better example support local dc stream

fix read/write issue
clear sessions after close

examples/webrtc.rs

@@ -44,7 +44,7 @@ async fn main() -> Result<()> {
                     record.args()
                 )
             })
-            .filter(None, log::LevelFilter::Debug)
+            .filter(Some("hbb_common"), log::LevelFilter::Debug)
             .init();
     }
 
@@ -56,17 +56,23 @@ async fn main() -> Result<()> {
 
     let webrtc_stream = hbb_common::webrtc::WebRTCStream::new(&remote_endpoint, 30000).await?;
     // Print the offer to be sent to the other peer
-    webrtc_stream.get_local_endpoint().await;
+    let local_endpoint = webrtc_stream.get_local_endpoint().await?;
 
     if remote_endpoint.is_empty() {
+        println!();
         // Wait for the answer to be pasted
-        println!("Wait for the answer to be pasted");
+        println!(
+            "Start new terminal run: \n{} \ncopy remote endpoint and paste here",
+            format!("cargo r --example webrtc -- --offer {}", local_endpoint)
+        );
         // readline blocking
         let line = std::io::stdin()
             .lines()
             .next()
             .ok_or_else(|| anyhow::anyhow!("No input received"))??;
         webrtc_stream.set_remote_endpoint(&line).await?;
+    } else {
+        println!("Copy local endpoint and paste to the other peer: \n{}", local_endpoint);
     }
 
     let s1 = hbb_common::Stream::WebRTC(webrtc_stream.clone());
@@ -93,16 +99,20 @@ async fn main() -> Result<()> {
 async fn read_loop(mut stream: hbb_common::Stream) -> Result<()> {
     loop {
         let Some(res) = stream.next().await else {
-            println!("Datachannel closed; Exit the read_loop");
+            println!("WebRTC stream closed; Exit the read_loop");
             return Ok(());
         };
-        println!("Message from DataChannel: {}",
+        if res.is_err() {
+            println!("WebRTC stream read error: {}; Exit the read_loop", res.err().unwrap());
+            return Ok(());
+        }
+        println!("Message from stream: {}",
             String::from_utf8(res.unwrap().to_vec())?
         );
     }
 }
 
-// write_loop shows how to write to the datachannel directly
+// write_loop shows how to write to the webrtc stream directly
 async fn write_loop(mut stream: hbb_common::Stream) -> Result<()> {
     let mut result = Result::<()>::Ok(());
     while result.is_ok() {
@@ -112,12 +122,12 @@ async fn write_loop(mut stream: hbb_common::Stream) -> Result<()> {
         tokio::select! {
             _ = timeout.as_mut() =>{
                 let message = math_rand_alpha(15);
-                println!("Sending '{message}'");
-                result = stream.send_bytes(Bytes::from(message)).await;
+                result = stream.send_bytes(Bytes::from(message.clone())).await;
+                println!("Sent '{message}' {}", result.is_ok());
             }
         };
     }
-    println!("Datachannel write not ok; Exit the write_loop");
+    println!("WebRTC stream write failed; Exit the write_loop");
 
     Ok(())
 }

src/webrtc.rs

@@ -7,7 +7,6 @@ use std::collections::HashMap;
 use webrtc::api::APIBuilder;
 use webrtc::api::setting_engine::SettingEngine;
 use webrtc::data_channel::RTCDataChannel;
-use webrtc::data_channel::data_channel_state::RTCDataChannelState;
 use webrtc::ice_transport::ice_server::RTCIceServer;
 use webrtc::peer_connection::RTCPeerConnection;
 use webrtc::peer_connection::configuration::RTCConfiguration;
@@ -30,7 +29,7 @@ use tokio::sync::Mutex;
 
 pub struct WebRTCStream {
     pc: Arc<RTCPeerConnection>,
-    stream: Arc<RTCDataChannel>,
+    stream: Arc<Mutex<Arc<RTCDataChannel>>>,
     state_notify: watch::Receiver<bool>,
     send_timeout: u64,
 }
@@ -77,11 +76,24 @@ impl WebRTCStream {
         format!("webrtc://{}", encoded_sdp)
     }
 
