v27.5.0

changelog.md

@@ -1,5 +1,32 @@
 # Changelog
 
+## 2026-04-06 - 27.5.0 - feat(security)
+add domain-scoped IP allow list support across HTTP and passthrough filtering
+
+- extend route security types to accept IP allow entries scoped to specific domains
+- apply domain-aware IP checks using Host headers for HTTP and SNI context for QUIC and passthrough connections
+- preserve compatibility for existing plain allow list entries and add validation and tests for scoped matching
+
+## 2026-04-04 - 27.4.0 - feat(rustproxy)
+add HTTP/3 proxy service wiring for QUIC listeners
+
+- registers H3ProxyService with the UDP listener manager so QUIC connections can serve HTTP/3
+- keeps proxy IP configuration intact while enabling HTTP/3 handling during listener setup
+
+## 2026-04-04 - 27.3.1 - fix(metrics)
+correct frontend and backend protocol connection tracking across h1, h2, h3, and websocket traffic
+
+- move frontend protocol accounting from per-request to connection lifetime tracking for HTTP/1, HTTP/2, and HTTP/3
+- add backend protocol guards to connection drivers so active protocol metrics reflect live upstream connections
+- prevent protocol counter underflow by using atomic saturating decrements in the metrics collector
+- read backend protocol distribution directly from cached aggregate counters in the Rust metrics adapter
+
+## 2026-04-04 - 27.3.0 - feat(test)
+add end-to-end WebSocket proxy test coverage
+
+- add comprehensive WebSocket e2e tests for upgrade handling, bidirectional messaging, header forwarding, close propagation, and large payloads
+- add ws and @types/ws as development dependencies to support the new test suite
+
 ## 2026-04-04 - 27.2.0 - feat(metrics)
 add frontend and backend protocol distribution metrics
 

deno.lock

@@ -12,9 +12,11 @@
     "npm:@push.rocks/smartserve@^2.0.3": "2.0.3",
     "npm:@tsclass/tsclass@^9.5.0": "9.5.0",
     "npm:@types/node@^25.5.0": "25.5.0",
+    "npm:@types/ws@^8.18.1": "8.18.1",
     "npm:minimatch@^10.2.4": "10.2.4",
     "npm:typescript@^6.0.2": "6.0.2",
-    "npm:why-is-node-running@^3.2.2": "3.2.2"
+    "npm:why-is-node-running@^3.2.2": "3.2.2",
+    "npm:ws@^8.20.0": "8.20.0"
   },
   "npm": {
     "@api.global/typedrequest-interfaces@2.0.2": {
@@ -6743,9 +6745,11 @@
         "npm:@push.rocks/smartserve@^2.0.3",
         "npm:@tsclass/tsclass@^9.5.0",
         "npm:@types/node@^25.5.0",
+        "npm:@types/ws@^8.18.1",
         "npm:minimatch@^10.2.4",
         "npm:typescript@^6.0.2",
-        "npm:why-is-node-running@^3.2.2"
+        "npm:why-is-node-running@^3.2.2",
+        "npm:ws@^8.20.0"
       ]
     }
   }

package.json

@@ -1,6 +1,6 @@
 {
   "name": "@push.rocks/smartproxy",
-  "version": "27.2.0",
+  "version": "27.5.0",
   "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",
@@ -22,8 +22,10 @@
     "@git.zone/tstest": "^3.6.0",
     "@push.rocks/smartserve": "^2.0.3",
     "@types/node": "^25.5.0",
+    "@types/ws": "^8.18.1",
     "typescript": "^6.0.2",
-    "why-is-node-running": "^3.2.2"
+    "why-is-node-running": "^3.2.2",
+    "ws": "^8.20.0"
   },
   "dependencies": {
     "@push.rocks/smartcrypto": "^2.0.4",

pnpm-lock.yaml

@@ -45,12 +45,18 @@ importers:
       '@types/node':
         specifier: ^25.5.0
         version: 25.5.0
+      '@types/ws':
+        specifier: ^8.18.1
+        version: 8.18.1
       typescript:
         specifier: ^6.0.2
         version: 6.0.2
       why-is-node-running:
         specifier: ^3.2.2
         version: 3.2.2
+      ws:
+        specifier: ^8.20.0
+        version: 8.20.0
 
 packages:
 
