v25.11.16

fix(repo): no changes to commit
v25.11.15
2026-03-16 13:58:22 +00:00 · 2026-03-16 13:58:22 +00:00 · 2026-03-16 13:54:56 +00:00 · 2026-03-16 13:54:56 +00:00 · 2026-03-16 13:44:56 +00:00 · 2026-03-16 13:44:56 +00:00
14 changed files with 751 additions and 244 deletions
--- a/changelog.md
+++ b/changelog.md
@@ -1,5 +1,105 @@
 # Changelog
 ## 2026-03-16 - 25.11.16 - fix(repo)
 no changes to commit
 ## 2026-03-16 - 25.11.15 - fix(rustproxy-http)
 implement vectored write support for backend streams
 - Add poll_write_vectored forwarding for both plain and TLS backend stream variants
 - Expose is_write_vectored so the proxy can correctly report vectored write capability
 ## 2026-03-16 - 25.11.14 - fix(rustproxy-http)
 forward vectored write support in ShutdownOnDrop AsyncWrite wrapper
 - Implements poll_write_vectored by delegating to the wrapped writer
 - Exposes is_write_vectored so the wrapper preserves underlying AsyncWrite capabilities
 ## 2026-03-16 - 25.11.13 - fix(rustproxy-http)
 remove hot-path debug logging from HTTP/1 connection pool hits
 - Stops emitting debug logs when reusing HTTP/1 idle connections in the connection pool.
 - Keeps pool hit behavior unchanged while reducing overhead on a frequently executed path.
 ## 2026-03-16 - 25.11.12 - fix(rustproxy-http)
 remove connection pool hit logging and keep logging limited to actual failures
 - Removes debug and warning logs for HTTP/2 connection pool hits and age checks.
 - Keeps pool behavior unchanged while reducing noisy per-request logging in the Rust HTTP proxy layer.
 ## 2026-03-16 - 25.11.11 - fix(rustproxy-http)
 improve HTTP/2 proxy error logging with warning-level connection failures and debug error details
 - Adds debug-formatted error fields to HTTP/2 handshake, retry, fallback, and request failure logs
 - Promotes upstream HTTP/2 connection error logs from debug to warn to improve operational visibility
 ## 2026-03-16 - 25.11.10 - fix(rustproxy-http)
 validate pooled HTTP/2 connections asynchronously before reuse and evict stale senders
 - Add an async ready() check with a 500ms timeout before reusing pooled HTTP/2 senders to catch GOAWAY/RST states before forwarding requests
 - Return connection age from the HTTP/2 pool checkout path and log warnings for older pooled connections
 - Evict pooled HTTP/2 senders when they are closed, exceed max age, fail readiness validation, or time out during readiness checks
 ## 2026-03-16 - 25.11.9 - fix(rustproxy-routing)
 reduce hot-path allocations in routing, metrics, and proxy protocol handling
 - skip HTTP header map construction unless a route on the current port uses header matching
 - reuse computed client IP strings during HTTP route matching to avoid redundant allocations
 - optimize per-route and per-IP metric updates with get-first lookups to avoid unnecessary String creation on existing entries
 - replace heap-allocated PROXY protocol peek and discard buffers with stack-allocated buffers in the TCP listener
 - improve domain matcher case-insensitive wildcard checks while preserving glob fallback behavior
 ## 2026-03-16 - 25.11.8 - fix(rustproxy-http)
 prevent premature idle timeouts during streamed HTTP responses and ensure TLS close_notify is sent on dropped connections
 - track active streaming response bodies so the HTTP idle watchdog does not close connections mid-transfer
 - add a ShutdownOnDrop wrapper for TLS-terminated HTTP connections to send shutdown on drop and avoid improperly terminated TLS sessions
 - apply the shutdown wrapper in passthrough TLS terminate and terminate+reencrypt HTTP handling
 ## 2026-03-16 - 25.11.7 - fix(rustproxy)
 prevent TLS route reload certificate mismatches and tighten passthrough connection handling
 - Load updated TLS configs before swapping the route manager so newly visible routes always have their certificates available.
 - Add timeouts when peeking initial decrypted data after TLS handshake to avoid leaked idle connections.
 - Raise dropped, blocked, unmatched, and errored passthrough connection events from debug to warn for better operational visibility.
 ## 2026-03-16 - 25.11.6 - fix(rustproxy-http,rustproxy-passthrough)
 improve upstream connection cleanup and graceful tunnel shutdown
 - Evict pooled HTTP/2 connections when their driver exits and shorten the maximum pooled H2 age to reduce reuse of stale upstream connections.
 - Strip hop-by-hop headers from backend responses before forwarding to HTTP/2 clients to avoid invalid H2 response handling.
 - Replace immediate task aborts in WebSocket and TCP tunnel watchdogs with cancellation-driven graceful shutdown plus timed fallback aborts.
 - Use non-blocking semaphore acquisition in the TCP listener so connection limits do not stall the accept loop for the entire port.
 ## 2026-03-16 - 25.11.5 - fix(repo)
 no changes to commit
 ## 2026-03-15 - 25.11.4 - fix(rustproxy-http)
 report streamed HTTP and WebSocket bytes per chunk for real-time throughput metrics
 - Update CountingBody to record bytes immediately on each data frame instead of aggregating until completion or drop
 - Record WebSocket tunnel traffic inside both copy loops and remove the final aggregate byte report to keep throughput metrics current
 ## 2026-03-15 - 25.11.3 - fix(repo)
 no changes to commit
 ## 2026-03-15 - 25.11.2 - fix(rustproxy-http)
 avoid reusing HTTP/1 senders during streaming responses and relax HTTP/2 keep-alive timeouts
 - Stop returning HTTP/1 senders to the connection pool before upstream response bodies finish streaming to prevent unsafe reuse on active connections.
 - Increase HTTP/2 keep-alive timeout from 5 seconds to 30 seconds in proxy connection builders to better support longer-lived backend streams.
 - Improves reliability for large streaming payloads and backend fallback request handling.
 ## 2026-03-15 - 25.11.1 - fix(rustproxy-http)
 keep connection idle tracking alive during streaming and tune HTTP/2 connection lifetimes
 - Propagate connection activity tracking through HTTP/1, HTTP/2, and WebSocket forwarding so active request and response body streams do not trigger the idle watchdog.
 - Update CountingBody to refresh connection activity timestamps while data frames are polled during uploads and downloads.
 - Increase pooled HTTP/2 max age and set explicit HTTP/2 connection window sizes to improve long-lived streaming behavior.
 ## 2026-03-15 - 25.11.0 - feat(rustproxy-http)
 add HTTP/2 Extended CONNECT WebSocket proxy support
--- a/package.json
+++ b/package.json
@@ -1,6 +1,6 @@
 {
  "name": "@push.rocks/smartproxy",
-  "version": "25.11.0",
+  "version": "25.11.16",
  "private": false,
  "description": "A powerful proxy package with unified route-based configuration for high traffic management. Features include SSL/TLS support, flexible routing patterns, WebSocket handling, advanced security options, and automatic ACME certificate management.",
  "main": "dist_ts/index.js",
--- a/rust/crates/rustproxy-http/src/connection_pool.rs
+++ b/rust/crates/rustproxy-http/src/connection_pool.rs
@@ -10,7 +10,7 @@ use bytes::Bytes;
 use dashmap::DashMap;
 use http_body_util::combinators::BoxBody;
 use hyper::client::conn::{http1, http2};
-use tracing::debug;
+// No per-request logging in the pool — only log on actual failures (in proxy_service.rs)
 /// Maximum idle connections per backend key.
 const MAX_IDLE_PER_KEY: usize = 16;
@@ -20,6 +20,7 @@ const IDLE_TIMEOUT: Duration = Duration::from_secs(90);
 const EVICTION_INTERVAL: Duration = Duration::from_secs(30);
 /// Maximum age for pooled HTTP/2 connections before proactive eviction.
 /// Prevents staleness from backends that close idle connections (e.g. nginx GOAWAY).
 /// 120s is well within typical server GOAWAY windows (nginx: ~60s idle, envoy: ~60s).
 const MAX_H2_AGE: Duration = Duration::from_secs(120);
 /// Identifies a unique backend endpoint.
@@ -81,7 +82,7 @@ impl ConnectionPool {
        while let Some(idle) = idles.pop() {
            // Check if the connection is still alive and ready
            if idle.idle_since.elapsed() < IDLE_TIMEOUT && idle.sender.is_ready() && !idle.sender.is_closed() {
-                debug!("Pool hit (h1): {}:{}", key.host, key.port);
+                // H1 pool hit — no logging on hot path
                return Some(idle.sender);
            }
            // Stale or closed — drop it
@@ -114,20 +115,19 @@ impl ConnectionPool {
    /// Try to get a cloned HTTP/2 sender for the given key.
    /// HTTP/2 senders are Clone-able (multiplexed), so we clone rather than remove.
-    pub fn checkout_h2(&self, key: &PoolKey) -> Option<http2::SendRequest<BoxBody<Bytes, hyper::Error>>> {
+    pub fn checkout_h2(&self, key: &PoolKey) -> Option<(http2::SendRequest<BoxBody<Bytes, hyper::Error>>, Duration)> {
        let entry = self.h2_pool.get(key)?;
        let pooled = entry.value();
        let age = pooled.created_at.elapsed();
-        // Check if the h2 connection is still alive and not too old
+        if pooled.sender.is_closed() || age >= MAX_H2_AGE {
        if pooled.sender.is_closed() || pooled.created_at.elapsed() >= MAX_H2_AGE {
            drop(entry);
            self.h2_pool.remove(key);
            return None;
        }
        if pooled.sender.is_ready() {
-            debug!("Pool hit (h2): {}:{}", key.host, key.port);
+            return Some((pooled.sender.clone(), age));
            return Some(pooled.sender.clone());
        }
        None
    }
--- a/rust/crates/rustproxy-http/src/counting_body.rs
+++ b/rust/crates/rustproxy-http/src/counting_body.rs
@@ -11,20 +11,26 @@ use rustproxy_metrics::MetricsCollector;
 /// Wraps any `http_body::Body` and counts data bytes passing through.
 ///
-/// When the body is fully consumed or dropped, accumulated byte counts
+/// Each chunk is reported to the `MetricsCollector` immediately so that
-/// are reported to the `MetricsCollector`.
+/// the throughput tracker (sampled at 1 Hz) reflects real-time data flow.
 ///
 /// The inner body is pinned on the heap to support `!Unpin` types like `hyper::body::Incoming`.
 pub struct CountingBody<B> {
    inner: Pin<Box<B>>,
    counted_bytes: AtomicU64,
    metrics: Arc<MetricsCollector>,
    route_id: Option<String>,
    source_ip: Option<String>,
    /// Whether we count bytes as "in" (request body) or "out" (response body).
    direction: Direction,
-    /// Whether we've already reported the bytes (to avoid double-reporting on drop).