+    async fn get_key_for_peer(pc: &Arc<RTCPeerConnection>) -> String {
+        if let Some(local_desc) = pc.local_description().await {
+            if local_desc.sdp_type != webrtc::peer_connection::sdp::sdp_type::RTCSdpType::Offer {
+                let Some(remote_desc) = pc.remote_description().await else {
+                    return "".into();
+                };
+                return serde_json::to_string(&remote_desc).unwrap_or_default();
+            }
+            return serde_json::to_string(&local_desc).unwrap_or_default();
+        }
+        "".into()
+    }
+
     pub async fn new(
         remote_endpoint: &str,
         ms_timeout: u64,
     ) -> ResultType<Self> {
-        log::debug!("New webrtc stream with endpoint: {}", remote_endpoint);
+        log::debug!("New webrtc stream to endpoint: {}", remote_endpoint);
         let remote_offer = if remote_endpoint.is_empty() {
             "".into()
         } else {
@@ -116,35 +128,61 @@ impl WebRTCStream {
         };
 
         let (notify_tx, notify_rx) = watch::channel(false);
-        let on_open_notify = notify_tx.clone();
+        let dc_open_notify = notify_tx.clone();
         // Create a new RTCPeerConnection
-        let peer_connection = Arc::new(api.new_peer_connection(config).await?);
-        let data_channel = peer_connection.create_data_channel("bootstrap", None).await?;
-        data_channel.on_open(Box::new(move || {
-            log::debug!("Data channel bootstrap open.");
-            let _ = on_open_notify.send(true);
+        let pc = Arc::new(api.new_peer_connection(config).await?);
+        let bootstrap_dc = if remote_offer.is_empty() {
+            // Create a data channel with label "bootstrap"
+            pc.create_data_channel("bootstrap", None).await?
+        } else {
+            // Wait for the data channel to be created by the remote peer
+            // Here we create a dummy data channel to satisfy the type system
+            Arc::new(RTCDataChannel::default())
+        };
+        bootstrap_dc.on_open(Box::new(move || {
+            log::debug!("Local data channel bootstrap open.");
+            let _ = dc_open_notify.send(true);
             Box::pin(async {})
         }));
 
+        let stream = Arc::new(Mutex::new(bootstrap_dc.clone()));
+
         // This will notify you when the peer has connected/disconnected
         let on_connection_notify = notify_tx.clone();
-        peer_connection.on_peer_connection_state_change(Box::new(move |s: RTCPeerConnectionState| {
-            log::debug!("Peer Connection State has changed: {}", s);
-            if s == RTCPeerConnectionState::Disconnected {
-                let _ = on_connection_notify.send(true);
-            }
-
-            // TODO clear SESSIONS entry?
-            Box::pin(async {})
+        let stream_for_close = stream.clone();
+        let pc_for_close = pc.clone();
+        pc.on_peer_connection_state_change(Box::new(move |s: RTCPeerConnectionState| {
+            let stream_for_close2 = stream_for_close.clone();
+            let on_connection_notify2 = on_connection_notify.clone();
+            let pc_for_close2 = pc_for_close.clone();
+            Box::pin(async move {
+                log::debug!("Peer connection state : {}", s);
+                if s == RTCPeerConnectionState::Disconnected {
+                    let _ = on_connection_notify2.send(true);
+                    log::debug!("WebRTC session closing due to disconnected");
+                    let _ = stream_for_close2.lock().await.close().await;
+                    log::debug!("WebRTC session stream closed");
+                } else if s == RTCPeerConnectionState::Failed || s == RTCPeerConnectionState::Closed {
+                    let mut lock = SESSIONS.lock().await;
+                    let key = WebRTCStream::get_key_for_peer(&pc_for_close2).await;
+                    log::debug!("WebRTC session removing key from cache: {}", key);
+                    lock.remove(&key);
+                }
+            })
         }));
 
         // Register data channel creation handling
-        let on_open_notify2 = notify_tx.clone();
-        peer_connection.on_data_channel(Box::new(move |dc: Arc<RTCDataChannel>| {
+        let remote_dc_open_notify = notify_tx.clone();
+        let stream_for_dc = stream.clone();
+        pc.on_data_channel(Box::new(move |dc: Arc<RTCDataChannel>| {
             let d_label = dc.label().to_owned();
-            log::debug!("Remote data channel {}", d_label);
-            let notify = on_open_notify2.clone();
+            let notify = remote_dc_open_notify.clone();
+            let stream_for_dc_clone = stream_for_dc.clone();
+            log::debug!("Remote data channel {} ready", d_label);
             Box::pin(async move {
+                let mut stream_lock = stream_for_dc_clone.lock().await;
+                *stream_lock = dc.clone();
+                drop(stream_lock);
                 dc.on_open(Box::new(move || {
                     let _ = notify.send(true);
                     Box::pin(async {})
@@ -152,30 +190,28 @@ impl WebRTCStream {
             })
         }));
 
