<()> for WrapperService /// where /// S: Service<()>, /// { /// type Response = S::Response; /// type Error = S::Error; /// type Future = S::Future; /// /// actix_service::forward_ready!(inner); /// /// fn call(&self, req: ()) -> Self::Future { /// self.inner.call(req) /// } /// } /// ``` #[macro_export] macro_rules! forward_ready { ($field:ident) => { #[inline] fn poll_ready( &self, cx: &mut ::core::task::Context<'_>, ) -> ::core::task::Poll> { self.$field .poll_ready(cx) .map_err(::core::convert::Into::into) } }; } #[cfg(test)] mod tests { use core::{ cell::Cell, convert::Infallible, task::{self, Context, Poll}, }; use futures_util::{ future::{ready, Ready}, task::noop_waker, }; use crate::Service; struct IdentityService; impl Service for IdentityService { type Response = u32; type Error = Infallible; type Future = Ready>; always_ready!(); fn call(&self, req: u32) -> Self::Future { ready(Ok(req)) } } struct CountdownService(Cell); impl Service<()> for CountdownService { type Response = (); type Error = Infallible; type Future = Ready>; fn poll_ready(&self, cx: &mut Context<'_>) -> Poll> { let count = self.0.get(); if count == 0 { Poll::Ready(Ok(())) } else { self.0.set(count - 1); cx.waker().wake_by_ref(); Poll::Pending } } fn call(&self, _: ()) -> Self::Future { ready(Ok(())) } } struct WrapperService { inner: S, } impl Service<()> for WrapperService where S: Service<()>, { type Response = S::Response; type Error = S::Error; type Future = S::Future; forward_ready!(inner); fn call(&self, _: ()) -> Self::Future { self.inner.call(()) } } #[test] fn test_always_ready_macro() { let waker = noop_waker(); let mut cx = task::Context::from_waker(&waker); let svc = IdentityService; assert!(svc.poll_ready(&mut cx).is_ready()); assert!(svc.poll_ready(&mut cx).is_ready()); assert!(svc.poll_ready(&mut cx).is_ready()); } #[test] fn test_forward_ready_macro() { let waker = noop_waker(); let mut cx = task::Context::from_waker(&waker); let svc = WrapperService { inner: CountdownService(Cell::new(3)), }; assert!(svc.poll_ready(&mut cx).is_pending()); assert!(svc.poll_ready(&mut cx).is_pending()); assert!(svc.poll_ready(&mut cx).is_pending()); assert!(svc.poll_ready(&mut cx).is_ready()); } }