+    /// Optional connection-level activity tracker. When set, poll_frame updates this
-    reported: bool,
+    /// to keep the idle watchdog alive during active body streaming (uploads/downloads).
    connection_activity: Option<Arc<AtomicU64>>,
    /// Start instant for computing elapsed ms for connection_activity.
    activity_start: Option<std::time::Instant>,
    /// Optional active-request counter. When set, CountingBody increments on creation
    /// and decrements on Drop, keeping the HTTP idle watchdog aware that a response
    /// body is still streaming (even after the request handler has returned).
    active_requests: Option<Arc<AtomicU64>>,
 }
 /// Which direction the bytes flow.
@@ -47,42 +53,46 @@ impl<B> CountingBody<B> {
    ) -> Self {
        Self {
            inner: Box::pin(inner),
            counted_bytes: AtomicU64::new(0),
            metrics,
            route_id,
            source_ip,
            direction,
-            reported: false,
+            connection_activity: None,
            activity_start: None,
            active_requests: None,
        }
    }
-    /// Report accumulated bytes to the metrics collector.
+    /// Set the connection-level activity tracker. When set, each data frame
-    fn report(&mut self) {
+    /// updates this timestamp to prevent the idle watchdog from killing the
-        if self.reported {
+    /// connection during active body streaming.
-            return;
+    pub fn with_connection_activity(mut self, activity: Arc<AtomicU64>, start: std::time::Instant) -> Self {
-        }
+        self.connection_activity = Some(activity);
-        self.reported = true;
+        self.activity_start = Some(start);
-
+        self
        let bytes = self.counted_bytes.load(Ordering::Relaxed);
        if bytes == 0 {
            return;
    }
    /// Set the active-request counter for the HTTP idle watchdog.
    /// CountingBody increments on creation and decrements on Drop, ensuring the
    /// idle watchdog sees an "active request" while the response body streams.
    pub fn with_active_requests(mut self, counter: Arc<AtomicU64>) -> Self {
        counter.fetch_add(1, Ordering::Relaxed);
        self.active_requests = Some(counter);
        self
    }
    /// Report a chunk of bytes immediately to the metrics collector.
    #[inline]
    fn report_chunk(&self, len: u64) {
        let route_id = self.route_id.as_deref();
        let source_ip = self.source_ip.as_deref();
        match self.direction {
-            Direction::In => self.metrics.record_bytes(bytes, 0, route_id, source_ip),
+            Direction::In => self.metrics.record_bytes(len, 0, route_id, source_ip),
-            Direction::Out => self.metrics.record_bytes(0, bytes, route_id, source_ip),
+            Direction::Out => self.metrics.record_bytes(0, len, route_id, source_ip),
        }
    }
 }
 impl<B> Drop for CountingBody<B> {
    fn drop(&mut self) {
        self.report();
    }
 }
 // CountingBody is Unpin because inner is Pin<Box<B>> (always Unpin).
 impl<B> Unpin for CountingBody<B> {}
@@ -102,16 +112,18 @@ where
        match this.inner.as_mut().poll_frame(cx) {
            Poll::Ready(Some(Ok(frame))) => {
                if let Some(data) = frame.data_ref() {
-                    this.counted_bytes.fetch_add(data.len() as u64, Ordering::Relaxed);
+                    let len = data.len() as u64;
                    // Report bytes immediately so the 1 Hz throughput sampler sees them
                    this.report_chunk(len);
                    // Keep the connection-level idle watchdog alive during body streaming
                    if let (Some(activity), Some(start)) = (&this.connection_activity, &this.activity_start) {
                        activity.store(start.elapsed().as_millis() as u64, Ordering::Relaxed);
                    }
                }
                Poll::Ready(Some(Ok(frame)))
            }
            Poll::Ready(Some(Err(e))) => Poll::Ready(Some(Err(e))),
-            Poll::Ready(None) => {
+            Poll::Ready(None) => Poll::Ready(None),
                // Body is fully consumed — report now
                this.report();
                Poll::Ready(None)
            }
            Poll::Pending => Poll::Pending,
        }
    }
@@ -124,3 +136,13 @@ where
        self.inner.size_hint()
    }
 }
 impl<B> Drop for CountingBody<B> {
    fn drop(&mut self) {
        // Decrement the active-request counter so the HTTP idle watchdog
        // knows this response body is no longer streaming.
        if let Some(ref counter) = self.active_requests {
            counter.fetch_sub(1, Ordering::Relaxed);
        }
    }
 }
--- a/rust/crates/rustproxy-http/src/lib.rs
+++ b/rust/crates/rustproxy-http/src/lib.rs
@@ -9,6 +9,7 @@ pub mod protocol_cache;
 pub mod proxy_service;
 pub mod request_filter;
 pub mod response_filter;
 pub mod shutdown_on_drop;
 pub mod template;
 pub mod upstream_selector;
--- a/rust/crates/rustproxy-http/src/proxy_service.rs
+++ b/rust/crates/rustproxy-http/src/proxy_service.rs
@@ -33,6 +33,18 @@ use crate::request_filter::RequestFilter;
 use crate::response_filter::ResponseFilter;
 use crate::upstream_selector::UpstreamSelector;
 /// Per-connection context for keeping the idle watchdog alive during body streaming.
 /// Passed through the forwarding chain so CountingBody can update the timestamp.
 #[derive(Clone)]
 struct ConnActivity {
    last_activity: Arc<AtomicU64>,
    start: std::time::Instant,
    /// Active-request counter from handle_io's idle watchdog. When set, CountingBody
    /// increments on creation and decrements on Drop, keeping the watchdog aware that
    /// a response body is still streaming after the request handler has returned.
    active_requests: Option<Arc<AtomicU64>>,
 }
 /// Default upstream connect timeout (30 seconds).
 const DEFAULT_CONNECT_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(30);
@@ -97,6 +109,24 @@ impl tokio::io::AsyncWrite for BackendStream {
        }
    }
    fn poll_write_vectored(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
        bufs: &[std::io::IoSlice<'_>],
    ) -> Poll<std::io::Result<usize>> {
        match self.get_mut() {
            BackendStream::Plain(s) => Pin::new(s).poll_write_vectored(cx, bufs),
            BackendStream::Tls(s) => Pin::new(s).poll_write_vectored(cx, bufs),
        }
    }
    fn is_write_vectored(&self) -> bool {
        match self {
            BackendStream::Plain(s) => s.is_write_vectored(),
            BackendStream::Tls(s) => s.is_write_vectored(),
        }
    }
    fn poll_flush(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<std::io::Result<()>> {
        match self.get_mut() {
            BackendStream::Plain(s) => Pin::new(s).poll_flush(cx),
@@ -294,8 +324,9 @@ impl HttpProxyService {
            let cn = cancel_inner.clone();
            let la = Arc::clone(&la_inner);
            let st = start;
            let ca = ConnActivity { last_activity: Arc::clone(&la_inner), start, active_requests: Some(Arc::clone(&ar_inner)) };
            async move {
-                let result = svc.handle_request(req, peer, port, cn).await;
+                let result = svc.handle_request(req, peer, port, cn, ca).await;
                // Mark request end — update activity timestamp before guard drops
                la.store(st.elapsed().as_millis() as u64, Ordering::Relaxed);
                drop(req_guard); // Explicitly drop to decrement active_requests
@@ -306,8 +337,11 @@ impl HttpProxyService {
        // Auto-detect h1 vs h2 based on ALPN / connection preface.
        // serve_connection_with_upgrades supports h1 Upgrade (WebSocket) and h2 Extended CONNECT (RFC 8441).
        let mut builder = hyper_util::server::conn::auto::Builder::new(hyper_util::rt::TokioExecutor::new());
-        // Advertise Extended CONNECT support so H2 clients can initiate WebSocket connections
+        // Configure H2 server settings: Extended CONNECT for WebSocket + flow control tuning
-        builder.http2().enable_connect_protocol();
+        builder.http2()
            .enable_connect_protocol()
            .initial_stream_window_size(2 * 1024 * 1024)        // 2MB per stream (vs default 64KB)
            .initial_connection_window_size(8 * 1024 * 1024);   // 8MB per client connection
        let conn = builder.serve_connection_with_upgrades(io, service);
        // Pin on the heap — auto::UpgradeableConnection is !Unpin
        let mut conn = Box::pin(conn);
@@ -367,6 +401,7 @@ impl HttpProxyService {
        peer_addr: std::net::SocketAddr,
        port: u16,
        cancel: CancellationToken,
        conn_activity: ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let host = req.headers()
            .get("host")
@@ -382,11 +417,19 @@ impl HttpProxyService {
        let path = req.uri().path().to_string();
        let method = req.method().clone();
-        // Extract headers for matching
+        // Extract headers for matching — only allocate the HashMap if any route
-        let headers: HashMap<String, String> = req.headers()
+        // on this port actually uses header matching. Most deployments don't,
        // so this saves ~20-30 String allocations per request.
        let current_rm = self.route_manager.load();
        let needs_headers = current_rm.any_route_has_headers(port);
        let headers: Option<HashMap<String, String>> = if needs_headers {
            Some(req.headers()
                .iter()
                .map(|(k, v)| (k.to_string(), v.to_str().unwrap_or("").to_string()))
-            .collect();
+                .collect())
        } else {
            None
        };
        debug!("HTTP {} {} (host: {:?}) from {}", method, path, host, peer_addr);
@@ -397,19 +440,19 @@ impl HttpProxyService {
            }
        }
-        // Match route
+        // Match route (current_rm already loaded above for headers check)
        let ip_string = peer_addr.ip().to_string();
        let ctx = rustproxy_routing::MatchContext {
            port,
            domain: host.as_deref(),
            path: Some(&path),
-            client_ip: Some(&peer_addr.ip().to_string()),
+            client_ip: Some(&ip_string),
            tls_version: None,
-            headers: Some(&headers),
+            headers: headers.as_ref(),
            is_tls: false,
            protocol: Some("http"),
        };
        let current_rm = self.route_manager.load();
        let route_match = match current_rm.find_route(&ctx) {
            Some(rm) => rm,
            None => {
@@ -419,7 +462,7 @@ impl HttpProxyService {
        };
        let route_id = route_match.route.id.as_deref();
-        let ip_str = peer_addr.ip().to_string();
+        let ip_str = ip_string; // reuse from above (avoid redundant to_string())
        self.metrics.record_http_request();
        // Apply request filters (IP check, rate limiting, auth)
@@ -500,6 +543,7 @@ impl HttpProxyService {
        if is_h1_websocket || is_h2_websocket {
            let result = self.handle_websocket_upgrade(
                req, peer_addr, &upstream, route_match.route, route_id, &upstream_key, cancel, &ip_str, is_h2_websocket,
                if is_h2_websocket { Some(conn_activity.clone()) } else { None },
            ).await;
            // Note: for WebSocket, connection_ended is called inside
            // the spawned tunnel task when the connection closes.
