2 次代碼提交 814af20b60 ... 56641a30ed

作者 SHA1 備註 提交日期
  Michael Buesch 56641a30ed Add support for UDP control port 2 周之前
  Michael Buesch 814af20b60 Add support for UDP control port 2 周之前
共有 2 個文件被更改,包括 74 次插入7 次删除
  1. 9 4
      letmein-proto/src/lib.rs
  2. 65 3
      letmein-proto/src/socket.rs

+ 9 - 4
letmein-proto/src/lib.rs

@@ -25,10 +25,6 @@ use subtle::ConstantTimeEq as _;
 
 pub use crate::socket::{NetSocket, UdpDispatcher};
 
-const UDP_RX_QUEUE_SIZE: usize = 4;
-pub type MsgNetSocket = NetSocket<MSG_SIZE, UDP_RX_QUEUE_SIZE>;
-pub type MsgUdpDispatcher = UdpDispatcher<MSG_SIZE, UDP_RX_QUEUE_SIZE>;
-
 /// Internal debugging.
 const DEBUG: bool = false;
 
@@ -104,6 +100,15 @@ macro_rules! impl_id {
 impl_id!(ResourceId);
 impl_id!(UserId);
 
+/// Maximum size of the UDP receive queue.
+const UDP_RX_QUEUE_SIZE: usize = 4;
+
+/// [NetSocket] for sending and receiving a [Message] over TCP or UDP.
+pub type MsgNetSocket = NetSocket<MSG_SIZE, UDP_RX_QUEUE_SIZE>;
+
+/// [UdpDispatcher] for sending and receiving a [Message] over UDP.
+pub type MsgUdpDispatcher = UdpDispatcher<MSG_SIZE, UDP_RX_QUEUE_SIZE>;
+
 /// Generate a cryptographically secure random token.
 ///
 /// This function can only generate tokens longer than 7 bytes.

+ 65 - 3
letmein-proto/src/socket.rs

@@ -21,20 +21,40 @@ use tokio::{
     sync::Mutex,
 };
 
+/// One connection for use by [UdpDispatcherRx].
 #[derive(Debug)]
 struct UdpConn<const MSG_SIZE: usize, const Q_SIZE: usize> {
+    /// The receive-queue for this connection.
     rx_queue: VecDeque<[u8; MSG_SIZE]>,
+
+    /// The peer IP address + source port tuple for this connection.
     peer_addr: SocketAddr,
+
+    /// Is this a new connection that has not been accepted, yet?
     accepted: bool,
 }
 
+/// Very simple "connection" tracking for UDP.
+///
+/// Tracking is purely based on the peer's IP address and source port.
+/// There are no other advanced TCP-like functionalities.
+///
+/// The maximum number of connections and the maximum number of packets
+/// in the RX queue are limited.
+/// However, there is no timeout mechanism for the connection.
+/// The caller has to take care of timeout detection and handling.
 #[derive(Debug)]
 struct UdpDispatcherRx<const MSG_SIZE: usize, const Q_SIZE: usize> {
+    /// All active connections.
     conn: HashMap<SocketAddr, UdpConn<MSG_SIZE, Q_SIZE>>,
+
+    /// The maximum possible number of connections.
     max_nr_conn: usize,
 }
 
 impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZE> {
+    /// Create a new [UdpDispatcherRx]
+    /// with the given maximum possible number of connections.
     fn new(max_nr_conn: usize) -> Self {
         UdpDispatcherRx {
             conn: HashMap::new(),
@@ -42,6 +62,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZ
         }
     }
 
+    /// Try to receive a new datagram from the socket.
     fn try_recv(&mut self, socket: &UdpSocket) -> ah::Result<()> {
         let mut buf = [0_u8; MSG_SIZE];
         match socket.try_recv_from(&mut buf) {
@@ -50,6 +71,8 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZ
                     return Err(err!("Socket read: Invalid datagram size: {n}"));
                 }
 
+                // Add the received datagram to an existing connection
+                // of create a new connection, if there is none, yet.
                 assert!(self.conn.len() <= self.max_nr_conn);
                 let conn = self.conn.entry(peer_addr).or_insert_with(|| UdpConn {
                     rx_queue: VecDeque::new(),
@@ -57,15 +80,17 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZ
                     accepted: false,
                 });
 
+                // Check if the RX queue is full
+                // and if not, then push the received datagram to the queue.
                 if conn.rx_queue.len() >= Q_SIZE {
-                    self.conn.remove(&peer_addr);
+                    self.conn.remove(&peer_addr); // Close connection.
                     return Err(err!("UDP socket read: RX queue overflow (max={}).", Q_SIZE));
                 }
-
                 conn.rx_queue.push_back(buf);
 
+                // Check if we exceeded the maximum number of connections.
                 if self.conn.len() > self.max_nr_conn {
-                    self.conn.remove(&peer_addr);
+                    self.conn.remove(&peer_addr); // Close connection.
                     return Err(err!(
                         "UDP socket read: Too many connections (max={}).",
                         self.max_nr_conn
@@ -78,6 +103,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZ
         }
     }
 
+    /// Get the first not-accepted connection, or None.
     fn try_accept(&mut self, socket: &UdpSocket) -> ah::Result<Option<SocketAddr>> {
         self.try_recv(socket)?;
         for conn in &mut self.conn.values_mut() {
@@ -89,6 +115,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZ
         Ok(None)
     }
 
+    /// Get the oldest element from the RX queue.
     fn try_recv_from(
         &mut self,
         socket: &UdpSocket,
@@ -102,18 +129,26 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcherRx<MSG_SIZE, Q_SIZ
         }
     }
 