@@ -3304,18 +3310,6 @@ packages:
   wrappy@1.0.2:
     resolution: {integrity: sha1-tSQ9jz7BqjXxNkYFvA0QNuMKtp8=}
 
-  ws@8.19.0:
-    resolution: {integrity: sha512-blAT2mjOEIi0ZzruJfIhb3nps74PRWTCz1IjglWEEpQl5XS/UNama6u2/rjFkDDouqr4L67ry+1aGIALViWjDg==}
-    engines: {node: '>=10.0.0'}
-    peerDependencies:
-      bufferutil: ^4.0.1
-      utf-8-validate: '>=5.0.2'
-    peerDependenciesMeta:
-      bufferutil:
-        optional: true
-      utf-8-validate:
-        optional: true
-
   ws@8.20.0:
     resolution: {integrity: sha512-sAt8BhgNbzCtgGbt2OxmpuryO63ZoDk/sqaB/znQm94T4fCEsy/yV+7CdC1kJhOU9lboAEU7R3kquuycDoibVA==}
     engines: {node: '>=10.0.0'}
@@ -5296,7 +5290,7 @@ snapshots:
       '@push.rocks/smartenv': 6.0.0
       '@push.rocks/smartlog': 3.2.1
       '@push.rocks/smartpath': 6.0.0
-      ws: 8.19.0
+      ws: 8.20.0
     transitivePeerDependencies:
       - bufferutil
       - utf-8-validate
@@ -8033,8 +8027,6 @@ snapshots:
 
   wrappy@1.0.2: {}
 
-  ws@8.19.0: {}
-
   ws@8.20.0: {}
 
   xml-parse-from-string@1.0.1: {}

rust/crates/rustproxy-config/src/security_types.rs

@@ -103,14 +103,30 @@ pub struct JwtAuthConfig {
     pub exclude_paths: Option<Vec<String>>,
 }
 
+/// An entry in the IP allow list: either a plain IP/CIDR string
+/// or a domain-scoped entry that restricts the IP to specific domains.
+#[derive(Debug, Clone, Serialize, Deserialize)]
+#[serde(untagged)]
+pub enum IpAllowEntry {
+    /// Plain IP/CIDR — allowed for all domains on this route
+    Plain(String),
+    /// Domain-scoped — allowed only when the requested domain matches
+    DomainScoped {
+        ip: String,
+        domains: Vec<String>,
+    },
+}
+
 /// Security options for routes.
 /// Matches TypeScript: `IRouteSecurity`
 #[derive(Debug, Clone, Serialize, Deserialize)]
 #[serde(rename_all = "camelCase")]
 pub struct RouteSecurity {
-    /// IP addresses that are allowed to connect
+    /// IP addresses that are allowed to connect.
+    /// Entries can be plain strings (full route access) or objects with
+    /// `{ ip, domains }` to scope access to specific domains.
     #[serde(skip_serializing_if = "Option::is_none")]
-    pub ip_allow_list: Option<Vec<String>>,
+    pub ip_allow_list: Option<Vec<IpAllowEntry>>,
     /// IP addresses that are blocked from connecting
     #[serde(skip_serializing_if = "Option::is_none")]
     pub ip_block_list: Option<Vec<String>>,

rust/crates/rustproxy-http/src/h3_service.rs

@@ -18,7 +18,7 @@ use tracing::{debug, warn};
 use rustproxy_config::RouteConfig;
 use tokio_util::sync::CancellationToken;
 
-use crate::proxy_service::{ConnActivity, HttpProxyService};
+use crate::proxy_service::{ConnActivity, HttpProxyService, ProtocolGuard};
 