@@ -633,18 +677,41 @@ impl HttpProxyService {
                h2: use_h2,
            };
-            // H2 pool checkout (H2 senders are Clone and multiplexed)
+            // H2 pool checkout with async readiness validation.
            // checkout_h2 does synchronous is_closed()/is_ready() checks, but these
            // reflect cached state — the H2 connection driver (a separate tokio task)
            // may not have processed a pending GOAWAY/RST yet. The ready().await
            // forces the runtime to yield, giving the driver a chance to detect failures.
            if use_h2 {
-                if let Some(sender) = self.connection_pool.checkout_h2(&pool_key) {
+                if let Some((mut sender, age)) = self.connection_pool.checkout_h2(&pool_key) {
                    match tokio::time::timeout(
                        std::time::Duration::from_millis(500),
                        sender.ready(),
                    ).await {
                        Ok(Ok(())) => {
                            self.metrics.backend_pool_hit(&upstream_key);
                            self.metrics.set_backend_protocol(&upstream_key, "h2");
                            let result = self.forward_h2_pooled(
                                sender, parts, body, upstream_headers, &upstream_path,
-                        route_match.route, route_id, &ip_str, &pool_key, domain_str,
+                                route_match.route, route_id, &ip_str, &pool_key, domain_str, &conn_activity,
                            ).await;
                            self.upstream_selector.connection_ended(&upstream_key);
                            return result;
                        }
                        Ok(Err(e)) => {
                            warn!(backend = %upstream_key, age_secs = age.as_secs(),
                                "Pooled H2 sender failed ready check (GOAWAY/RST): {}, evicting", e);
                            self.connection_pool.remove_h2(&pool_key);
                            // Fall through to fresh connection
                        }
                        Err(_) => {
                            warn!(backend = %upstream_key, age_secs = age.as_secs(),
                                "Pooled H2 sender ready check timed out (500ms), evicting");
                            self.connection_pool.remove_h2(&pool_key);
                            // Fall through to fresh connection
                        }
                    }
                }
            }
        }
@@ -779,19 +846,19 @@ impl HttpProxyService {
                self.forward_h2_with_fallback(
                    io, parts, body, upstream_headers, &upstream_path,
                    &upstream, route_match.route, route_id, &ip_str, &final_pool_key,
-                    host.clone(), domain_str,
+                    host.clone(), domain_str, &conn_activity,
                ).await
            } else {
                // Explicit H2 mode: hard-fail on handshake error (preserved behavior)
                self.forward_h2(
                    io, parts, body, upstream_headers, &upstream_path,
-                    &upstream, route_match.route, route_id, &ip_str, &final_pool_key, domain_str,
+                    &upstream, route_match.route, route_id, &ip_str, &final_pool_key, domain_str, &conn_activity,
                ).await
            }
        } else {
            self.forward_h1(
                io, parts, body, upstream_headers, &upstream_path,
-                &upstream, route_match.route, route_id, &ip_str, &final_pool_key, domain_str,
+                &upstream, route_match.route, route_id, &ip_str, &final_pool_key, domain_str, &conn_activity,
            ).await
        };
        self.upstream_selector.connection_ended(&upstream_key);
@@ -814,6 +881,7 @@ impl HttpProxyService {
        source_ip: &str,
        pool_key: &crate::connection_pool::PoolKey,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
@@ -822,7 +890,7 @@ impl HttpProxyService {
            self.metrics.backend_pool_hit(&backend_key);
            return self.forward_h1_with_sender(
                pooled_sender, parts, body, upstream_headers, upstream_path,
-                route, route_id, source_ip, pool_key, domain,
+                route, route_id, source_ip, pool_key, domain, conn_activity,
            ).await;
        }
@@ -845,7 +913,7 @@ impl HttpProxyService {
            }
        });
-        self.forward_h1_with_sender(sender, parts, body, upstream_headers, upstream_path, route, route_id, source_ip, pool_key, domain).await
+        self.forward_h1_with_sender(sender, parts, body, upstream_headers, upstream_path, route, route_id, source_ip, pool_key, domain, conn_activity).await
    }
    /// Common H1 forwarding logic used by both fresh and pooled paths.
@@ -861,6 +929,7 @@ impl HttpProxyService {
        source_ip: &str,
        pool_key: &crate::connection_pool::PoolKey,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        // Always use HTTP/1.1 for h1 backend connections (h2 incoming requests have version HTTP/2.0)
        let mut upstream_req = Request::builder()
@@ -879,7 +948,7 @@ impl HttpProxyService {
            route_id.map(|s| s.to_string()),
            Some(source_ip.to_string()),
            Direction::In,
-        );
+        ).with_connection_activity(Arc::clone(&conn_activity.last_activity), conn_activity.start);
        let boxed_body: BoxBody<Bytes, hyper::Error> = BoxBody::new(counting_req_body);
        let upstream_req = upstream_req.body(boxed_body).unwrap();
@@ -894,10 +963,17 @@ impl HttpProxyService {
            }
        };
-        // Return sender to pool (body streams lazily, sender is reusable once response head is received)
+        // Note: we do NOT return the sender to the pool here because the response body
-        self.connection_pool.checkin_h1(pool_key.clone(), sender);
+        // hasn't been fully streamed yet. Pooling a sender while its response body is still
        // in-flight risks another request being dispatched on the same connection if is_ready()
        // momentarily returns true between chunks. The sender is dropped after this scope,
        // and the backend connection remains alive via the spawned conn driver task until
        // the response body finishes streaming.
        // For small/empty responses, the sender could theoretically be reused, but the safety
        // of large streaming responses (e.g. 352MB Docker layers) takes priority.
        drop(sender);
-        self.build_streaming_response(upstream_response, route, route_id, source_ip).await
+        self.build_streaming_response(upstream_response, route, route_id, source_ip, conn_activity).await
    }
    /// Forward request to backend via HTTP/2 with body streaming (fresh connection).
@@ -915,6 +991,7 @@ impl HttpProxyService {
        source_ip: &str,
        pool_key: &crate::connection_pool::PoolKey,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
        let exec = hyper_util::rt::TokioExecutor::new();
@@ -922,16 +999,16 @@ impl HttpProxyService {
        h2_builder
            .timer(hyper_util::rt::TokioTimer::new())
            .keep_alive_interval(std::time::Duration::from_secs(10))
-            .keep_alive_timeout(std::time::Duration::from_secs(5))
+            .keep_alive_timeout(std::time::Duration::from_secs(30))
-            .adaptive_window(true)
+            .initial_stream_window_size(2 * 1024 * 1024)
-            .initial_stream_window_size(2 * 1024 * 1024);
+            .initial_connection_window_size(16 * 1024 * 1024);
        let (sender, conn): (
            hyper::client::conn::http2::SendRequest<BoxBody<Bytes, hyper::Error>>,
            hyper::client::conn::http2::Connection<TokioIo<BackendStream>, BoxBody<Bytes, hyper::Error>, hyper_util::rt::TokioExecutor>,
        ) = match tokio::time::timeout(self.connect_timeout, h2_builder.handshake(io)).await {
            Ok(Ok(h)) => h,
            Ok(Err(e)) => {
-                error!(backend = %backend_key, domain = %domain, error = %e, "Backend H2 handshake failed");
+                error!(backend = %backend_key, domain = %domain, error = %e, error_debug = ?e, "Backend H2 handshake failed");
                self.metrics.backend_handshake_error(&backend_key);
                return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 handshake failed"));
            }
@@ -942,15 +1019,22 @@ impl HttpProxyService {
            }
        };
        // Spawn the H2 connection driver; proactively evict from pool on exit
        // so the next request gets a fresh connection instead of a dead sender.
        {
            let pool = Arc::clone(&self.connection_pool);
            let key = pool_key.clone();
            tokio::spawn(async move {
                if let Err(e) = conn.await {
-                debug!("HTTP/2 upstream connection error: {}", e);
+                    warn!("HTTP/2 upstream connection error: {} ({:?})", e, e);
                }
                pool.remove_h2(&key);
            });
        }
        // Clone sender for potential pool registration; register only after first request succeeds
        let sender_for_pool = sender.clone();
-        let result = self.forward_h2_with_sender(sender, parts, body, upstream_headers, upstream_path, route, route_id, source_ip, Some(pool_key), domain).await;
+        let result = self.forward_h2_with_sender(sender, parts, body, upstream_headers, upstream_path, route, route_id, source_ip, Some(pool_key), domain, conn_activity).await;
        if matches!(&result, Ok(ref resp) if resp.status() != StatusCode::BAD_GATEWAY) {
            self.connection_pool.register_h2(pool_key.clone(), sender_for_pool);
        }
@@ -972,6 +1056,7 @@ impl HttpProxyService {
        source_ip: &str,
        pool_key: &crate::connection_pool::PoolKey,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        // Save retry state for bodyless requests (cheap: Method is an enum, HeaderMap clones Arc-backed Bytes)
        let retry_state = if body.is_end_stream() {
@@ -982,7 +1067,7 @@ impl HttpProxyService {
        let result = self.forward_h2_with_sender(
            sender, parts, body, upstream_headers, upstream_path,
-            route, route_id, source_ip, Some(pool_key), domain,
+            route, route_id, source_ip, Some(pool_key), domain, conn_activity,
        ).await;
        // If the request failed (502) and we can retry with an empty body, do so
@@ -993,7 +1078,7 @@ impl HttpProxyService {
                    "Stale pooled H2 sender, retrying with fresh connection");
                return self.retry_h2_with_fresh_connection(
                    method, headers, upstream_path,
-                    pool_key, route, route_id, source_ip, domain,
+                    pool_key, route, route_id, source_ip, domain, conn_activity,
                ).await;
            }
        }
@@ -1012,6 +1097,7 @@ impl HttpProxyService {
        route_id: Option<&str>,
        source_ip: &str,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
@@ -1063,16 +1149,16 @@ impl HttpProxyService {
        h2_builder
            .timer(hyper_util::rt::TokioTimer::new())
            .keep_alive_interval(std::time::Duration::from_secs(10))
-            .keep_alive_timeout(std::time::Duration::from_secs(5))
+            .keep_alive_timeout(std::time::Duration::from_secs(30))
-            .adaptive_window(true)
+            .initial_stream_window_size(2 * 1024 * 1024)
-            .initial_stream_window_size(2 * 1024 * 1024);
+            .initial_connection_window_size(16 * 1024 * 1024);
        let (mut sender, conn): (
            hyper::client::conn::http2::SendRequest<BoxBody<Bytes, hyper::Error>>,
            hyper::client::conn::http2::Connection<TokioIo<BackendStream>, BoxBody<Bytes, hyper::Error>, hyper_util::rt::TokioExecutor>,
        ) = match tokio::time::timeout(self.connect_timeout, h2_builder.handshake(io)).await {
            Ok(Ok(h)) => h,
            Ok(Err(e)) => {
-                error!(backend = %backend_key, domain = %domain, error = %e, "H2 retry: handshake failed");
+                error!(backend = %backend_key, domain = %domain, error = %e, error_debug = ?e, "H2 retry: handshake failed");
                self.metrics.backend_handshake_error(&backend_key);
                self.metrics.backend_connection_closed(&backend_key);
                return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 retry handshake failed"));
@@ -1085,11 +1171,17 @@ impl HttpProxyService {
            }
        };
        // Spawn the H2 connection driver; proactively evict from pool on exit.
