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Cleaner and less repetitious

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Also close individual sides of the connection independently.
This commit is contained in:
John Doty 2022-10-07 17:28:27 +00:00
parent c5bf78fc71
commit ac80579bf3
1 changed files with 106 additions and 107 deletions
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213
src/main.rs
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@ -16,6 +16,9 @@ mod refresh;
use message::Message; use message::Message;
// ----------------------------------------------------------------------------
// Message Writing
struct MessageWriter<T: AsyncWrite + Unpin> { struct MessageWriter<T: AsyncWrite + Unpin> {
writer: T, writer: T,
} }
@ -26,7 +29,7 @@ impl<T: AsyncWrite + Unpin> MessageWriter<T> {
} }
async fn write(self: &mut Self, msg: Message) -> Result<(), Error> { async fn write(self: &mut Self, msg: Message) -> Result<(), Error> {
// TODO: Optimize buffer usage please this is bad // TODO: Optimize buffer usage please this is bad
eprintln!("? {:?}", msg); // eprintln!("? {:?}", msg);
let mut buffer = msg.encode(); let mut buffer = msg.encode();
self.writer self.writer
.write_u32(buffer.len().try_into().expect("Message too large")) .write_u32(buffer.len().try_into().expect("Message too large"))
@ -47,8 +50,81 @@ async fn pump_write<T: AsyncWrite + Unpin>(
Ok(()) Ok(())
} }
// ----------------------------------------------------------------------------
// Connection
/// Read from a socket and convert the reads into Messages to put into the
/// queue until the socket is closed for reading or an error occurs.
async fn connection_read<T: AsyncRead + Unpin>(
channel: u64,
read: &mut T,
writer: &mut mpsc::Sender<Message>,
) -> Result<(), Error> {
let result = loop {
let mut buffer = BytesMut::with_capacity(64 * 1024);
if let Err(e) = read.read_buf(&mut buffer).await {
break Err(e);
}
if buffer.len() == 0 {
break Ok(());
}
if let Err(_) = writer.send(Message::Data(channel, buffer.into())).await {
break Err(Error::from(ErrorKind::ConnectionReset));
}
// TODO: Flow control here, wait for the packet to be acknowleged so
// there isn't head-of-line blocking or infinite bufferingon the
// remote side. Also buffer re-use!
};
// We are effectively closed on this side, send the close to drop the
// corresponding write side on the other end of the pipe.
_ = writer.send(Message::Close(channel)).await;
return result;
}
/// Get messages from a queue and write them out to a socket until there are
/// no more messages in the queue or the write breaks for some reason.
async fn connection_write<T: AsyncWrite + Unpin>(
data: &mut mpsc::Receiver<Bytes>,
write: &mut T,
) -> Result<(), Error> {
while let Some(buf) = data.recv().await {
write.write_all(&buf[..]).await?;
}
Ok(())
}
/// Handle a connection, from the socket to the multiplexer and from the
/// multiplexer to the socket.
async fn connection_process(
channel: u64,
stream: &mut TcpStream,
data: &mut mpsc::Receiver<Bytes>,
writer: &mut mpsc::Sender<Message>,
) {
let (mut read_half, mut write_half) = stream.split();
let read = connection_read(channel, &mut read_half, writer);
let write = connection_write(data, &mut write_half);
tokio::pin!(read);
tokio::pin!(write);
let (mut done_reading, mut done_writing) = (false, false);
while !(done_reading && done_writing) {
tokio::select! {
_ = &mut read, if !done_reading => { done_reading = true; },
_ = &mut write, if !done_writing => { done_writing = true;},
}
}
}
// ----------------------------------------------------------------------------
// Server
struct ServerConnection { struct ServerConnection {
close: Option<oneshot::Sender<()>>,
data: mpsc::Sender<Bytes>, data: mpsc::Sender<Bytes>,
} }
@ -64,24 +140,9 @@ impl ServerConnectionTable {
} }
} }
fn add(self: &mut Self, id: u64, close: oneshot::Sender<()>, data: mpsc::Sender<Bytes>) { fn add(self: &mut Self, id: u64, data: mpsc::Sender<Bytes>) {
let mut connections = self.connections.lock().unwrap(); let mut connections = self.connections.lock().unwrap();
connections.insert( connections.insert(id, ServerConnection { data });
id,
ServerConnection {
close: Some(close),
data,
},
);
}
fn close(self: &mut Self, id: u64) {
let mut connections = self.connections.lock().unwrap();
if let Some(connection) = connections.get_mut(&id) {
if let Some(close) = connection.close.take() {
