// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. use crate::io::TcpStreamResource; use crate::ops_tls::TlsStreamResource; use deno_core::error::bad_resource; use deno_core::error::bad_resource_id; use deno_core::error::AnyError; use deno_core::AsyncRefCell; use deno_core::CancelHandle; use deno_core::Resource; use deno_core::ResourceId; use deno_core::ResourceTable; use std::borrow::Cow; use std::rc::Rc; pub trait NetworkStreamTrait: Into { type Resource; const RESOURCE_NAME: &'static str; fn local_address(&self) -> Result; fn peer_address(&self) -> Result; } #[allow(async_fn_in_trait)] pub trait NetworkStreamListenerTrait: Into + Send + Sync { type Stream: NetworkStreamTrait + 'static; type Addr: Into + 'static; /// Additional data, if needed type ResourceData: Default; const RESOURCE_NAME: &'static str; async fn accept(&self) -> std::io::Result<(Self::Stream, Self::Addr)>; fn listen_address(&self) -> Result; } /// A strongly-typed network listener resource for something that /// implements `NetworkListenerTrait`. pub struct NetworkListenerResource { pub listener: AsyncRefCell, /// Associated data for this resource. Not required. #[allow(unused)] pub data: T::ResourceData, pub cancel: CancelHandle, } impl Resource for NetworkListenerResource { fn name(&self) -> Cow { T::RESOURCE_NAME.into() } fn close(self: Rc) { self.cancel.cancel(); } } impl NetworkListenerResource { pub fn new(t: T) -> Self { Self { listener: AsyncRefCell::new(t), data: Default::default(), cancel: Default::default(), } } /// Returns a [`NetworkStreamListener`] from this resource if it is not in use elsewhere. fn take( resource_table: &mut ResourceTable, listener_rid: ResourceId, ) -> Result, AnyError> { if let Ok(resource_rc) = resource_table.take::(listener_rid) { let resource = Rc::try_unwrap(resource_rc) .map_err(|_| bad_resource("Listener is currently in use"))?; return Ok(Some(resource.listener.into_inner().into())); } Ok(None) } } /// Each of the network streams has the exact same pattern for listening, accepting, etc, so /// we just codegen them all via macro to avoid repeating each one of these N times. macro_rules! network_stream { ( $([$i:ident, $il:ident, $stream:path, $listener:path, $addr:path, $stream_resource:ty]),* ) => { /// A raw stream of one of the types handled by this extension. #[pin_project::pin_project(project = NetworkStreamProject)] pub enum NetworkStream { $( $i (#[pin] $stream), )* } /// A raw stream of one of the types handled by this extension. #[derive(Copy, Clone, PartialEq, Eq)] pub enum NetworkStreamType { $( $i, )* } /// A raw stream listener of one of the types handled by this extension. pub enum NetworkStreamListener { $( $i( $listener ), )* } $( impl NetworkStreamListenerTrait for $listener { type Stream = $stream; type Addr = $addr; type ResourceData = (); const RESOURCE_NAME: &'static str = concat!(stringify!($il), "Listener"); async fn accept(&self) -> std::io::Result<(Self::Stream, Self::Addr)> { <$listener> :: accept(self).await } fn listen_address(&self) -> std::io::Result { self.local_addr() } } impl From<$listener> for NetworkStreamListener { fn from(value: $listener) -> Self { Self::$i(value) } } impl NetworkStreamTrait for $stream { type Resource = $stream_resource; const RESOURCE_NAME: &'static str = concat!(stringify!($il), "Stream"); fn local_address(&self) -> Result { Ok(NetworkStreamAddress::from(self.local_addr()?)) } fn peer_address(&self) -> Result { Ok(NetworkStreamAddress::from(self.peer_addr()?)) } } impl From<$stream> for NetworkStream { fn from(value: $stream) -> Self { Self::$i(value) } } )* impl NetworkStream { pub fn local_address(&self) -> Result { match self { $( Self::$i(stm) => Ok(NetworkStreamAddress::from(stm.local_addr()?)), )* } } pub fn peer_address(&self) -> Result { match self { $( Self::$i(stm) => Ok(NetworkStreamAddress::from(stm.peer_addr()?)), )* } } pub fn stream(&self) -> NetworkStreamType { match self { $( Self::$i(_) => NetworkStreamType::$i, )* } } } impl tokio::io::AsyncRead for NetworkStream { fn poll_read( self: std::pin::Pin<&mut Self>, cx: &mut std::task::Context<'_>, buf: &mut tokio::io::ReadBuf<'_>, ) -> std::task::Poll> { match self.project() { $( NetworkStreamProject::$i(s) => s.poll_read(cx, buf), )* } } } impl tokio::io::AsyncWrite for NetworkStream { fn poll_write( self: std::pin::Pin<&mut Self>, cx: &mut std::task::Context<'_>, buf: &[u8], ) -> std::task::Poll> { match self.project() { $( NetworkStreamProject::$i(s) => s.poll_write(cx, buf), )* } } fn poll_flush( self: std::pin::Pin<&mut Self>, cx: &mut std::task::Context<'_>, ) -> std::task::Poll> { match