        {
            let pool = Arc::clone(&self.connection_pool);
            let key = pool_key.clone();
            tokio::spawn(async move {
                if let Err(e) = conn.await {
-                debug!("H2 retry: upstream connection error: {}", e);
+                    warn!("H2 retry: upstream connection error: {} ({:?})", e, e);
                }
                pool.remove_h2(&key);
            });
        }
        // Build request with empty body using absolute URI for H2 pseudo-headers
        let scheme = if pool_key.use_tls { "https" } else { "http" };
@@ -1116,7 +1208,7 @@ impl HttpProxyService {
            Ok(resp) => {
                // Register in pool only after request succeeds
                self.connection_pool.register_h2(pool_key.clone(), sender);
-                let result = self.build_streaming_response(resp, route, route_id, source_ip).await;
+                let result = self.build_streaming_response(resp, route, route_id, source_ip, conn_activity).await;
                // Close the fresh backend connection (opened above)
                self.metrics.backend_connection_closed(&backend_key);
                result
@@ -1152,15 +1244,16 @@ impl HttpProxyService {
        pool_key: &crate::connection_pool::PoolKey,
        requested_host: Option<String>,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let exec = hyper_util::rt::TokioExecutor::new();
        let mut h2_builder = hyper::client::conn::http2::Builder::new(exec);
        h2_builder
            .timer(hyper_util::rt::TokioTimer::new())
            .keep_alive_interval(std::time::Duration::from_secs(10))
-            .keep_alive_timeout(std::time::Duration::from_secs(5))
+            .keep_alive_timeout(std::time::Duration::from_secs(30))
-            .adaptive_window(true)
+            .initial_stream_window_size(2 * 1024 * 1024)
-            .initial_stream_window_size(2 * 1024 * 1024);
+            .initial_connection_window_size(16 * 1024 * 1024);
        let handshake_result = tokio::time::timeout(
            self.connect_timeout,
            h2_builder.handshake(io),
@@ -1196,7 +1289,7 @@ impl HttpProxyService {
                        let fallback_io = TokioIo::new(fallback_backend);
                        let result = self.forward_h1(
                            fallback_io, parts, body, upstream_headers, upstream_path,
-                            upstream, route, route_id, source_ip, &h1_pool_key, domain,
+                            upstream, route, route_id, source_ip, &h1_pool_key, domain, conn_activity,
                        ).await;
                        self.metrics.backend_connection_closed(&bk);
                        result
@@ -1207,11 +1300,17 @@ impl HttpProxyService {
                }
            }
            Ok(Ok((mut sender, conn))) => {
                // Spawn the H2 connection driver; proactively evict from pool on exit.
                {
                    let pool = Arc::clone(&self.connection_pool);
                    let key = pool_key.clone();
                    tokio::spawn(async move {
                        if let Err(e) = conn.await {
-                        debug!("HTTP/2 upstream connection error: {}", e);
+                            warn!("HTTP/2 upstream connection error: {} ({:?})", e, e);
                        }
                        pool.remove_h2(&key);
                    });
                }
                // Save retry state before consuming parts/body (for bodyless requests like GET)
                // Clone BEFORE removing Host — H1 fallback needs Host header
@@ -1244,7 +1343,7 @@ impl HttpProxyService {
                    route_id.map(|s| s.to_string()),
                    Some(source_ip.to_string()),
                    Direction::In,
-                );
+                ).with_connection_activity(Arc::clone(&conn_activity.last_activity), conn_activity.start);
                let boxed_body: BoxBody<Bytes, hyper::Error> = BoxBody::new(counting_req_body);
                let upstream_req = upstream_req.body(boxed_body).unwrap();
@@ -1252,7 +1351,7 @@ impl HttpProxyService {
                    Ok(upstream_response) => {
                        // H2 works! Register sender in pool for multiplexed reuse
                        self.connection_pool.register_h2(pool_key.clone(), sender);
-                        self.build_streaming_response(upstream_response, route, route_id, source_ip).await
+                        self.build_streaming_response(upstream_response, route, route_id, source_ip, conn_activity).await
                    }
                    Err(e) => {
                        // H2 request failed — backend advertises h2 via ALPN but doesn't
@@ -1262,6 +1361,7 @@ impl HttpProxyService {
                            backend = %bk,
                            domain = %domain,
                            error = %e,
                            error_debug = ?e,
                            "Auto-detect: H2 request failed, falling back to H1"
                        );
                        self.metrics.backend_h2_failure(&bk);
@@ -1285,7 +1385,7 @@ impl HttpProxyService {
                                    let fallback_io = TokioIo::new(fallback_backend);
                                    let result = self.forward_h1_empty_body(
                                        fallback_io, method, headers, upstream_path,
-                                        route, route_id, source_ip, &h1_pool_key, domain,
+                                        route, route_id, source_ip, &h1_pool_key, domain, conn_activity,
                                    ).await;
                                    // Close the reconnected backend connection (opened in reconnect_backend)
                                    self.metrics.backend_connection_closed(&bk);
@@ -1334,7 +1434,7 @@ impl HttpProxyService {
                        let fallback_io = TokioIo::new(fallback_backend);
                        let result = self.forward_h1(
                            fallback_io, parts, body, upstream_headers, upstream_path,
-                            upstream, route, route_id, source_ip, &h1_pool_key, domain,
+                            upstream, route, route_id, source_ip, &h1_pool_key, domain, conn_activity,
                        ).await;
                        // Close the reconnected backend connection (opened in reconnect_backend)
                        self.metrics.backend_connection_closed(&bk);
@@ -1361,6 +1461,7 @@ impl HttpProxyService {
        source_ip: &str,
        pool_key: &crate::connection_pool::PoolKey,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let backend_key = format!("{}:{}", pool_key.host, pool_key.port);
        let (mut sender, conn): (
@@ -1404,10 +1505,10 @@ impl HttpProxyService {
            }
        };
-        // Return sender to pool for keep-alive reuse
+        // Don't pool the sender while response body is still streaming (same safety as forward_h1_with_sender)
-        self.connection_pool.checkin_h1(pool_key.clone(), sender);
+        drop(sender);
-        self.build_streaming_response(upstream_response, route, route_id, source_ip).await
+        self.build_streaming_response(upstream_response, route, route_id, source_ip, conn_activity).await
    }
    /// Reconnect to a backend (used for H2→H1 fallback).
@@ -1478,6 +1579,7 @@ impl HttpProxyService {
        source_ip: &str,
        pool_key: Option<&crate::connection_pool::PoolKey>,
        domain: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        // Build absolute URI for H2 pseudo-headers (:scheme, :authority)
        // Use the requested domain as authority (not backend address) so :authority matches Host header
@@ -1506,7 +1608,7 @@ impl HttpProxyService {
            route_id.map(|s| s.to_string()),
            Some(source_ip.to_string()),
            Direction::In,
-        );
+        ).with_connection_activity(Arc::clone(&conn_activity.last_activity), conn_activity.start);
        let boxed_body: BoxBody<Bytes, hyper::Error> = BoxBody::new(counting_req_body);
        let upstream_req = upstream_req.body(boxed_body).unwrap();
@@ -1517,17 +1619,17 @@ impl HttpProxyService {
                // Evict the dead sender so subsequent requests get fresh connections
                if let Some(key) = pool_key {
                    let bk = format!("{}:{}", key.host, key.port);
-                    error!(backend = %bk, domain = %domain, error = %e, "Backend H2 request failed");
+                    error!(backend = %bk, domain = %domain, error = %e, error_debug = ?e, "Backend H2 request failed");
                    self.metrics.backend_request_error(&bk);
                    self.connection_pool.remove_h2(key);
                } else {
-                    error!(domain = %domain, error = %e, "Backend H2 request failed");
+                    error!(domain = %domain, error = %e, error_debug = ?e, "Backend H2 request failed");
                }
                return Ok(error_response(StatusCode::BAD_GATEWAY, "Backend H2 request failed"));
            }
        };
-        self.build_streaming_response(upstream_response, route, route_id, source_ip).await
+        self.build_streaming_response(upstream_response, route, route_id, source_ip, conn_activity).await
    }
    /// Build the client-facing response from an upstream response, streaming the body.
@@ -1540,6 +1642,7 @@ impl HttpProxyService {
        route: &rustproxy_config::RouteConfig,
        route_id: Option<&str>,
        source_ip: &str,
        conn_activity: &ConnActivity,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        let (resp_parts, resp_body) = upstream_response.into_parts();
@@ -1548,6 +1651,19 @@ impl HttpProxyService {
        if let Some(headers) = response.headers_mut() {
            *headers = resp_parts.headers;
            // Strip hop-by-hop headers from the backend response.
            // RFC 9113 §8.2.2 forbids connection-specific headers in HTTP/2 responses;
            // forwarding them from an H1 backend can cause H2 stream resets.
            // Mirrors the request-path stripping at the forward methods above.
            headers.remove("connection");
            headers.remove("keep-alive");
            headers.remove("proxy-connection");
            headers.remove("transfer-encoding");
            headers.remove("te");
            headers.remove("trailer");
            // Note: "upgrade" is intentionally kept — needed for WebSocket 101 responses.
            ResponseFilter::apply_headers(route, headers, None);
        }
@@ -1560,7 +1676,16 @@ impl HttpProxyService {
            route_id.map(|s| s.to_string()),
            Some(source_ip.to_string()),
            Direction::Out,
-        );
+        ).with_connection_activity(Arc::clone(&conn_activity.last_activity), conn_activity.start);
        // Keep active_requests > 0 while the response body streams, so the idle
        // watchdog doesn't kill the connection mid-transfer (e.g. during git fetch).