_ = close.send(());
}
}
} }
async fn receive(self: &Self, id: u64, buf: Bytes) { async fn receive(self: &Self, id: u64, buf: Bytes) {
@ -105,16 +166,6 @@ impl ServerConnectionTable {
} }
} }
async fn server_connection_write<T: AsyncWrite + Unpin>(
data: &mut mpsc::Receiver<Bytes>,
write: &mut T,
) -> Result<(), Error> {
while let Some(buf) = data.recv().await {
write.write_all(&buf[..]).await?;
}
Ok(())
}
async fn server_handle_connection( async fn server_handle_connection(
channel: u64, channel: u64,
port: u16, port: u16,
@ -123,23 +174,17 @@ async fn server_handle_connection(
) { ) {
let mut connections = connections; let mut connections = connections;
if let Ok(mut stream) = TcpStream::connect(SocketAddrV4::new(Ipv4Addr::LOCALHOST, port)).await { if let Ok(mut stream) = TcpStream::connect(SocketAddrV4::new(Ipv4Addr::LOCALHOST, port)).await {
let (send_close, closed) = oneshot::channel();
let (send_data, mut data) = mpsc::channel(32); let (send_data, mut data) = mpsc::channel(32);
connections.add(channel, send_close, send_data); connections.add(channel, send_data);
if let Ok(_) = writer.send(Message::Connected(channel)).await { if let Ok(_) = writer.send(Message::Connected(channel)).await {
let (mut read_half, mut write_half) = stream.split(); let mut writer = writer.clone();
connection_process(channel, &mut stream, &mut data, &mut writer).await;
// TODO: Read until we get a close on `rx`. eprintln!("< Done server!");
tokio::select! {
_ = client_connection_read(channel, &mut read_half, writer.clone()) => (),
_ = server_connection_write(&mut data, &mut write_half) => (),
_ = closed => (),
}
} }
connections.remove(channel);
} }
// Wrong!
_ = writer.send(Message::Closed(channel)); _ = writer.send(Message::Closed(channel));
} }
@ -173,7 +218,11 @@ async fn server_read<T: AsyncRead + Unpin>(
Close(channel) => { Close(channel) => {
let mut connections = connections.clone(); let mut connections = connections.clone();
tokio::spawn(async move { tokio::spawn(async move {
connections.close(channel); // Once we get a close the connection becomes unreachable.
//
// NOTE: If all goes well the 'data' channel gets dropped
// here, and we close the write half of the socket.
connections.remove(channel);
}); });
} }
Data(channel, buf) => { Data(channel, buf) => {
@ -262,7 +311,6 @@ async fn client_sync<T: AsyncRead + Unpin>(reader: &mut T) -> Result<(), Error>
struct ClientConnection { struct ClientConnection {
connected: Option<oneshot::Sender<()>>, connected: Option<oneshot::Sender<()>>,
closed: Option<oneshot::Sender<()>>,
data: mpsc::Sender<Bytes>, data: mpsc::Sender<Bytes>,
} }
@ -286,12 +334,7 @@ impl ClientConnectionTable {
} }
} }
fn alloc( fn alloc(self: &mut Self, connected: oneshot::Sender<()>, data: mpsc::Sender<Bytes>) -> u64 {
self: &mut Self,
connected: oneshot::Sender<()>,
closed: oneshot::Sender<()>,
data: mpsc::Sender<Bytes>,
) -> u64 {
let mut tbl = self.connections.lock().unwrap(); let mut tbl = self.connections.lock().unwrap();
let id = tbl.next_id; let id = tbl.next_id;
tbl.next_id += 1; tbl.next_id += 1;
@ -299,28 +342,12 @@ impl ClientConnectionTable {
id, id,
ClientConnection { ClientConnection {
connected: Some(connected), connected: Some(connected),
closed: Some(closed),
data, data,
}, },
); );
id id
} }
fn closed(self: &mut Self, id: u64) {
let closed = {
let mut tbl = self.connections.lock().unwrap();
if let Some(c) = tbl.connections.get_mut(&id) {
c.closed.take()
} else {
None
}
};
if let Some(closed) = closed {
_ = closed.send(());
}
}
fn connected(self: &mut Self, id: u64) { fn connected(self: &mut Self, id: u64) {
let connected = { let connected = {
let mut tbl = self.connections.lock().unwrap(); let mut tbl = self.connections.lock().unwrap();
@ -357,28 +384,6 @@ impl ClientConnectionTable {
} }
} }
async fn client_connection_read<T: AsyncRead + Unpin>(
channel: u64,
read: &mut T,
writer: mpsc::Sender<Message>,
) -> Result<(), Error> {
loop {
let mut buffer = BytesMut::with_capacity(64 * 1024);
read.read_buf(&mut buffer).await?;
if buffer.len() == 0 {
return Ok(());
}
if let Err(_) = writer.send(Message::Data(channel, buffer.into())).await {
return Err(Error::from(ErrorKind::ConnectionReset));
}
// TODO: Flow control here, wait for the packet to be acknowleged so
// there isn't head-of-line blocking or infinite bufferingon the
// remote side. Also buffer re-use!
