use core::cell::RefCell; use core::future::poll_fn; use core::mem; use core::task::Poll; use smoltcp::iface::{Interface, SocketHandle}; use smoltcp::socket::tcp; use smoltcp::time::Duration; use smoltcp::wire::{IpEndpoint, IpListenEndpoint}; use crate::device::Device; use crate::{SocketStack, Stack}; #[derive(PartialEq, Eq, Clone, Copy, Debug)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum Error { ConnectionReset, } #[derive(PartialEq, Eq, Clone, Copy, Debug)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum ConnectError { /// The socket is already connected or listening. InvalidState, /// The remote host rejected the connection with a RST packet. ConnectionReset, /// Connect timed out. TimedOut, /// No route to host. NoRoute, } #[derive(PartialEq, Eq, Clone, Copy, Debug)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub enum AcceptError { /// The socket is already connected or listening. InvalidState, /// Invalid listen port InvalidPort, /// The remote host rejected the connection with a RST packet. ConnectionReset, } pub struct TcpSocket<'a> { io: TcpIo<'a>, } pub struct TcpReader<'a> { io: TcpIo<'a>, } pub struct TcpWriter<'a> { io: TcpIo<'a>, } impl<'a> TcpReader<'a> { pub async fn read(&mut self, buf: &mut [u8]) -> Result { self.io.read(buf).await } } impl<'a> TcpWriter<'a> { pub async fn write(&mut self, buf: &[u8]) -> Result { self.io.write(buf).await } } impl<'a> TcpSocket<'a> { pub fn new(stack: &'a Stack, rx_buffer: &'a mut [u8], tx_buffer: &'a mut [u8]) -> Self { let s = &mut *stack.socket.borrow_mut(); let rx_buffer: &'static mut [u8] = unsafe { mem::transmute(rx_buffer) }; let tx_buffer: &'static mut [u8] = unsafe { mem::transmute(tx_buffer) }; let handle = s.sockets.add(tcp::Socket::new( tcp::SocketBuffer::new(rx_buffer), tcp::SocketBuffer::new(tx_buffer), )); Self { io: TcpIo { stack: &stack.socket, handle, }, } } pub fn split(&mut self) -> (TcpReader<'_>, TcpWriter<'_>) { (TcpReader { io: self.io }, TcpWriter { io: self.io }) } pub async fn connect(&mut self, remote_endpoint: T) -> Result<(), ConnectError> where T: Into, { let local_port = self.io.stack.borrow_mut().get_local_port(); match { self.io .with_mut(|s, i| s.connect(i.context(), remote_endpoint, local_port)) } { Ok(()) => {} Err(tcp::ConnectError::InvalidState) => return Err(ConnectError::InvalidState), Err(tcp::ConnectError::Unaddressable) => return Err(ConnectError::NoRoute), } poll_fn(|cx| { self.io.with_mut(|s, _| match s.state() { tcp::State::Closed | tcp::State::TimeWait => Poll::Ready(Err(ConnectError::ConnectionReset)), tcp::State::Listen => unreachable!(), tcp::State::SynSent | tcp::State::SynReceived => { s.register_send_waker(cx.waker()); Poll::Pending } _ => Poll::Ready(Ok(())), }) }) .await } pub async fn accept(&mut self, local_endpoint: T) -> Result<(), AcceptError> where T: Into, { match self.io.with_mut(|s, _| s.listen(local_endpoint)) { Ok(()) => {} Err(tcp::ListenError::InvalidState) => return Err(AcceptError::InvalidState), Err(tcp::ListenError::Unaddressable) => return Err(AcceptError::InvalidPort), } poll_fn(|cx| { self.io.with_mut(|s, _| match s.state() { tcp::State::Listen | tcp::State::SynSent | tcp::State::SynReceived => { s.register_send_waker(cx.waker()); Poll::Pending } _ => Poll::Ready(Ok(())), }) }) .await } pub async fn read(&mut self, buf: &mut [u8]) -> Result { self.io.read(buf).await } pub async fn write(&mut self, buf: &[u8]) -> Result { self.io.write(buf).await } pub fn set_timeout(&mut self, duration: Option) { self.io.with_mut(|s, _| s.set_timeout(duration)) } pub fn set_keep_alive(&mut self, interval: Option) { self.io.with_mut(|s, _| s.set_keep_alive(interval)) } pub fn set_hop_limit(&mut self, hop_limit: Option) { self.io.with_mut(|s, _| s.set_hop_limit(hop_limit)) } pub fn local_endpoint(&self) -> Option { self.io.with(|s, _| s.local_endpoint()) } pub fn remote_endpoint(&self) -> Option { self.io.with(|s, _| s.remote_endpoint()) } pub fn state(&self) -> tcp::State { self.io.with(|s, _| s.state()) } pub fn close(&mut self) { self.io.with_mut(|s, _| s.close()) } pub fn abort(&mut self) { self.io.with_mut(|s, _| s.abort()) } pub fn may_send(&self) -> bool { self.io.with(|s, _| s.may_send()) } pub fn may_recv(&self) -> bool { self.io.with(|s, _| s.may_recv()) } } impl<'a> Drop for TcpSocket<'a> { fn drop(&mut self) { self.io.stack.borrow_mut().sockets.remove(self.io.handle); } } // ======================= #[derive(Copy, Clone)] struct TcpIo<'a> { stack: &'a RefCell, handle: SocketHandle, } impl<'d> TcpIo<'d> { fn with(&self, f: impl FnOnce(&tcp::Socket, &Interface) -> R) -> R { let s = &*self.stack.borrow(); let socket = s.sockets.get::(self.handle); f(socket, &s.iface) } fn with_mut(&mut self, f: impl FnOnce(&mut tcp::Socket, &mut Interface) -> R) -> R { let s = &mut *self.stack.borrow_mut(); let socket = s.sockets.get_mut::(self.handle); let res = f(socket, &mut s.iface); s.waker.wake(); res } async fn read(&mut self, buf: &mut [u8]) -> Result { poll_fn(move |cx| { // CAUTION: smoltcp semantics around EOF are different to what you'd expect // from posix-like IO, so we have to tweak things here. self.with_mut(|s, _| match s.recv_slice(buf) { // No data ready Ok(0) => { s.register_recv_waker(cx.waker()); Poll::Pending } // Data ready! Ok(n) => Poll::Ready(Ok(n)), // EOF Err(tcp::RecvError::Finished) => Poll::Ready(Ok(0)), // Connection reset. TODO: this can also be timeouts etc, investigate. Err(tcp::RecvError::InvalidState) => Poll::Ready(Err(Error::ConnectionReset)), }) }) .await } async fn write(&mut self, buf: &[u8]) -> Result { poll_fn(move |cx| { self.with_mut(|s, _| match s.send_slice(buf) { // Not ready to send (no space in the tx buffer) Ok(0) => { s.register_send_waker(cx.waker()); Poll::Pending } // Some data sent Ok(n) => Poll::Ready(Ok(n)), // Connection reset. TODO: this can also be timeouts etc, investigate. Err(tcp::SendError::InvalidState) => Poll::Ready(Err(Error::ConnectionReset)), }) }) .await } #[allow(unused)] async fn flush(&mut self) -> Result<(), Error> { poll_fn(move |_| { Poll::Ready(Ok(())) // TODO: Is there a better implementation for this? }) .await } } #[cfg(feature = "nightly")] mod embedded_io_impls { use super::*; impl embedded_io::Error for ConnectError { fn kind(&self) -> embedded_io::ErrorKind { embedded_io::ErrorKind::Other } } impl embedded_io::Error for Error { fn kind(&self) -> embedded_io::ErrorKind { embedded_io::ErrorKind::Other } } impl<'d> embedded_io::Io for TcpSocket<'d> { type Error = Error; } impl<'d> embedded_io::asynch::Read for TcpSocket<'d> { async fn read(&mut self, buf: &mut [u8]) -> Result { self.io.read(buf).await } } impl<'d> embedded_io::asynch::Write for TcpSocket<'d> { async fn write(&mut self, buf: &[u8]) -> Result { self.io.write(buf).await } async fn flush(&mut self) -> Result<(), Self::Error> { self.io.flush().await } } impl<'d> embedded_io::Io for TcpReader<'d> { type Error = Error; } impl<'d> embedded_io::asynch::Read for TcpReader<'d> { async fn read(&mut self, buf: &mut [u8]) -> Result { self.io.read(buf).await } } impl<'d> embedded_io::Io for TcpWriter<'d> { type Error = Error; } impl<'d> embedded_io::asynch::Write for TcpWriter<'d> { async fn write(&mut self, buf: &[u8]) -> Result { self.io.write(buf).await } async fn flush(&mut self) -> Result<(), Self::Error> { self.io.flush().await } } } #[cfg(all(feature = "unstable-traits", feature = "nightly"))] pub mod client { use core::cell::UnsafeCell; use core::mem::MaybeUninit; use core::ptr::NonNull; use atomic_polyfill::{AtomicBool, Ordering}; use embedded_nal_async::IpAddr; use super::*; /// TCP client capable of