        // CountingBody increments on creation and decrements on Drop.
        let counting_body = if let Some(ref ar) = conn_activity.active_requests {
            counting_body.with_active_requests(Arc::clone(ar))
        } else {
            counting_body
        };
        let body: BoxBody<Bytes, hyper::Error> = BoxBody::new(counting_body);
@@ -1579,6 +1704,7 @@ impl HttpProxyService {
        cancel: CancellationToken,
        source_ip: &str,
        is_h2: bool,
        conn_activity: Option<ConnActivity>,
    ) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
        use tokio::io::{AsyncReadExt, AsyncWriteExt};
@@ -1882,48 +2008,89 @@ impl HttpProxyService {
            let last_activity = Arc::new(AtomicU64::new(0));
            let start = std::time::Instant::now();
            // Per-connection cancellation token: the watchdog cancels this instead of
            // aborting tasks, so the copy loops can shut down gracefully (TLS close_notify).
            let ws_cancel = CancellationToken::new();
            // For H2 WebSocket: also update the connection-level activity tracker
            // to prevent the idle watchdog from killing the H2 connection
            let conn_act_c2u = conn_activity.as_ref().map(|ca| (Arc::clone(&ca.last_activity), ca.start));
            let conn_act_u2c = conn_activity.as_ref().map(|ca| (Arc::clone(&ca.last_activity), ca.start));
            let la1 = Arc::clone(&last_activity);
            let metrics_c2u = Arc::clone(&metrics);
            let route_c2u = route_id_owned.clone();
            let ip_c2u = source_ip_owned.clone();
            let wsc1 = ws_cancel.clone();
            let c2u = tokio::spawn(async move {
                let mut buf = vec![0u8; 65536];
                let mut total = 0u64;
                loop {
-                    let n = match cr.read(&mut buf).await {
+                    let n = tokio::select! {
                        result = cr.read(&mut buf) => match result {
                            Ok(0) | Err(_) => break,
                            Ok(n) => n,
                        },
                        _ = wsc1.cancelled() => break,
                    };
                    if uw.write_all(&buf[..n]).await.is_err() {
                        break;
                    }
                    total += n as u64;
                    metrics_c2u.record_bytes(n as u64, 0, route_c2u.as_deref(), Some(&ip_c2u));
                    la1.store(start.elapsed().as_millis() as u64, Ordering::Relaxed);
                    if let Some((ref ca, ca_start)) = conn_act_c2u {
                        ca.store(ca_start.elapsed().as_millis() as u64, Ordering::Relaxed);
                    }
-                let _ = uw.shutdown().await;
+                }
                // Graceful shutdown with timeout (sends TLS close_notify / TCP FIN)
                let _ = tokio::time::timeout(
                    std::time::Duration::from_secs(2),
                    uw.shutdown(),
                ).await;
                total
            });
            let la2 = Arc::clone(&last_activity);
            let metrics_u2c = Arc::clone(&metrics);
            let route_u2c = route_id_owned.clone();
            let ip_u2c = source_ip_owned.clone();
            let wsc2 = ws_cancel.clone();
            let u2c = tokio::spawn(async move {
                let mut buf = vec![0u8; 65536];
                let mut total = 0u64;
                loop {
-                    let n = match ur.read(&mut buf).await {
+                    let n = tokio::select! {
                        result = ur.read(&mut buf) => match result {
                            Ok(0) | Err(_) => break,
                            Ok(n) => n,
                        },
                        _ = wsc2.cancelled() => break,
                    };
                    if cw.write_all(&buf[..n]).await.is_err() {
                        break;
                    }
                    total += n as u64;
                    metrics_u2c.record_bytes(0, n as u64, route_u2c.as_deref(), Some(&ip_u2c));
                    la2.store(start.elapsed().as_millis() as u64, Ordering::Relaxed);
                    if let Some((ref ca, ca_start)) = conn_act_u2c {
                        ca.store(ca_start.elapsed().as_millis() as u64, Ordering::Relaxed);
                    }
-                let _ = cw.shutdown().await;
+                }
                // Graceful shutdown with timeout (sends TLS close_notify / TCP FIN)
                let _ = tokio::time::timeout(
                    std::time::Duration::from_secs(2),
                    cw.shutdown(),
                ).await;
                total
            });
-            // Watchdog: monitors inactivity, max lifetime, and cancellation
+            // Watchdog: monitors inactivity, max lifetime, and cancellation.
            // First cancels the per-connection token for graceful shutdown (close_notify/FIN),
            // then falls back to abort if the tasks are stuck (e.g. on a blocked write_all).
            let la_watch = Arc::clone(&last_activity);
-            let c2u_handle = c2u.abort_handle();
+            let c2u_abort = c2u.abort_handle();
-            let u2c_handle = u2c.abort_handle();
+            let u2c_abort = u2c.abort_handle();
            let inactivity_timeout = ws_inactivity_timeout;
            let max_lifetime = ws_max_lifetime;
@@ -1935,8 +2102,6 @@ impl HttpProxyService {
                        _ = tokio::time::sleep(check_interval) => {}
                        _ = cancel.cancelled() => {
                            debug!("WebSocket tunnel cancelled by shutdown");
                            c2u_handle.abort();
                            u2c_handle.abort();
                            break;
                        }
                    }
@@ -1944,8 +2109,6 @@ impl HttpProxyService {
                    // Check max lifetime
                    if start.elapsed() >= max_lifetime {
                        debug!("WebSocket tunnel exceeded max lifetime, closing");
                        c2u_handle.abort();
                        u2c_handle.abort();
                        break;
                    }
@@ -1955,13 +2118,18 @@ impl HttpProxyService {
                        let elapsed_since_activity = start.elapsed().as_millis() as u64 - current;
                        if elapsed_since_activity >= inactivity_timeout.as_millis() as u64 {
                            debug!("WebSocket tunnel inactive for {}ms, closing", elapsed_since_activity);
                            c2u_handle.abort();
                            u2c_handle.abort();
                            break;
                        }
                    }
                    last_seen = current;
                }
                // Phase 1: Signal copy loops to exit gracefully (allows close_notify/FIN)
                ws_cancel.cancel();
                // Phase 2: Wait for graceful shutdown (2s shutdown timeout + 2s margin)
                tokio::time::sleep(std::time::Duration::from_secs(4)).await;
                // Phase 3: Force-abort if still stuck (e.g. blocked on write_all)
                c2u_abort.abort();
                u2c_abort.abort();
            });
            let bytes_in = c2u.await.unwrap_or(0);
@@ -1971,9 +2139,7 @@ impl HttpProxyService {
            debug!("WebSocket tunnel closed: {} bytes in, {} bytes out", bytes_in, bytes_out);
            upstream_selector.connection_ended(&upstream_key_owned);
-            if let Some(ref rid) = route_id_owned {
+            // Bytes already reported per-chunk in the copy loops above
                metrics.record_bytes(bytes_in, bytes_out, Some(rid.as_str()), Some(&source_ip_owned));
            }
        });
        let body: BoxBody<Bytes, hyper::Error> = BoxBody::new(
--- a/rust/crates/rustproxy-http/src/shutdown_on_drop.rs
+++ b/rust/crates/rustproxy-http/src/shutdown_on_drop.rs
@@ -0,0 +1,102 @@
 //! Wrapper that ensures TLS close_notify is sent when the stream is dropped.
 //!
 //! When hyper drops an HTTP connection (backend error, timeout, normal H2 close),
 //! the underlying TLS stream is dropped WITHOUT `shutdown()`. tokio-rustls cannot
 //! send `close_notify` in Drop (requires async). This wrapper tracks whether
 //! `poll_shutdown` was called and, if not, spawns a background task to send it.
 use std::io;
 use std::pin::Pin;
 use std::task::{Context, Poll};
 use tokio::io::{AsyncRead, AsyncWrite, ReadBuf};
 /// Wraps an AsyncRead+AsyncWrite stream and ensures `shutdown()` is called when
 /// dropped, even if the caller (e.g. hyper) doesn't explicitly shut down.
 ///
 /// This guarantees TLS `close_notify` is sent for TLS-wrapped streams, preventing
 /// "GnuTLS recv error (-110): The TLS connection was non-properly terminated" errors.
 pub struct ShutdownOnDrop<S: AsyncRead + AsyncWrite + Unpin + Send + 'static> {
    inner: Option<S>,
    shutdown_called: bool,
 }
 impl<S: AsyncRead + AsyncWrite + Unpin + Send + 'static> ShutdownOnDrop<S> {
    /// Create a new wrapper around the given stream.
    pub fn new(stream: S) -> Self {
        Self {
            inner: Some(stream),
            shutdown_called: false,
        }
    }
 }
 impl<S: AsyncRead + AsyncWrite + Unpin + Send + 'static> AsyncRead for ShutdownOnDrop<S> {
    fn poll_read(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
        buf: &mut ReadBuf<'_>,
    ) -> Poll<io::Result<()>> {
        Pin::new(self.get_mut().inner.as_mut().unwrap()).poll_read(cx, buf)
    }
 }
 impl<S: AsyncRead + AsyncWrite + Unpin + Send + 'static> AsyncWrite for ShutdownOnDrop<S> {
    fn poll_write(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
        buf: &[u8],
    ) -> Poll<io::Result<usize>> {
        Pin::new(self.get_mut().inner.as_mut().unwrap()).poll_write(cx, buf)
    }
    fn poll_write_vectored(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
        bufs: &[io::IoSlice<'_>],
    ) -> Poll<io::Result<usize>> {
        Pin::new(self.get_mut().inner.as_mut().unwrap()).poll_write_vectored(cx, bufs)
    }
    fn is_write_vectored(&self) -> bool {
        self.inner.as_ref().unwrap().is_write_vectored()
    }
    fn poll_flush(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
    ) -> Poll<io::Result<()>> {
        Pin::new(self.get_mut().inner.as_mut().unwrap()).poll_flush(cx)
    }
    fn poll_shutdown(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
    ) -> Poll<io::Result<()>> {
        let this = self.get_mut();
        let result = Pin::new(this.inner.as_mut().unwrap()).poll_shutdown(cx);
        if result.is_ready() {
            this.shutdown_called = true;
        }
        result
    }
 }
 impl<S: AsyncRead + AsyncWrite + Unpin + Send + 'static> Drop for ShutdownOnDrop<S> {
    fn drop(&mut self) {
        // If shutdown was already called (hyper closed properly), nothing to do.
