use std::fmt; use miow::iocp::CompletionStatus; use super::afd; use crate::Token; #[derive(Clone)] pub struct Event { pub flags: u32, pub data: u64, } pub fn token(event: &Event) -> Token { Token(event.data as usize) } impl Event { pub(super) fn new(token: Token) -> Event { Event { flags: 0, data: usize::from(token) as u64, } } pub(super) fn set_readable(&mut self) { self.flags |= afd::POLL_RECEIVE } #[cfg(feature = "os-ext")] pub(super) fn set_writable(&mut self) { self.flags |= afd::POLL_SEND; } pub(super) fn from_completion_status(status: &CompletionStatus) -> Event { Event { flags: status.bytes_transferred(), data: status.token() as u64, } } pub(super) fn to_completion_status(&self) -> CompletionStatus { CompletionStatus::new(self.flags, self.data as usize, std::ptr::null_mut()) } } pub(crate) const READABLE_FLAGS: u32 = afd::POLL_RECEIVE | afd::POLL_DISCONNECT | afd::POLL_ACCEPT | afd::POLL_ABORT | afd::POLL_CONNECT_FAIL; pub(crate) const WRITABLE_FLAGS: u32 = afd::POLL_SEND | afd::POLL_ABORT | afd::POLL_CONNECT_FAIL; pub(crate) const ERROR_FLAGS: u32 = afd::POLL_CONNECT_FAIL; pub(crate) const READ_CLOSED_FLAGS: u32 = afd::POLL_DISCONNECT | afd::POLL_ABORT | afd::POLL_CONNECT_FAIL; pub(crate) const WRITE_CLOSED_FLAGS: u32 = afd::POLL_ABORT | afd::POLL_CONNECT_FAIL; pub fn is_readable(event: &Event) -> bool { event.flags & READABLE_FLAGS != 0 } pub fn is_writable(event: &Event) -> bool { event.flags & WRITABLE_FLAGS != 0 } pub fn is_error(event: &Event) -> bool { event.flags & ERROR_FLAGS != 0 } pub fn is_read_closed(event: &Event) -> bool { event.flags & READ_CLOSED_FLAGS != 0 } pub fn is_write_closed(event: &Event) -> bool { event.flags & WRITE_CLOSED_FLAGS != 0 } pub fn is_priority(event: &Event) -> bool { event.flags & afd::POLL_RECEIVE_EXPEDITED != 0 } pub fn is_aio(_: &Event) -> bool { // Not supported. false } pub fn is_lio(_: &Event) -> bool { // Not supported. false } pub fn debug_details(f: &mut fmt::Formatter<'_>, event: &Event) -> fmt::Result { #[allow(clippy::trivially_copy_pass_by_ref)] fn check_flags(got: &u32, want: &u32) -> bool { (got & want) != 0 } debug_detail!( FlagsDetails(u32), check_flags, afd::POLL_RECEIVE, afd::POLL_RECEIVE_EXPEDITED, afd::POLL_SEND, afd::POLL_DISCONNECT, afd::POLL_ABORT, afd::POLL_LOCAL_CLOSE, afd::POLL_CONNECT, afd::POLL_ACCEPT, afd::POLL_CONNECT_FAIL, ); f.debug_struct("event") .field("flags", &FlagsDetails(event.flags)) .field("data", &event.data) .finish() } pub struct Events { /// Raw I/O event completions are filled in here by the call to `get_many` /// on the completion port above. These are then processed to run callbacks /// which figure out what to do after the event is done. pub statuses: Box<[CompletionStatus]>, /// Literal events returned by `get` to the upwards `EventLoop`. This file /// doesn't really modify this (except for the waker), instead almost all /// events are filled in by the `ReadinessQueue` from the `poll` module. pub events: Vec, } impl Events { pub fn with_capacity(cap: usize) -> Events { // Note that it's possible for the output `events` to grow beyond the // capacity as it can also include deferred events, but that's certainly // not the end of the world! Events { statuses: vec![CompletionStatus::zero(); cap].into_boxed_slice(), events: Vec::with_capacity(cap), } } pub fn is_empty(&self) -> bool { self.events.is_empty() } pub fn capacity(&self) -> usize { self.events.capacity() } pub fn len(&self) -> usize { self.events.len() } pub fn get(&self, idx: usize) -> Option<&Event> { self.events.get(idx) } pub fn clear(&mut self) { self.events.clear(); for status in self.statuses.iter_mut() { *status = CompletionStatus::zero(); } } }