}
}
async fn client_handle_connection( async fn client_handle_connection(
port: u16, port: u16,
writer: mpsc::Sender<Message>, writer: mpsc::Sender<Message>,
@ -387,30 +392,19 @@ async fn client_handle_connection(
) { ) {
let mut connections = connections; let mut connections = connections;
let (send_connected, connected) = oneshot::channel(); let (send_connected, connected) = oneshot::channel();
let (send_closed, mut closed) = oneshot::channel();
let (send_data, mut data) = mpsc::channel(32); let (send_data, mut data) = mpsc::channel(32);
let channel_id = connections.alloc(send_connected, send_closed, send_data); let channel = connections.alloc(send_connected, send_data);
if let Ok(_) = writer.send(Message::Connect(channel_id, port)).await { if let Ok(_) = writer.send(Message::Connect(channel, port)).await {
let connected = tokio::select! { if let Ok(_) = connected.await {
_ = connected => true, let mut writer = writer.clone();
_ = &mut closed => false connection_process(channel, socket, &mut data, &mut writer).await;
};
if connected { eprintln!("> Done client!");
let (mut read_half, mut write_half) = socket.split();
tokio::select! {
_ = client_connection_read(channel_id, &mut read_half, writer.clone()) => (),
_ = server_connection_write(&mut data, &mut write_half) => (),
_ = closed => ()
};
} else { } else {
eprintln!("> Failed to connect to remote"); eprintln!("> Failed to connect to remote");
} }
} }
connections.remove(channel_id);
_ = writer.send(Message::Close(channel_id)).await;
} }
async fn client_listen( async fn client_listen(
@ -421,8 +415,8 @@ async fn client_listen(
loop { loop {
let listener = TcpListener::bind(SocketAddrV4::new(Ipv4Addr::LOCALHOST, port)).await?; let listener = TcpListener::bind(SocketAddrV4::new(Ipv4Addr::LOCALHOST, port)).await?;
loop { loop {
// The second item contains the IP and port of the new connection. // The second item contains the IP and port of the new
// TODO: Handle shutdown correctly. // connection, but we don't care.
let (mut socket, _) = listener.accept().await?; let (mut socket, _) = listener.accept().await?;
let (writer, connections) = (writer.clone(), connections.clone()); let (writer, connections) = (writer.clone(), connections.clone());
@ -465,7 +459,7 @@ async fn client_read<T: AsyncRead + Unpin>(
Close(channel) => { Close(channel) => {
let mut connections = connections.clone(); let mut connections = connections.clone();
tokio::spawn(async move { tokio::spawn(async move {
connections.closed(channel); connections.remove(channel);
}); });
} }
Data(channel, buf) => { Data(channel, buf) => {
@ -484,7 +478,12 @@ async fn client_read<T: AsyncRead + Unpin>(
let port = port.port; let port = port.port;
if let Some(l) = listeners.remove(&port) { if let Some(l) = listeners.remove(&port) {
if !l.is_closed() { if !l.is_closed() {
// Listen could have failed! // `l` here is, of course, the channel that we
// use to tell the listener task to stop (see the
// spawn call below). If it isn't closed then
// that means a spawn task is still running so we
// should just let it keep running and re-use the
// existing listener.
new_listeners.insert(port, l); new_listeners.insert(port, l);
} }
} }