+    /// Disconnect the connection identified by the `peer_addr`.
     fn disconnect(&mut self, peer_addr: SocketAddr) {
         self.conn.remove(&peer_addr);
     }
 }
 
+/// Simple TX/RX dispatcher for UDP.
 #[derive(Debug)]
 pub struct UdpDispatcher<const MSG_SIZE: usize, const Q_SIZE: usize> {
+    /// RX connection tracking.
     rx: Mutex<UdpDispatcherRx<MSG_SIZE, Q_SIZE>>,
+
+    /// The UDP socket we use for sending and receiving.
     socket: UdpSocket,
 }
 
 impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcher<MSG_SIZE, Q_SIZE> {
+    /// Create a new [UdpDispatcher]
+    /// with the given UDP socket and
+    /// with the given maximum possible number of connections.
     pub fn new(socket: UdpSocket, max_nr_conn: usize) -> Self {
         Self {
             rx: Mutex::new(UdpDispatcherRx::new(max_nr_conn)),
@@ -121,6 +156,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcher<MSG_SIZE, Q_SIZE>
         }
     }
 
+    /// Asynchronously wait for a new connection.
     pub async fn accept(&self) -> ah::Result<SocketAddr> {
         loop {
             self.socket
@@ -133,6 +169,8 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcher<MSG_SIZE, Q_SIZE>
         }
     }
 
+    /// Asynchronously wait for a new datagram from the specified
+    /// peer identified by the IP address + port tuple `peer_addr`.
     pub async fn recv_from(&self, peer_addr: SocketAddr) -> ah::Result<[u8; MSG_SIZE]> {
         loop {
             self.socket
@@ -150,6 +188,8 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcher<MSG_SIZE, Q_SIZE>
         }
     }
 
+    /// Asynchronously send a datagram `data` to the specified
+    /// peer identified by the UP address + port tuple `peer_addr`.
     pub async fn send_to(&self, peer_addr: SocketAddr, data: [u8; MSG_SIZE]) -> ah::Result<()> {
         self.socket
             .writable()
@@ -162,17 +202,22 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> UdpDispatcher<MSG_SIZE, Q_SIZE>
         Ok(())
     }
 
+    /// Disconnect the connection identified by the `peer_addr`.
     pub async fn disconnect(&self, peer_addr: SocketAddr) {
         self.rx.lock().await.disconnect(peer_addr);
     }
 }
 
+/// Socket abstraction for sending and receiving data
+/// over a TCP connection.
 #[derive(Debug)]
 pub struct NetSocketTcp {
     stream: TcpStream,
     closed: AtomicBool,
 }
 
+/// Socket abstraction for sending and receiving data
+/// over a UDP connection.
 #[derive(Debug)]
 pub struct NetSocketUdp<const MSG_SIZE: usize, const Q_SIZE: usize> {
     disp: Arc<UdpDispatcher<MSG_SIZE, Q_SIZE>>,
@@ -180,13 +225,19 @@ pub struct NetSocketUdp<const MSG_SIZE: usize, const Q_SIZE: usize> {
     closed: AtomicBool,
 }
 
+/// Socket abstraction for sending and receiving data
+/// over a TCP or UDP connection.
 #[derive(Debug)]
 pub enum NetSocket<const MSG_SIZE: usize, const Q_SIZE: usize> {
+    /// TCP variant.
     Tcp(NetSocketTcp),
+
+    /// UDP variant.
     Udp(NetSocketUdp<MSG_SIZE, Q_SIZE>),
 }
 
 impl<const MSG_SIZE: usize, const Q_SIZE: usize> NetSocket<MSG_SIZE, Q_SIZE> {
+    /// Create a new [NetSocket] from a [TcpStream] connection.
     pub fn from_tcp(stream: TcpStream) -> Self {
         Self::Tcp(NetSocketTcp {
             stream,
@@ -194,6 +245,8 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> NetSocket<MSG_SIZE, Q_SIZE> {
         })
     }
 
+    /// Create a new [NetSocket] from a [UdpDispatcher]
+    /// and the specified connected `peer_addr`.
     pub fn from_udp(disp: Arc<UdpDispatcher<MSG_SIZE, Q_SIZE>>, peer_addr: SocketAddr) -> Self {
         Self::Udp(NetSocketUdp {
             disp,
@@ -202,6 +255,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> NetSocket<MSG_SIZE, Q_SIZE> {
         })
     }
 
+    /// Send a message to the connected peer.
     pub async fn send(&self, buf: &[u8]) -> ah::Result<()> {
         // For good measure, check if we're not closed. But this check is racy.
         if self.is_closed() {
@@ -247,6 +301,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> NetSocket<MSG_SIZE, Q_SIZE> {
         }
     }
 
+    /// Receive a message from the connected peer.
     pub async fn recv(&self) -> ah::Result<Option<[u8; MSG_SIZE]>> {
         // For good measure, check if we're not closed. But this check is racy.
         if self.is_closed() {
@@ -289,6 +344,12 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> NetSocket<MSG_SIZE, Q_SIZE> {
         }
     }
 
+    /// Close this connection.
+    ///
+    /// This only has an effect on UDP.
+    /// This does not actually close the TCP connection.
+    /// However, it marks both UDP and TCP as closed and no further
+    /// TX/RX can happen.
     pub async fn close(&self) {
         match self {
             Self::Tcp(inner) => {
@@ -302,6 +363,7 @@ impl<const MSG_SIZE: usize, const Q_SIZE: usize> NetSocket<MSG_SIZE, Q_SIZE> {
         }
     }
 
+    /// Check if this connection is marked as closed.
     pub fn is_closed(&self) -> bool {
         match self {
             Self::Tcp(inner) => inner.closed.load(atomic::Ordering::SeqCst),