 /// HTTP/3 proxy service.
 ///
@@ -48,6 +48,9 @@ impl H3ProxyService {
         let remote_addr = real_client_addr.unwrap_or_else(|| connection.remote_address());
         debug!("HTTP/3 connection from {} on port {}", remote_addr, port);
 
+        // Track frontend H3 connection for the QUIC connection's lifetime.
+        let _frontend_h3_guard = ProtocolGuard::frontend(Arc::clone(self.http_proxy.metrics()), "h3");
+
         let mut h3_conn: h3::server::Connection<h3_quinn::Connection, Bytes> =
             h3::server::builder()
                 .send_grease(false)

rust/crates/rustproxy-http/src/proxy_service.rs

@@ -140,6 +140,38 @@ impl Drop for ProtocolGuard {
     }
 }
 
+/// Connection-level frontend protocol tracker.
+///
+/// In `handle_io`, the HTTP protocol (h1 vs h2) is unknown until the first request
+/// arrives. This struct uses `OnceLock` so the first request detects the protocol
+/// and opens the counter; subsequent requests on the same connection are no-ops.
+/// On Drop (when the connection ends), the counter is closed.
+pub(crate) struct FrontendProtocolTracker {
+    metrics: Arc<MetricsCollector>,
+    proto: std::sync::OnceLock<&'static str>,
+}
+
+impl FrontendProtocolTracker {
+    fn new(metrics: Arc<MetricsCollector>) -> Self {
+        Self { metrics, proto: std::sync::OnceLock::new() }
+    }
+
+    /// Set the frontend protocol. Only the first call opens the counter.
+    fn set(&self, proto: &'static str) {
+        if self.proto.set(proto).is_ok() {
+            self.metrics.frontend_protocol_opened(proto);
+        }
+    }
+}
+
+impl Drop for FrontendProtocolTracker {
+    fn drop(&mut self) {
+        if let Some(proto) = self.proto.get() {
+            self.metrics.frontend_protocol_closed(proto);
+        }
+    }
+}
+
 /// Backend stream that can be either plain TCP or TLS-wrapped.
 /// Used for `terminate-and-reencrypt` mode where the backend requires TLS.
 pub(crate) enum BackendStream {
@@ -365,6 +397,11 @@ impl HttpProxyService {
         self.protocol_cache.snapshot()
     }
 
+    /// Access the shared metrics collector (used by H3ProxyService for protocol tracking).
+    pub fn metrics(&self) -> &Arc<MetricsCollector> {
+        &self.metrics
+    }
+
     /// Handle an incoming HTTP connection on a plain TCP stream.
     pub async fn handle_connection(
         self: Arc<Self>,
@@ -409,10 +446,24 @@ impl HttpProxyService {
         let active_requests = Arc::new(AtomicU64::new(0));
         let start = std::time::Instant::now();
 
+        // Connection-level frontend protocol tracker: the first request detects
+        // h1 vs h2 from req.version() and opens the counter. On connection close
+        // (when handle_io returns), Drop closes the counter.
+        let frontend_tracker = Arc::new(FrontendProtocolTracker::new(Arc::clone(&self.metrics)));
+        let ft_inner = Arc::clone(&frontend_tracker);
+
         let la_inner = Arc::clone(&last_activity);
         let ar_inner = Arc::clone(&active_requests);
         let cancel_inner = cancel.clone();
         let service = hyper::service::service_fn(move |req: Request<Incoming>| {
+            // Detect frontend protocol from the first request on this connection.
+            // OnceLock ensures only the first call opens the counter.
+            let proto: &'static str = match req.version() {
+                hyper::Version::HTTP_2 => "h2",
+                _ => "h1",
+            };
+            ft_inner.set(proto);
+
             // Mark request start — RAII guard decrements on drop (panic-safe)
             la_inner.store(start.elapsed().as_millis() as u64, Ordering::Relaxed);
             let req_guard = ActiveRequestGuard::new(Arc::clone(&ar_inner));
@@ -655,17 +706,8 @@ impl HttpProxyService {
                 .map(|p| p.as_str().eq_ignore_ascii_case("websocket"))
                 .unwrap_or(false);
 