creating up to N multiple connections with tx and rx buffers according to TX_SZ and RX_SZ. pub struct TcpClient<'d, D: Device, const N: usize, const TX_SZ: usize = 1024, const RX_SZ: usize = 1024> { stack: &'d Stack, state: &'d TcpClientState, } impl<'d, D: Device, const N: usize, const TX_SZ: usize, const RX_SZ: usize> TcpClient<'d, D, N, TX_SZ, RX_SZ> { /// Create a new TcpClient pub fn new(stack: &'d Stack, state: &'d TcpClientState) -> Self { Self { stack, state } } } impl<'d, D: Device, const N: usize, const TX_SZ: usize, const RX_SZ: usize> embedded_nal_async::TcpConnect for TcpClient<'d, D, N, TX_SZ, RX_SZ> { type Error = Error; type Connection<'m> = TcpConnection<'m, N, TX_SZ, RX_SZ> where Self: 'm; async fn connect<'a>( &'a self, remote: embedded_nal_async::SocketAddr, ) -> Result, Self::Error> where Self: 'a, { let addr: crate::IpAddress = match remote.ip() { IpAddr::V4(addr) => crate::IpAddress::Ipv4(crate::Ipv4Address::from_bytes(&addr.octets())), #[cfg(feature = "proto-ipv6")] IpAddr::V6(addr) => crate::IpAddress::Ipv6(crate::Ipv6Address::from_bytes(&addr.octets())), #[cfg(not(feature = "proto-ipv6"))] IpAddr::V6(_) => panic!("ipv6 support not enabled"), }; let remote_endpoint = (addr, remote.port()); let mut socket = TcpConnection::new(&self.stack, self.state)?; socket .socket .connect(remote_endpoint) .await .map_err(|_| Error::ConnectionReset)?; Ok(socket) } } pub struct TcpConnection<'d, const N: usize, const TX_SZ: usize, const RX_SZ: usize> { socket: TcpSocket<'d>, state: &'d TcpClientState, bufs: NonNull<([u8; TX_SZ], [u8; RX_SZ])>, } impl<'d, const N: usize, const TX_SZ: usize, const RX_SZ: usize> TcpConnection<'d, N, TX_SZ, RX_SZ> { fn new(stack: &'d Stack, state: &'d TcpClientState) -> Result { let mut bufs = state.pool.alloc().ok_or(Error::ConnectionReset)?; Ok(Self { socket: unsafe { TcpSocket::new(stack, &mut bufs.as_mut().0, &mut bufs.as_mut().1) }, state, bufs, }) } } impl<'d, const N: usize, const TX_SZ: usize, const RX_SZ: usize> Drop for TcpConnection<'d, N, TX_SZ, RX_SZ> { fn drop(&mut self) { unsafe { self.socket.close(); self.state.pool.free(self.bufs); } } } impl<'d, const N: usize, const TX_SZ: usize, const RX_SZ: usize> embedded_io::Io for TcpConnection<'d, N, TX_SZ, RX_SZ> { type Error = Error; } impl<'d, const N: usize, const TX_SZ: usize, const RX_SZ: usize> embedded_io::asynch::Read for TcpConnection<'d, N, TX_SZ, RX_SZ> { async fn read(&mut self, buf: &mut [u8]) -> Result { self.socket.read(buf).await } } impl<'d, const N: usize, const TX_SZ: usize, const RX_SZ: usize> embedded_io::asynch::Write for TcpConnection<'d, N, TX_SZ, RX_SZ> { async fn write(&mut self, buf: &[u8]) -> Result { self.socket.write(buf).await } async fn flush(&mut self) -> Result<(), Self::Error> { self.socket.flush().await } } /// State for TcpClient pub struct TcpClientState { pool: Pool<([u8; TX_SZ], [u8; RX_SZ]), N>, } impl TcpClientState { pub const fn new() -> Self { Self { pool: Pool::new() } } } unsafe impl Sync for TcpClientState {} struct Pool { used: [AtomicBool; N], data: [UnsafeCell>; N], } impl Pool { const VALUE: AtomicBool = AtomicBool::new(false); const UNINIT: UnsafeCell> = UnsafeCell::new(MaybeUninit::uninit()); const fn new() -> Self { Self { used: [Self::VALUE; N], data: [Self::UNINIT; N], } } } impl Pool { fn alloc(&self) -> Option> { for n in 0..N { if self.used[n].swap(true, Ordering::SeqCst) == false { let p = self.data[n].get() as *mut T; return Some(unsafe { NonNull::new_unchecked(p) }); } } None } /// safety: p must be a pointer obtained from self.alloc that hasn't been freed yet. unsafe fn free(&self, p: NonNull) { let origin = self.data.as_ptr() as *mut T; let n = p.as_ptr().offset_from(origin); assert!(n >= 0); assert!((n as usize) < N); self.used[n as usize].store(false, Ordering::SeqCst); } } }