        // If not (hyper dropped without shutdown — e.g. H2 close, error, timeout),
        // spawn a background task to send close_notify / TCP FIN.
        if !self.shutdown_called {
            if let Some(mut stream) = self.inner.take() {
                tokio::spawn(async move {
                    let _ = tokio::time::timeout(
                        std::time::Duration::from_secs(2),
                        tokio::io::AsyncWriteExt::shutdown(&mut stream),
                    ).await;
                    // stream is dropped here — all resources freed
                });
            }
        }
    }
 }
--- a/rust/crates/rustproxy-metrics/src/collector.rs
+++ b/rust/crates/rustproxy-metrics/src/collector.rs
@@ -266,47 +266,70 @@ impl MetricsCollector {
        self.global_pending_tp_in.fetch_add(bytes_in, Ordering::Relaxed);
        self.global_pending_tp_out.fetch_add(bytes_out, Ordering::Relaxed);
        // Per-route tracking: use get() first (zero-alloc fast path for existing entries),
        // fall back to entry() with to_string() only on the rare first-chunk miss.
        if let Some(route_id) = route_id {
-            self.route_bytes_in
+            if let Some(counter) = self.route_bytes_in.get(route_id) {
-                .entry(route_id.to_string())
+                counter.fetch_add(bytes_in, Ordering::Relaxed);
            } else {
                self.route_bytes_in.entry(route_id.to_string())
                    .or_insert_with(|| AtomicU64::new(0))
                    .fetch_add(bytes_in, Ordering::Relaxed);
-            self.route_bytes_out
+            }
-                .entry(route_id.to_string())
+            if let Some(counter) = self.route_bytes_out.get(route_id) {
                counter.fetch_add(bytes_out, Ordering::Relaxed);
            } else {
                self.route_bytes_out.entry(route_id.to_string())
                    .or_insert_with(|| AtomicU64::new(0))
                    .fetch_add(bytes_out, Ordering::Relaxed);
            }
            // Accumulate into per-route pending throughput counters (lock-free)
-            let entry = self.route_pending_tp
+            if let Some(entry) = self.route_pending_tp.get(route_id) {
-                .entry(route_id.to_string())
+                entry.0.fetch_add(bytes_in, Ordering::Relaxed);
                entry.1.fetch_add(bytes_out, Ordering::Relaxed);
            } else {
                let entry = self.route_pending_tp.entry(route_id.to_string())
                    .or_insert_with(|| (AtomicU64::new(0), AtomicU64::new(0)));
                entry.0.fetch_add(bytes_in, Ordering::Relaxed);
                entry.1.fetch_add(bytes_out, Ordering::Relaxed);
            }
        }
        // Per-IP tracking: same get()-first pattern to avoid String allocation on hot path.
        if let Some(ip) = source_ip {
            // Only record per-IP stats if the IP still has active connections.
            // This prevents orphaned entries when record_bytes races with
            // connection_closed (which evicts all per-IP data on last close).
            if self.ip_connections.contains_key(ip) {
-                self.ip_bytes_in
+                if let Some(counter) = self.ip_bytes_in.get(ip) {
-                    .entry(ip.to_string())
+                    counter.fetch_add(bytes_in, Ordering::Relaxed);
                } else {
                    self.ip_bytes_in.entry(ip.to_string())
                        .or_insert_with(|| AtomicU64::new(0))
                        .fetch_add(bytes_in, Ordering::Relaxed);
-                self.ip_bytes_out
+                }
-                    .entry(ip.to_string())
+                if let Some(counter) = self.ip_bytes_out.get(ip) {
                    counter.fetch_add(bytes_out, Ordering::Relaxed);
                } else {
                    self.ip_bytes_out.entry(ip.to_string())
                        .or_insert_with(|| AtomicU64::new(0))
                        .fetch_add(bytes_out, Ordering::Relaxed);
                }
                // Accumulate into per-IP pending throughput counters (lock-free)
-                let entry = self.ip_pending_tp
+                if let Some(entry) = self.ip_pending_tp.get(ip) {
-                    .entry(ip.to_string())
+                    entry.0.fetch_add(bytes_in, Ordering::Relaxed);
                    entry.1.fetch_add(bytes_out, Ordering::Relaxed);
                } else {
                    let entry = self.ip_pending_tp.entry(ip.to_string())
                        .or_insert_with(|| (AtomicU64::new(0), AtomicU64::new(0)));
                    entry.0.fetch_add(bytes_in, Ordering::Relaxed);
                    entry.1.fetch_add(bytes_out, Ordering::Relaxed);
                }
            }
        }
    }
    /// Record an HTTP request (called once per request in the HTTP proxy).
    pub fn record_http_request(&self) {
--- a/rust/crates/rustproxy-passthrough/src/forwarder.rs
+++ b/rust/crates/rustproxy-passthrough/src/forwarder.rs
@@ -97,16 +97,25 @@ pub async fn forward_bidirectional_with_timeouts(
    let last_activity = Arc::new(AtomicU64::new(0));
    let start = std::time::Instant::now();
    // Per-connection cancellation token: the watchdog cancels this instead of
    // aborting tasks, so the copy loops can shut down gracefully (TCP FIN instead
    // of RST, TLS close_notify if the stream is TLS-wrapped).
    let conn_cancel = CancellationToken::new();
    let la1 = Arc::clone(&last_activity);
    let initial_len = initial_data.map_or(0u64, |d| d.len() as u64);
    let metrics_c2b = metrics.clone();
    let cc1 = conn_cancel.clone();
    let c2b = tokio::spawn(async move {
        let mut buf = vec![0u8; 65536];
        let mut total = initial_len;
        loop {
-            let n = match client_read.read(&mut buf).await {
+            let n = tokio::select! {
                result = client_read.read(&mut buf) => match result {
                    Ok(0) | Err(_) => break,
                    Ok(n) => n,
                },
                _ = cc1.cancelled() => break,
            };
            if backend_write.write_all(&buf[..n]).await.is_err() {
                break;
@@ -117,19 +126,27 @@ pub async fn forward_bidirectional_with_timeouts(
                ctx.collector.record_bytes(n as u64, 0, ctx.route_id.as_deref(), ctx.source_ip.as_deref());
            }
        }
-        let _ = backend_write.shutdown().await;
+        // Graceful shutdown with timeout (sends TCP FIN / TLS close_notify)
        let _ = tokio::time::timeout(
            std::time::Duration::from_secs(2),
            backend_write.shutdown(),
        ).await;
        total
    });
    let la2 = Arc::clone(&last_activity);
    let metrics_b2c = metrics;
    let cc2 = conn_cancel.clone();
    let b2c = tokio::spawn(async move {
        let mut buf = vec![0u8; 65536];
        let mut total = 0u64;
        loop {
-            let n = match backend_read.read(&mut buf).await {
+            let n = tokio::select! {
                result = backend_read.read(&mut buf) => match result {
                    Ok(0) | Err(_) => break,
                    Ok(n) => n,
                },
                _ = cc2.cancelled() => break,
            };
            if client_write.write_all(&buf[..n]).await.is_err() {
                break;
@@ -140,14 +157,20 @@ pub async fn forward_bidirectional_with_timeouts(
                ctx.collector.record_bytes(0, n as u64, ctx.route_id.as_deref(), ctx.source_ip.as_deref());
            }
        }
-        let _ = client_write.shutdown().await;
+        // Graceful shutdown with timeout (sends TCP FIN / TLS close_notify)
        let _ = tokio::time::timeout(
            std::time::Duration::from_secs(2),
            client_write.shutdown(),
        ).await;
        total
    });
-    // Watchdog: inactivity, max lifetime, and cancellation
+    // Watchdog: inactivity, max lifetime, and cancellation.
    // First cancels the per-connection token for graceful shutdown (FIN/close_notify),
    // then falls back to abort if the tasks are stuck (e.g. on a blocked write_all).
    let la_watch = Arc::clone(&last_activity);
-    let c2b_handle = c2b.abort_handle();
+    let c2b_abort = c2b.abort_handle();
-    let b2c_handle = b2c.abort_handle();
+    let b2c_abort = b2c.abort_handle();
    let watchdog = tokio::spawn(async move {
        let check_interval = std::time::Duration::from_secs(5);
        let mut last_seen = 0u64;
@@ -155,16 +178,12 @@ pub async fn forward_bidirectional_with_timeouts(
            tokio::select! {
                _ = cancel.cancelled() => {
                    debug!("Connection cancelled by shutdown");
                    c2b_handle.abort();
                    b2c_handle.abort();
                    break;
                }
                _ = tokio::time::sleep(check_interval) => {
                    // Check max lifetime
                    if start.elapsed() >= max_lifetime {
                        debug!("Connection exceeded max lifetime, closing");
                        c2b_handle.abort();
                        b2c_handle.abort();
                        break;
                    }
@@ -174,8 +193,6 @@ pub async fn forward_bidirectional_with_timeouts(
                        let elapsed_since_activity = start.elapsed().as_millis() as u64 - current;
                        if elapsed_since_activity >= inactivity_timeout.as_millis() as u64 {
                            debug!("Connection inactive for {}ms, closing", elapsed_since_activity);
                            c2b_handle.abort();
                            b2c_handle.abort();
                            break;
                        }
                    }
@@ -183,6 +200,13 @@ pub async fn forward_bidirectional_with_timeouts(
                }
            }
        }
        // Phase 1: Signal copy loops to exit gracefully (allows FIN/close_notify)
        conn_cancel.cancel();
        // Phase 2: Wait for graceful shutdown (2s shutdown timeout + 2s margin)
        tokio::time::sleep(std::time::Duration::from_secs(4)).await;
        // Phase 3: Force-abort if still stuck (e.g. blocked on write_all)
        c2b_abort.abort();
        b2c_abort.abort();
    });
    let bytes_in = c2b.await.unwrap_or(0);
--- a/rust/crates/rustproxy-passthrough/src/tcp_listener.rs
+++ b/rust/crates/rustproxy-passthrough/src/tcp_listener.rs
@@ -465,21 +465,19 @@ impl TcpListenerManager {
                        Ok((stream, peer_addr)) => {
                            let ip = peer_addr.ip();
-                            // Global connection limit — acquire semaphore permit with timeout
+                            // Global connection limit — non-blocking check.
-                            let permit = match tokio::time::timeout(
+                            // MUST NOT block the accept loop: a blocking acquire would stall
-                                std::time::Duration::from_secs(5),
+                            // ALL connections to this port (not just the one over limit), because
-                                conn_semaphore.clone().acquire_owned(),
+                            // listener.accept() is not polled while we await the semaphore.
-                            ).await {
+                            let permit = match conn_semaphore.clone().try_acquire_owned() {
-                                Ok(Ok(permit)) => permit,
+                                Ok(permit) => permit,
-                                Ok(Err(_)) => {
+                                Err(tokio::sync::TryAcquireError::NoPermits) => {
-                                    // Semaphore closed — shouldn't happen, but be safe
+                                    warn!("Global connection limit reached, dropping connection from {}", peer_addr);
                                    debug!("Connection semaphore closed, dropping connection from {}", peer_addr);
                                    drop(stream);
                                    continue;
                                }
-                                Err(_) => {
+                                Err(tokio::sync::TryAcquireError::Closed) => {
-                                    // Timeout — global limit reached
+                                    warn!("Connection semaphore closed, dropping connection from {}", peer_addr);
                                    debug!("Global connection limit reached, dropping connection from {}", peer_addr);
                                    drop(stream);
                                    continue;
                                }
@@ -487,7 +485,7 @@ impl TcpListenerManager {
                            // Check per-IP limits and rate limiting
                            if !conn_tracker.try_accept(&ip) {
-                                debug!("Rejected connection from {} (per-IP limit or rate limit)", peer_addr);
+                                warn!("Rejected connection from {} (per-IP limit or rate limit)", peer_addr);
                                drop(stream);
                                drop(permit);
                                continue;
@@ -519,7 +517,7 @@ impl TcpListenerManager {
                                    stream, port, peer_addr, rm, m, tc, sa, hp, cc, cn, sr, rc,
                                ).await;
                                if let Err(e) = result {
-                                    debug!("Connection error from {}: {}", peer_addr, e);
+                                    warn!("Connection error from {}: {}", peer_addr, e);
                                }
                            });
                        }
@@ -563,8 +561,9 @@ impl TcpListenerManager {
        // Non-proxy connections skip the peek entirely (no latency cost).
        let mut effective_peer_addr = peer_addr;
        if !conn_config.proxy_ips.is_empty() && conn_config.proxy_ips.contains(&peer_addr.ip()) {
-            // Trusted proxy IP — peek for PROXY protocol header
+            // Trusted proxy IP — peek for PROXY protocol header.