+        // process offer/answer
         if remote_offer.is_empty() {
-            let sdp = peer_connection.create_offer(None).await?;
-            let mut gather_complete = peer_connection.gathering_complete_promise().await;
-            peer_connection.set_local_description(sdp.clone()).await?;
+            let sdp = pc.create_offer(None).await?;
+            let mut gather_complete = pc.gathering_complete_promise().await;
+            pc.set_local_description(sdp.clone()).await?;
             let _ = gather_complete.recv().await;
 
-            let final_sdp = peer_connection.local_description().await.ok_or_else(|| {
-                Error::new(ErrorKind::Other, "Failed to get local description after gathering")
-            })?;
-            key = serde_json::to_string(&final_sdp).unwrap_or_default();
+            key = Self::get_key_for_peer(&pc).await;
             log::debug!("Start webrtc with local: {}", key);
         } else {
             let sdp = serde_json::from_str::<RTCSessionDescription>(&remote_offer)?;
-            peer_connection.set_remote_description(sdp).await?;
-            let answer = peer_connection.create_answer(None).await?;
-            let mut gather_complete = peer_connection.gathering_complete_promise().await;
-            peer_connection.set_local_description(answer).await?;
+            pc.set_remote_description(sdp).await?;
+            let answer = pc.create_answer(None).await?;
+            let mut gather_complete = pc.gathering_complete_promise().await;
+            pc.set_local_description(answer).await?;
             let _ = gather_complete.recv().await;
             log::debug!("Start webrtc with remote: {}", remote_offer);
         }
 
         let webrtc_stream = WebRTCStream {
-            pc: peer_connection,
-            stream: data_channel,
+            pc,
+            stream,
             state_notify: notify_rx,
             send_timeout: ms_timeout,
         };
@@ -185,14 +221,13 @@ impl WebRTCStream {
     }
 
     #[inline]
-    pub async fn get_local_endpoint(&self) -> Option<String> {
+    pub async fn get_local_endpoint(&self) -> ResultType<String> {
         if let Some(local_desc) = self.pc.local_description().await {
             let sdp = serde_json::to_string(&local_desc).unwrap_or_default();
             let endpoint = Self::sdp_to_endpoint(&sdp);
-            log::debug!("WebRTC get local endpoint: {}", endpoint);
-            Some(endpoint)
+            Ok(endpoint)
         } else {
-            None
+            Err(anyhow::anyhow!("Local description is not set"))
         }
     }
 
@@ -240,29 +275,33 @@ impl WebRTCStream {
         self.send_bytes(Bytes::from(msg)).await
     }
 
-    pub async fn send_bytes(&mut self, bytes: Bytes) -> ResultType<()> {
+    #[inline]
+    async fn wait_for_connect_result(&mut self) {
+        if *self.state_notify.borrow() {
+            return;
+        }
         let _ = self.state_notify.changed().await;
-        self.stream.send(&bytes).await?;
+    }
+
+    pub async fn send_bytes(&mut self, bytes: Bytes) -> ResultType<()> {
+        self.wait_for_connect_result().await;
+        let stream = self.stream.lock().await.clone();
+        stream.send(&bytes).await?;
         Ok(())
     }
 
     #[inline]
     pub async fn next(&mut self) -> Option<Result<BytesMut, Error>> {
-        // wait for connected or disconnected
-        let _ = self.state_notify.changed().await;
-        if self.stream.ready_state() != RTCDataChannelState::Open {
-            return Some(Err(Error::new(
-                ErrorKind::Other,
-                "data channel is closed",
-            )));
-        }
+        self.wait_for_connect_result().await;
+        let stream = self.stream.lock().await.clone();
 
         // TODO reuse buffer?
         let mut buffer = BytesMut::zeroed(DATA_CHANNEL_BUFFER_SIZE as usize);
-        let dc = self.stream.detach().await.ok()?;
+        let dc = stream.detach().await.ok()?;
         let n = match dc.read(&mut buffer).await {
             Ok(n) => n,
             Err(err) => {
+                self.pc.close().await.ok();
                 return Some(Err(Error::new(
                     ErrorKind::Other,
                     format!("data channel read error: {}", err),
@@ -270,12 +309,12 @@ impl WebRTCStream {
             }
         };
         if n == 0 {
+            self.pc.close().await.ok();
             return Some(Err(Error::new(
                 ErrorKind::Other,
                 "data channel read exited with 0 bytes",
             )));
         }
-        log::debug!("WebRTCStream read {} bytes", n);
         buffer.truncate(n);
         Some(Ok(buffer))
     }