self.project() { $( NetworkStreamProject::$i(s) => s.poll_flush(cx), )* } } fn poll_shutdown( self: std::pin::Pin<&mut Self>, cx: &mut std::task::Context<'_>, ) -> std::task::Poll> { match self.project() { $( NetworkStreamProject::$i(s) => s.poll_shutdown(cx), )* } } fn is_write_vectored(&self) -> bool { match self { $( NetworkStream::$i(s) => s.is_write_vectored(), )* } } fn poll_write_vectored( self: std::pin::Pin<&mut Self>, cx: &mut std::task::Context<'_>, bufs: &[std::io::IoSlice<'_>], ) -> std::task::Poll> { match self.project() { $( NetworkStreamProject::$i(s) => s.poll_write_vectored(cx, bufs), )* } } } impl NetworkStreamListener { /// Accepts a connection on this listener. pub async fn accept(&self) -> Result<(NetworkStream, NetworkStreamAddress), std::io::Error> { Ok(match self { $( Self::$i(s) => { let (stm, addr) = s.accept().await?; (NetworkStream::$i(stm), addr.into()) } )* }) } pub fn listen_address(&self) -> Result { match self { $( Self::$i(s) => { Ok(NetworkStreamAddress::from(s.listen_address()?)) } )* } } pub fn stream(&self) -> NetworkStreamType { match self { $( Self::$i(_) => { NetworkStreamType::$i } )* } } /// Return a `NetworkStreamListener` if a resource exists for this `ResourceId` and it is currently /// not locked. pub fn take_resource(resource_table: &mut ResourceTable, listener_rid: ResourceId) -> Result { $( if let Some(resource) = NetworkListenerResource::<$listener>::take(resource_table, listener_rid)? { return Ok(resource) } )* Err(bad_resource_id()) } } }; } #[cfg(unix)] network_stream!( [ Tcp, tcp, tokio::net::TcpStream, crate::tcp::TcpListener, std::net::SocketAddr, TcpStreamResource ], [ Tls, tls, crate::ops_tls::TlsStream, crate::ops_tls::TlsListener, std::net::SocketAddr, TlsStreamResource ], [ Unix, unix, tokio::net::UnixStream, tokio::net::UnixListener, tokio::net::unix::SocketAddr, crate::io::UnixStreamResource ] ); #[cfg(not(unix))] network_stream!( [ Tcp, tcp, tokio::net::TcpStream, crate::tcp::TcpListener, std::net::SocketAddr, TcpStreamResource ], [ Tls, tls, crate::ops_tls::TlsStream, crate::ops_tls::TlsListener, std::net::SocketAddr, TlsStreamResource ] ); pub enum NetworkStreamAddress { Ip(std::net::SocketAddr), #[cfg(unix)] Unix(tokio::net::unix::SocketAddr), } impl From for NetworkStreamAddress { fn from(value: std::net::SocketAddr) -> Self { NetworkStreamAddress::Ip(value) } } #[cfg(unix)] impl From for NetworkStreamAddress { fn from(value: tokio::net::unix::SocketAddr) -> Self { NetworkStreamAddress::Unix(value) } } /// In some cases it may be more efficient to extract the resource from the resource table and use it directly (for example, an HTTP server). /// This method will extract a stream from the resource table and return it, unwrapped. pub fn take_network_stream_resource( resource_table: &mut ResourceTable, stream_rid: ResourceId, ) -> Result { // The stream we're attempting to unwrap may be in use somewhere else. If that's the case, we cannot proceed // with the process of unwrapping this connection, so we just return a bad resource error. // See also: https://github.com/denoland/deno/pull/16242 if let Ok(resource_rc) = resource_table.take::(stream_rid) { // This TCP connection might be used somewhere else. let resource = Rc::try_unwrap(resource_rc) .map_err(|_| bad_resource("TCP stream is currently in use"))?; let (read_half, write_half) = resource.into_inner(); let tcp_stream = read_half.reunite(write_half)?; return Ok(NetworkStream::Tcp(tcp_stream)); } if let Ok(resource_rc) = resource_table.take::(stream_rid) { // This TLS connection might be used somewhere else. let resource = Rc::try_unwrap(resource_rc) .map_err(|_| bad_resource("TLS stream is currently in use"))?; let (read_half, write_half) = resource.into_inner(); let tls_stream = read_half.unsplit(write_half); return Ok(NetworkStream::Tls(tls_stream)); } #[cfg(unix)] if let Ok(resource_rc) = resource_table.take::(stream_rid) { // This UNIX socket might be used somewhere else. let resource = Rc::try_unwrap(resource_rc) .map_err(|_| bad_resource("UNIX stream is currently in use"))?; let (read_half, write_half) = resource.into_inner(); let unix_stream = read_half.reunite(write_half)?; return Ok(NetworkStream::Unix(unix_stream)); } Err(bad_resource_id()) } /// In some cases it may be more efficient to extract the resource from the resource table and use it directly (for example, an HTTP server). /// This method will extract a stream from the resource table and return it, unwrapped. pub fn take_network_stream_listener_resource( resource_table: &mut ResourceTable, listener_rid: ResourceId, ) -> Result { NetworkStreamListener::take_resource(resource_table, listener_rid) }