-            let mut proxy_peek = vec![0u8; 256];
+            // Use stack-allocated buffers (PROXY v1 headers are max ~108 bytes).
            let mut proxy_peek = [0u8; 256];
            let pn = match tokio::time::timeout(
                std::time::Duration::from_millis(conn_config.initial_data_timeout_ms),
                stream.peek(&mut proxy_peek),
@@ -579,9 +578,9 @@ impl TcpListenerManager {
                    Ok((header, consumed)) => {
                        debug!("PROXY protocol: real client {} -> {}", header.source_addr, header.dest_addr);
                        effective_peer_addr = header.source_addr;
-                        // Consume the proxy protocol header bytes
+                        // Consume the proxy protocol header bytes (stack buffer, max 108 bytes)
-                        let mut discard = vec![0u8; consumed];
+                        let mut discard = [0u8; 128];
-                        stream.read_exact(&mut discard).await?;
+                        stream.read_exact(&mut discard[..consumed]).await?;
                    }
                    Err(e) => {
                        debug!("Failed to parse PROXY protocol header: {}", e);
@@ -664,7 +663,7 @@ impl TcpListenerManager {
                            if !rustproxy_http::request_filter::RequestFilter::check_ip_security(
                                security, &peer_addr.ip(),
                            ) {
-                                debug!("Connection from {} blocked by route security", peer_addr);
+                                warn!("Connection from {} blocked by route security", peer_addr);
                                return Ok(());
                            }
                        }
@@ -810,7 +809,7 @@ impl TcpListenerManager {
        let route_match = match route_match {
            Some(rm) => rm,
            None => {
-                debug!("No route matched for port {} domain {:?}", port, domain);
+                warn!("No route matched for port {} domain {:?} from {}", port, domain, peer_addr);
                if is_http {
                    // Send a proper HTTP error instead of dropping the connection
                    use tokio::io::AsyncWriteExt;
@@ -844,7 +843,7 @@ impl TcpListenerManager {
                security,
                &peer_addr.ip(),
            ) {
-                debug!("Connection from {} blocked by route security", peer_addr);
+                warn!("Connection from {} blocked by route security", peer_addr);
                return Ok(());
            }
        }
@@ -987,13 +986,18 @@ impl TcpListenerManager {
                    Err(_) => return Err("TLS handshake timeout".into()),
                };
-                // Peek at decrypted data to determine if HTTP
+                // Peek at decrypted data to determine if HTTP.
                // Timeout prevents connection leak if client completes TLS
                // but never sends application data (scanners, health probes, slow-loris).
                let mut buf_stream = tokio::io::BufReader::new(tls_stream);
                let peeked = {
                    use tokio::io::AsyncBufReadExt;
-                    match buf_stream.fill_buf().await {
+                    match tokio::time::timeout(
-                        Ok(data) => sni_parser::is_http(data),
+                        std::time::Duration::from_millis(conn_config.initial_data_timeout_ms),
-                        Err(_) => false,
+                        buf_stream.fill_buf(),
                    ).await {
                        Ok(Ok(data)) => sni_parser::is_http(data),
                        Ok(Err(_)) | Err(_) => false,
                    }
                };
@@ -1011,7 +1015,11 @@ impl TcpListenerManager {
                        "TLS Terminate + HTTP: {} -> {}:{} (domain: {:?})",
                        peer_addr, target_host, target_port, domain
                    );
-                    http_proxy.handle_io(buf_stream, peer_addr, port, cancel.clone()).await;
+                    // Wrap in ShutdownOnDrop to ensure TLS close_notify is sent
                    // even if hyper drops the connection without calling shutdown
                    // (e.g. H2 close, backend error, idle timeout drain).
                    let wrapped = rustproxy_http::shutdown_on_drop::ShutdownOnDrop::new(buf_stream);
                    http_proxy.handle_io(wrapped, peer_addr, port, cancel.clone()).await;
                } else {
                    debug!(
                        "TLS Terminate + TCP: {} -> {}:{} (domain: {:?})",
@@ -1062,13 +1070,18 @@ impl TcpListenerManager {
                    Err(_) => return Err("TLS handshake timeout".into()),
                };
-                // Peek at decrypted data to detect protocol
+                // Peek at decrypted data to detect protocol.
                // Timeout prevents connection leak if client completes TLS
                // but never sends application data (scanners, health probes, slow-loris).
                let mut buf_stream = tokio::io::BufReader::new(tls_stream);
                let is_http_data = {
                    use tokio::io::AsyncBufReadExt;
-                    match buf_stream.fill_buf().await {
+                    match tokio::time::timeout(
-                        Ok(data) => sni_parser::is_http(data),
+                        std::time::Duration::from_millis(conn_config.initial_data_timeout_ms),
-                        Err(_) => false,
+                        buf_stream.fill_buf(),
                    ).await {
                        Ok(Ok(data)) => sni_parser::is_http(data),
                        Ok(Err(_)) | Err(_) => false,
                    }
                };
@@ -1088,7 +1101,10 @@ impl TcpListenerManager {
                        "TLS Terminate+Reencrypt + HTTP: {} (domain: {:?})",
                        peer_addr, domain
                    );
-                    http_proxy.handle_io(buf_stream, peer_addr, port, cancel.clone()).await;
+                    // Wrap in ShutdownOnDrop to ensure TLS close_notify is sent
                    // even if hyper drops the connection without calling shutdown.
                    let wrapped = rustproxy_http::shutdown_on_drop::ShutdownOnDrop::new(buf_stream);
                    http_proxy.handle_io(wrapped, peer_addr, port, cancel.clone()).await;
                } else {
                    // Non-HTTP: TLS-to-TLS tunnel (existing behavior for raw TCP protocols)
                    debug!(
@@ -1396,15 +1412,24 @@ impl TcpListenerManager {
        let last_activity = Arc::new(AtomicU64::new(0));
        let start = std::time::Instant::now();
        // Per-connection cancellation token: the watchdog cancels this instead of
        // aborting tasks, so the copy loops can shut down gracefully (TLS close_notify
        // for terminate/reencrypt mode, TCP FIN for passthrough mode).
        let conn_cancel = CancellationToken::new();
        let la1 = Arc::clone(&last_activity);
        let metrics_c2b = metrics.clone();
        let cc1 = conn_cancel.clone();
        let c2b = tokio::spawn(async move {
            let mut buf = vec![0u8; 65536];
            let mut total = 0u64;
            loop {
-                let n = match client_read.read(&mut buf).await {
+                let n = tokio::select! {
                    result = client_read.read(&mut buf) => match result {
                        Ok(0) | Err(_) => break,
                        Ok(n) => n,
                    },
                    _ = cc1.cancelled() => break,
                };
                if backend_write.write_all(&buf[..n]).await.is_err() {
                    break;
@@ -1418,19 +1443,27 @@ impl TcpListenerManager {
                    ctx.collector.record_bytes(n as u64, 0, ctx.route_id.as_deref(), ctx.source_ip.as_deref());
                }
            }
-            let _ = backend_write.shutdown().await;
+            // Graceful shutdown with timeout (sends TLS close_notify / TCP FIN)
            let _ = tokio::time::timeout(
                std::time::Duration::from_secs(2),
                backend_write.shutdown(),
            ).await;
            total
        });
        let la2 = Arc::clone(&last_activity);
        let metrics_b2c = metrics;
        let cc2 = conn_cancel.clone();
        let b2c = tokio::spawn(async move {
            let mut buf = vec![0u8; 65536];
            let mut total = 0u64;
            loop {
-                let n = match backend_read.read(&mut buf).await {
+                let n = tokio::select! {
                    result = backend_read.read(&mut buf) => match result {
                        Ok(0) | Err(_) => break,
                        Ok(n) => n,
                    },
                    _ = cc2.cancelled() => break,
                };
                if client_write.write_all(&buf[..n]).await.is_err() {
                    break;
@@ -1444,14 +1477,20 @@ impl TcpListenerManager {
                    ctx.collector.record_bytes(0, n as u64, ctx.route_id.as_deref(), ctx.source_ip.as_deref());
                }
            }
-            let _ = client_write.shutdown().await;
+            // Graceful shutdown with timeout (sends TLS close_notify / TCP FIN)
            let _ = tokio::time::timeout(
                std::time::Duration::from_secs(2),
                client_write.shutdown(),
            ).await;
            total
        });
-        // Watchdog task: check for inactivity, max lifetime, and cancellation
+        // Watchdog task: check for inactivity, max lifetime, and cancellation.