-        // Track frontend protocol for distribution metrics (h1/h2/h3/ws)
-        let frontend_proto: &'static str = if is_h1_websocket || is_h2_websocket {
-            "ws"
-        } else {
-            match req.version() {
-                hyper::Version::HTTP_2 => "h2",
-                hyper::Version::HTTP_3 => "h3",
-                _ => "h1", // HTTP/1.0, HTTP/1.1
-            }
-        };
-        let _frontend_proto_guard = ProtocolGuard::frontend(Arc::clone(&self.metrics), frontend_proto);
+        // Frontend protocol is tracked at the connection level (handle_io / h3_service).
+        // WebSocket tunnels additionally get their own "ws" guards in the spawned task.
 
         if is_h1_websocket || is_h2_websocket {
             let result = self.handle_websocket_upgrade(
@@ -1275,13 +1317,18 @@ impl HttpProxyService {
             }
         };
 
-        tokio::spawn(async move {
-            match tokio::time::timeout(std::time::Duration::from_secs(300), conn).await {
-                Ok(Err(e)) => debug!("Upstream connection error: {}", e),
-                Err(_) => debug!("H1 connection driver timed out after 300s"),
-                _ => {}
-            }
-        });
+        {
+            let driver_metrics = Arc::clone(&self.metrics);
+            tokio::spawn(async move {
+                // Track backend H1 connection for the driver's lifetime
+                let _proto_guard = ProtocolGuard::backend(driver_metrics, "h1");
+                match tokio::time::timeout(std::time::Duration::from_secs(300), conn).await {
+                    Ok(Err(e)) => debug!("Upstream connection error: {}", e),
+                    Err(_) => debug!("H1 connection driver timed out after 300s"),
+                    _ => {}
+                }
+            });
+        }
 
         self.forward_h1_with_sender(sender, parts, body, upstream_headers, upstream_path, route, route_id, source_ip, domain, conn_activity, backend_key).await
     }
@@ -1402,7 +1449,10 @@ impl HttpProxyService {
             let pool = Arc::clone(&self.connection_pool);
             let key = pool_key.clone();
             let gen = Arc::clone(&gen_holder);
+            let driver_metrics = Arc::clone(&self.metrics);
             tokio::spawn(async move {
+                // Track backend H2 connection for the driver's lifetime
+                let _proto_guard = ProtocolGuard::backend(driver_metrics, "h2");
                 if let Err(e) = conn.await {
                     warn!("HTTP/2 upstream connection error: {} ({:?})", e, e);
                 }
@@ -1701,7 +1751,10 @@ impl HttpProxyService {
                     let pool = Arc::clone(&self.connection_pool);
                     let key = pool_key.clone();
                     let gen = Arc::clone(&gen_holder);
+                    let driver_metrics = Arc::clone(&self.metrics);
                     tokio::spawn(async move {
+                        // Track backend H2 connection for the driver's lifetime
+                        let _proto_guard = ProtocolGuard::backend(driver_metrics, "h2");
                         if let Err(e) = conn.await {
                             warn!("HTTP/2 upstream connection error: {} ({:?})", e, e);
                         }
@@ -1871,13 +1924,18 @@ impl HttpProxyService {
             }
         };
 
-        tokio::spawn(async move {
-            match tokio::time::timeout(std::time::Duration::from_secs(300), conn).await {
-                Ok(Err(e)) => debug!("H1 fallback: upstream connection error: {}", e),
-                Err(_) => debug!("H1 fallback: connection driver timed out after 300s"),
-                _ => {}
-            }
-        });
+        {
+            let driver_metrics = Arc::clone(&self.metrics);
+            tokio::spawn(async move {
+                // Track backend H1 connection for the driver's lifetime
+                let _proto_guard = ProtocolGuard::backend(driver_metrics, "h1");
+                match tokio::time::timeout(std::time::Duration::from_secs(300), conn).await {
+                    Ok(Err(e)) => debug!("H1 fallback: upstream connection error: {}", e),
+                    Err(_) => debug!("H1 fallback: connection driver timed out after 300s"),
+                    _ => {}
+                }
+            });
+        }
 
         let mut upstream_req = Request::builder()
             .method(method)
@@ -2425,7 +2483,10 @@ impl HttpProxyService {
                 selector: upstream_selector,
                 key: upstream_key_owned.clone(),
             };
-            // Track backend WebSocket connection — guard decrements on tunnel close
+            // Track WebSocket tunnel as "ws" on both frontend and backend.
+            // Frontend h1/h2 is tracked at the connection level (handle_io); this
+            // additional "ws" guard captures the tunnel's lifetime independently.
+            let _frontend_ws_guard = ProtocolGuard::frontend(Arc::clone(&metrics), "ws");
             let _backend_ws_guard = ProtocolGuard::backend(Arc::clone(&metrics), "ws");
 
             let client_upgraded = match on_client_upgrade.await {
@@ -2889,7 +2950,10 @@ impl HttpProxyService {
                 let driver_pool = Arc::clone(&self.connection_pool);
                 let driver_pool_key = pool_key.clone();
                 let driver_gen = Arc::clone(&gen_holder);
+                let driver_metrics = Arc::clone(&self.metrics);
                 tokio::spawn(async move {
+                    // Track backend H3 connection for the driver's lifetime
+                    let _proto_guard = ProtocolGuard::backend(driver_metrics, "h3");
                     let close_err = std::future::poll_fn(|cx| driver.poll_close(cx)).await;
                     debug!("H3 connection driver closed: {:?}", close_err);
                     let g = driver_gen.load(std::sync::atomic::Ordering::Relaxed);

rust/crates/rustproxy-http/src/request_filter.rs

@@ -35,13 +35,17 @@ impl RequestFilter {
         let client_ip = peer_addr.ip();
         let request_path = req.uri().path();
 
-        // IP filter
+        // IP filter (domain-aware: extract Host header for domain-scoped entries)
         if security.ip_allow_list.is_some() || security.ip_block_list.is_some() {
             let allow = security.ip_allow_list.as_deref().unwrap_or(&[]);
             let block = security.ip_block_list.as_deref().unwrap_or(&[]);
             let filter = IpFilter::new(allow, block);
             let normalized = IpFilter::normalize_ip(&client_ip);
-            if !filter.is_allowed(&normalized) {
+            let host = req.headers()
+                .get("host")
+                .and_then(|v| v.to_str().ok())
+                .map(|h| h.split(':').next().unwrap_or(h));
+            if !filter.is_allowed_for_domain(&normalized, host) {
                 return Some(error_response(StatusCode::FORBIDDEN, "Access denied"));
             }
         }
@@ -203,14 +207,15 @@ impl RequestFilter {
     }
 
     /// Check IP-based security (for use in passthrough / TCP-level connections).
+    /// `domain` is the SNI from the TLS handshake (if available) for domain-scoped filtering.
     /// Returns true if allowed, false if blocked.
-    pub fn check_ip_security(security: &RouteSecurity, client_ip: &std::net::IpAddr) -> bool {
+    pub fn check_ip_security(security: &RouteSecurity, client_ip: &std::net::IpAddr, domain: Option<&str>) -> bool {
         if security.ip_allow_list.is_some() || security.ip_block_list.is_some() {
             let allow = security.ip_allow_list.as_deref().unwrap_or(&[]);
             let block = security.ip_block_list.as_deref().unwrap_or(&[]);
             let filter = IpFilter::new(allow, block);
             let normalized = IpFilter::normalize_ip(client_ip);
-            filter.is_allowed(&normalized)
+            filter.is_allowed_for_domain(&normalized, domain)
         } else {
             true
         }

rust/crates/rustproxy-metrics/src/collector.rs

@@ -506,13 +506,14 @@ impl MetricsCollector {
         total.fetch_add(1, Ordering::Relaxed);
     }
 