        // First cancels the per-connection token for graceful shutdown (close_notify/FIN),
        // then falls back to abort if the tasks are stuck (e.g. on a blocked write_all).
        let la_watch = Arc::clone(&last_activity);
-        let c2b_handle = c2b.abort_handle();
+        let c2b_abort = c2b.abort_handle();
-        let b2c_handle = b2c.abort_handle();
+        let b2c_abort = b2c.abort_handle();
        let watchdog = tokio::spawn(async move {
            let check_interval = std::time::Duration::from_secs(5);
            let mut last_seen = 0u64;
@@ -1459,16 +1498,12 @@ impl TcpListenerManager {
                tokio::select! {
                    _ = cancel.cancelled() => {
                        debug!("Split-stream connection cancelled by shutdown");
                        c2b_handle.abort();
                        b2c_handle.abort();
                        break;
                    }
                    _ = tokio::time::sleep(check_interval) => {
                        // Check max lifetime
                        if start.elapsed() >= max_lifetime {
                            debug!("Connection exceeded max lifetime, closing");
                            c2b_handle.abort();
                            b2c_handle.abort();
                            break;
                        }
@@ -1479,8 +1514,6 @@ impl TcpListenerManager {
                            let elapsed_since_activity = start.elapsed().as_millis() as u64 - current;
                            if elapsed_since_activity >= inactivity_timeout.as_millis() as u64 {
                                debug!("Connection inactive for {}ms, closing", elapsed_since_activity);
                                c2b_handle.abort();
                                b2c_handle.abort();
                                break;
                            }
                        }
@@ -1488,6 +1521,13 @@ impl TcpListenerManager {
                    }
                }
            }
            // Phase 1: Signal copy loops to exit gracefully (allows close_notify/FIN)
            conn_cancel.cancel();
            // Phase 2: Wait for graceful shutdown (2s shutdown timeout + 2s margin)
            tokio::time::sleep(std::time::Duration::from_secs(4)).await;
            // Phase 3: Force-abort if still stuck (e.g. blocked on write_all)
            c2b_abort.abort();
            b2c_abort.abort();
        });
        let bytes_in = c2b.await.unwrap_or(0);
--- a/rust/crates/rustproxy-routing/src/matchers/domain.rs
+++ b/rust/crates/rustproxy-routing/src/matchers/domain.rs
@@ -6,25 +6,28 @@
 /// - `example.com` exact match
 /// - `**.example.com` matches any depth of subdomain
 pub fn domain_matches(pattern: &str, domain: &str) -> bool {
-    let pattern = pattern.trim().to_lowercase();
+    let pattern = pattern.trim();
-    let domain = domain.trim().to_lowercase();
+    let domain = domain.trim();
    if pattern == "*" {
        return true;
    }
-    if pattern == domain {
+    if pattern.eq_ignore_ascii_case(domain) {
        return true;
    }
    // Wildcard patterns
-    if pattern.starts_with("*.") {
+    if pattern.starts_with("*.") || pattern.starts_with("*.") {
        let suffix = &pattern[2..]; // e.g., "example.com"
        // Match exact parent or any single-level subdomain
-        if domain == suffix {
+        if domain.eq_ignore_ascii_case(suffix) {
            return true;
        }
-        if domain.ends_with(&format!(".{}", suffix)) {
+        if domain.len() > suffix.len() + 1
            && domain.as_bytes()[domain.len() - suffix.len() - 1] == b'.'
            && domain[domain.len() - suffix.len()..].eq_ignore_ascii_case(suffix)
        {
            // Check it's a single level subdomain for `*.`
            let prefix = &domain[..domain.len() - suffix.len() - 1];
            return !prefix.contains('.');
@@ -35,11 +38,22 @@ pub fn domain_matches(pattern: &str, domain: &str) -> bool {
    if pattern.starts_with("**.") {
        let suffix = &pattern[3..];
        // Match exact parent or any depth of subdomain
-        return domain == suffix || domain.ends_with(&format!(".{}", suffix));
+        if domain.eq_ignore_ascii_case(suffix) {
            return true;
        }
        if domain.len() > suffix.len() + 1
            && domain.as_bytes()[domain.len() - suffix.len() - 1] == b'.'
            && domain[domain.len() - suffix.len()..].eq_ignore_ascii_case(suffix)
        {
            return true;
        }
        return false;
    }
-    // Use glob-match for more complex patterns
+    // Use glob-match for more complex patterns (case-insensitive via lowercasing)
-    glob_match::glob_match(&pattern, &domain)
+    let pattern_lower = pattern.to_lowercase();
    let domain_lower = domain.to_lowercase();
    glob_match::glob_match(&pattern_lower, &domain_lower)
 }
 /// Check if a domain matches any of the given patterns.
--- a/rust/crates/rustproxy-routing/src/route_manager.rs
+++ b/rust/crates/rustproxy-routing/src/route_manager.rs
@@ -60,6 +60,16 @@ impl RouteManager {
        manager
    }
    /// Check if any route on the given port uses header matching.
    /// Used to skip expensive header HashMap construction when no route needs it.
    pub fn any_route_has_headers(&self, port: u16) -> bool {
        if let Some(indices) = self.port_index.get(&port) {
            indices.iter().any(|&idx| self.routes[idx].route_match.headers.is_some())
        } else {
            false
        }
    }
    /// Find the best matching route for the given context.
    pub fn find_route<'a>(&'a self, ctx: &MatchContext<'_>) -> Option<RouteMatchResult<'a>> {
        // Get routes for this port
--- a/rust/crates/rustproxy/src/lib.rs
+++ b/rust/crates/rustproxy/src/lib.rs
@@ -632,15 +632,13 @@ impl RustProxy {
        let new_manager = Arc::new(new_manager);
        self.route_table.store(Arc::clone(&new_manager));
-        // Update listener manager
+        // Update listener manager.
        // IMPORTANT: TLS configs must be swapped BEFORE the route manager so that
        // new routes only become visible after their certs are loaded. The reverse
        // order (routes first) creates a window where connections match new routes
        // but get the old TLS acceptor, causing cert mismatches.
        if let Some(ref mut listener) = self.listener_manager {
-            listener.update_route_manager(Arc::clone(&new_manager));
+            // 1. Update TLS configs first (so new certs are available before new routes)
            // Cancel connections on routes that were removed or disabled
            listener.invalidate_removed_routes(&active_route_ids);
            // Prune HTTP proxy caches (rate limiters, regex cache, round-robin counters)
            listener.prune_http_proxy_caches(&active_route_ids);
            // Update TLS configs
            let mut tls_configs = Self::extract_tls_configs(&routes);
            if let Some(ref cm_arc) = self.cert_manager {
                let cm = cm_arc.lock().await;
@@ -661,6 +659,13 @@ impl RustProxy {
            }
            listener.set_tls_configs(tls_configs);
            // 2. Now swap the route manager (new routes become visible with certs already loaded)
            listener.update_route_manager(Arc::clone(&new_manager));
            // Cancel connections on routes that were removed or disabled
            listener.invalidate_removed_routes(&active_route_ids);
            // Prune HTTP proxy caches (rate limiters, regex cache, round-robin counters)
            listener.prune_http_proxy_caches(&active_route_ids);
            // Add new ports
            for port in &new_ports {
                if !old_ports.contains(port) {
--- a/ts/00_commitinfo_data.ts
+++ b/ts/00_commitinfo_data.ts
@@ -3,6 +3,6 @@
 */
 export const commitinfo = {
  name: '@push.rocks/smartproxy',
-  version: '25.11.0',
+  version: '25.11.16',
  description: 'A powerful proxy package with unified route-based configuration for high traffic management. Features include SSL/TLS support, flexible routing patterns, WebSocket handling, advanced security options, and automatic ACME certificate management.'
 }
Author	SHA1	Message	Date
Juergen Kunz	ae0342d018	v25.11.16 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 13:58:22 +00:00
Juergen Kunz	365981d9cf	fix(repo): no changes to commit	2026-03-16 13:58:22 +00:00
Juergen Kunz	2cc0ff0030	v25.11.15 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 13:54:56 +00:00
Juergen Kunz	72935e7ee0	fix(rustproxy-http): implement vectored write support for backend streams	2026-03-16 13:54:56 +00:00
Juergen Kunz	61db285e04	v25.11.14 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 13:44:56 +00:00
Juergen Kunz	d165829022	fix(rustproxy-http): forward vectored write support in ShutdownOnDrop AsyncWrite wrapper	2026-03-16 13:44:56 +00:00
Juergen Kunz	5e6cf391ab	v25.11.13 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 13:17:02 +00:00
Juergen Kunz	2b1a21c599	fix(rustproxy-http): remove hot-path debug logging from HTTP/1 connection pool hits	2026-03-16 13:17:02 +00:00
Juergen Kunz	b8e1c9f3cf	v25.11.12 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 13:12:24 +00:00
Juergen Kunz	c65369540c	fix(rustproxy-http): remove connection pool hit logging and keep logging limited to actual failures	2026-03-16 13:12:24 +00:00
Juergen Kunz	59e108edbd	v25.11.11 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 2s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 13:01:32 +00:00
Juergen Kunz	1e2ca68fc7	fix(rustproxy-http): improve HTTP/2 proxy error logging with warning-level connection failures and debug error details	2026-03-16 13:01:32 +00:00
Juergen Kunz	4c76a9f9f3	v25.11.10 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 12:29:15 +00:00
Juergen Kunz	8e76c42cea	fix(rustproxy-http): validate pooled HTTP/2 connections asynchronously before reuse and evict stale senders	2026-03-16 12:29:15 +00:00
Juergen Kunz	b1f4181139	v25.11.9 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 09:38:55 +00:00
Juergen Kunz	a1b8d40011	fix(rustproxy-routing): reduce hot-path allocations in routing, metrics, and proxy protocol handling	2026-03-16 09:38:55 +00:00
Juergen Kunz	246b44913e	v25.11.8 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 08:58:11 +00:00
Juergen Kunz	b3d4949225	fix(rustproxy-http): prevent premature idle timeouts during streamed HTTP responses and ensure TLS close_notify is sent on dropped connections	2026-03-16 08:58:11 +00:00
Juergen Kunz	0475e6b442	v25.11.7 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 0s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 03:01:16 +00:00
Juergen Kunz	8cdb95a853	fix(rustproxy): prevent TLS route reload certificate mismatches and tighten passthrough connection handling	2026-03-16 03:01:16 +00:00
Juergen Kunz	8cefe9d66a	v25.11.6 Some checks failed Default (tags) / security (push) Failing after 0s Details Default (tags) / test (push) Failing after 0s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 02:05:47 +00:00
Juergen Kunz	d5e08c83fc	fix(rustproxy-http,rustproxy-passthrough): improve upstream connection cleanup and graceful tunnel shutdown	2026-03-16 02:05:47 +00:00
Juergen Kunz	1247f48856	v25.11.5 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-16 00:03:10 +00:00
Juergen Kunz	e3bae4c399	fix(repo): no changes to commit	2026-03-16 00:03:10 +00:00
Juergen Kunz	0930f7e10c	v25.11.4 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-15 21:44:32 +00:00
Juergen Kunz	aa9e6dfd94	fix(rustproxy-http): report streamed HTTP and WebSocket bytes per chunk for real-time throughput metrics	2026-03-15 21:44:32 +00:00
Juergen Kunz	211d5cf835	v25.11.3 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-15 17:00:33 +00:00
Juergen Kunz	2ce1899337	fix(repo): no changes to commit	2026-03-15 17:00:33 +00:00
Juergen Kunz	2e2ffc4485	v25.11.2 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-15 16:58:41 +00:00
Juergen Kunz	da26816af5	fix(rustproxy-http): avoid reusing HTTP/1 senders during streaming responses and relax HTTP/2 keep-alive timeouts	2026-03-15 16:58:41 +00:00
Juergen Kunz	d598bffec3	v25.11.1 Some checks failed Default (tags) / security (push) Failing after 1s Details Default (tags) / test (push) Failing after 1s Details Default (tags) / release (push) Has been skipped Details Default (tags) / metadata (push) Has been skipped Details	2026-03-15 16:24:41 +00:00
Juergen Kunz	a9dbccfaff	fix(rustproxy-http): keep connection idle tracking alive during streaming and tune HTTP/2 connection lifetimes	2026-03-15 16:24:41 +00:00