-    /// Record a frontend request/connection closed with a given protocol.
+    /// Record a frontend connection closed with a given protocol.
     pub fn frontend_protocol_closed(&self, proto: &str) {
         let (active, _) = self.frontend_proto_counters(proto);
-        let val = active.load(Ordering::Relaxed);
-        if val > 0 {
-            active.fetch_sub(1, Ordering::Relaxed);
-        }
+        // Atomic saturating decrement — avoids TOCTOU race where concurrent
+        // closes could both read val=1, both subtract, wrapping to u64::MAX.
+        active.fetch_update(Ordering::Relaxed, Ordering::Relaxed, |v| {
+            if v > 0 { Some(v - 1) } else { None }
+        }).ok();
     }
 
     /// Record a backend connection opened with a given protocol.
@@ -525,10 +526,10 @@ impl MetricsCollector {
     /// Record a backend connection closed with a given protocol.
     pub fn backend_protocol_closed(&self, proto: &str) {
         let (active, _) = self.backend_proto_counters(proto);
-        let val = active.load(Ordering::Relaxed);
-        if val > 0 {
-            active.fetch_sub(1, Ordering::Relaxed);
-        }
+        // Atomic saturating decrement — see frontend_protocol_closed for rationale.
+        active.fetch_update(Ordering::Relaxed, Ordering::Relaxed, |v| {
+            if v > 0 { Some(v - 1) } else { None }
+        }).ok();
     }
 
     // ── Per-backend recording methods ──

rust/crates/rustproxy-passthrough/src/connection_registry.rs

@@ -100,7 +100,7 @@ impl ConnectionRegistry {
         let mut recycled = 0u64;
         self.connections.retain(|_, entry| {
             if entry.route_id.as_deref() == Some(route_id) {
-                if !RequestFilter::check_ip_security(new_security, &entry.source_ip) {
+                if !RequestFilter::check_ip_security(new_security, &entry.source_ip, entry.domain.as_deref()) {
                     info!(
                         "Terminating connection from {} — IP now blocked on route '{}'",
                         entry.source_ip, route_id

rust/crates/rustproxy-passthrough/src/quic_handler.rs

@@ -409,10 +409,10 @@ pub async fn quic_accept_loop(
             }
         };
 
-        // Check route-level IP security (previously missing for QUIC)
+        // Check route-level IP security for QUIC (domain from SNI context)
         if let Some(ref security) = route.security {
             if !rustproxy_http::request_filter::RequestFilter::check_ip_security(
-                security, &ip,
+                security, &ip, ctx.domain,
             ) {
                 debug!("QUIC connection from {} blocked by route security", real_addr);
                 continue;

rust/crates/rustproxy-passthrough/src/tcp_listener.rs

@@ -737,10 +737,10 @@ impl TcpListenerManager {
                             },
                         );
 
-                        // Check route-level IP security
+                        // Check route-level IP security (fast path: no SNI available)
                         if let Some(ref security) = quick_match.route.security {
                             if !rustproxy_http::request_filter::RequestFilter::check_ip_security(
-                                security, &peer_addr.ip(),
+                                security, &peer_addr.ip(), None,
                             ) {
                                 warn!("Connection from {} blocked by route security", peer_addr);
                                 return Ok(());
@@ -929,11 +929,12 @@ impl TcpListenerManager {
             },
         );
 
-        // Check route-level IP security for passthrough connections
+        // Check route-level IP security for passthrough connections (SNI available)
         if let Some(ref security) = route_match.route.security {
             if !rustproxy_http::request_filter::RequestFilter::check_ip_security(
                 security,
                 &peer_addr.ip(),
+                domain.as_deref(),
             ) {
                 warn!("Connection from {} blocked by route security", peer_addr);
                 return Ok(());

rust/crates/rustproxy-security/src/ip_filter.rs

@@ -2,12 +2,24 @@ use ipnet::IpNet;
 use std::net::IpAddr;
 use std::str::FromStr;
 
+use rustproxy_config::IpAllowEntry;
+
 /// IP filter supporting CIDR ranges, wildcards, and exact matches.
+/// Supports domain-scoped allow entries that restrict an IP to specific domains.
 pub struct IpFilter {
+    /// Plain allow entries — IP allowed for any domain on the route
     allow_list: Vec<IpPattern>,
+    /// Domain-scoped allow entries — IP allowed only for matching domains
+    domain_scoped: Vec<DomainScopedEntry>,
     block_list: Vec<IpPattern>,
 }
 
+/// A domain-scoped allow entry: IP + list of allowed domain patterns.
+struct DomainScopedEntry {
+    pattern: IpPattern,
+    domains: Vec<String>,
+}
+
 /// Represents an IP pattern for matching.
 #[derive(Debug)]
 enum IpPattern {
@@ -31,10 +43,6 @@ impl IpPattern {
         if let Ok(addr) = IpAddr::from_str(s) {
             return IpPattern::Exact(addr);
         }
-        // Try as CIDR by appending default prefix
-        if let Ok(addr) = IpAddr::from_str(s) {
-            return IpPattern::Exact(addr);
-        }
         // Fallback: treat as exact, will never match an invalid string
         IpPattern::Exact(IpAddr::from_str("0.0.0.0").unwrap())
     }
@@ -48,19 +56,56 @@ impl IpPattern {
     }
 }
 
+/// Simple domain pattern matching (exact, `*`, or `*.suffix`).
+fn domain_matches_pattern(pattern: &str, domain: &str) -> bool {
+    let p = pattern.trim();
+    let d = domain.trim();
+    if p == "*" {
+        return true;
+    }
+    if p.eq_ignore_ascii_case(d) {
+        return true;
+    }
+    if p.starts_with("*.") {
+        let suffix = &p[1..]; // e.g., ".abc.xyz"
+        d.len() > suffix.len()
+            && d[d.len() - suffix.len()..].eq_ignore_ascii_case(suffix)
+    } else {
+        false
+    }
+}
+
 impl IpFilter {
-    /// Create a new IP filter from allow and block lists.
-    pub fn new(allow_list: &[String], block_list: &[String]) -> Self {
+    /// Create a new IP filter from allow entries and a block list.
+    pub fn new(allow_entries: &[IpAllowEntry], block_list: &[String]) -> Self {
+        let mut allow_list = Vec::new();
+        let mut domain_scoped = Vec::new();
+
+        for entry in allow_entries {
+            match entry {
+                IpAllowEntry::Plain(ip) => {
+                    allow_list.push(IpPattern::parse(ip));
+                }
+                IpAllowEntry::DomainScoped { ip, domains } => {
+                    domain_scoped.push(DomainScopedEntry {
+                        pattern: IpPattern::parse(ip),
+                        domains: domains.clone(),
+                    });
+                }
+            }
+        }
+
         Self {
-            allow_list: allow_list.iter().map(|s| IpPattern::parse(s)).collect(),
+            allow_list,
+            domain_scoped,
             block_list: block_list.iter().map(|s| IpPattern::parse(s)).collect(),
         }
     }
 
-    /// Check if an IP is allowed.
-    /// If allow_list is non-empty, IP must match at least one entry.
-    /// If block_list is non-empty, IP must NOT match any entry.
-    pub fn is_allowed(&self, ip: &IpAddr) -> bool {
+    /// Check if an IP is allowed, considering domain-scoped entries.
+    /// If `domain` is Some, domain-scoped entries are evaluated against it.
+    /// If `domain` is None, only plain allow entries are considered.
+    pub fn is_allowed_for_domain(&self, ip: &IpAddr, domain: Option<&str>) -> bool {
         // Check block list first
         if !self.block_list.is_empty() {
             for pattern in &self.block_list {
@@ -70,14 +115,36 @@ impl IpFilter {
             }
         }
 
-        // If allow list is non-empty, must match at least one
-        if !self.allow_list.is_empty() {
-            return self.allow_list.iter().any(|p| p.matches(ip));
+        // If there are any allow entries (plain or domain-scoped), IP must match
+        let has_any_allow = !self.allow_list.is_empty() || !self.domain_scoped.is_empty();
+        if has_any_allow {
+            // Check plain allow list — grants access to entire route
+            if self.allow_list.iter().any(|p| p.matches(ip)) {
+                return true;
+            }
+
+            // Check domain-scoped entries — grants access only if domain matches
+            if let Some(req_domain) = domain {
+                for entry in &self.domain_scoped {
+                    if entry.pattern.matches(ip) {
+                        if entry.domains.iter().any(|d| domain_matches_pattern(d, req_domain)) {
+                            return true;
+                        }
+                    }
+                }
+            }
+
+            return false;
         }
 
         true
     }
 
+    /// Check if an IP is allowed (backwards-compat wrapper, no domain context).
+    pub fn is_allowed(&self, ip: &IpAddr) -> bool {
+        self.is_allowed_for_domain(ip, None)
+    }
+
     /// Normalize IPv4-mapped IPv6 addresses (::ffff:x.x.x.x -> x.x.x.x)
     pub fn normalize_ip(ip: &IpAddr) -> IpAddr {
         match ip {
@@ -97,19 +164,28 @@ impl IpFilter {
 mod tests {
     use super::*;
 
+    fn plain(s: &str) -> IpAllowEntry {
+        IpAllowEntry::Plain(s.to_string())
+    }
+
+    fn scoped(ip: &str, domains: &[&str]) -> IpAllowEntry {
+        IpAllowEntry::DomainScoped {
+            ip: ip.to_string(),
+            domains: domains.iter().map(|s| s.to_string()).collect(),
+        }
+    }
+
     #[test]
     fn test_empty_lists_allow_all() {
         let filter = IpFilter::new(&[], &[]);
         let ip: IpAddr = "192.168.1.1".parse().unwrap();
         assert!(filter.is_allowed(&ip));
+        assert!(filter.is_allowed_for_domain(&ip, Some("example.com")));
     }
 
     #[test]
-    fn test_allow_list_exact() {
-        let filter = IpFilter::new(
-            &["10.0.0.1".to_string()],
-            &[],
-        );
+    fn test_plain_allow_list_exact() {
+        let filter = IpFilter::new(&[plain("10.0.0.1")], &[]);
         let allowed: IpAddr = "10.0.0.1".parse().unwrap();
         let denied: IpAddr = "10.0.0.2".parse().unwrap();
         assert!(filter.is_allowed(&allowed));
@@ -117,11 +193,8 @@ mod tests {
     }
 
     #[test]
-    fn test_allow_list_cidr() {
-        let filter = IpFilter::new(
-            &["10.0.0.0/8".to_string()],
-            &[],
-        );
+    fn test_plain_allow_list_cidr() {
+        let filter = IpFilter::new(&[plain("10.0.0.0/8")], &[]);
         let allowed: IpAddr = "10.255.255.255".parse().unwrap();
         let denied: IpAddr = "192.168.1.1".parse().unwrap();
         assert!(filter.is_allowed(&allowed));
@@ -130,10 +203,7 @@ mod tests {
 
     #[test]
     fn test_block_list() {
-        let filter = IpFilter::new(
-            &[],
-            &["192.168.1.100".to_string()],
-        );
+        let filter = IpFilter::new(&[], &["192.168.1.100".to_string()]);
         let blocked: IpAddr = "192.168.1.100".parse().unwrap();
         let allowed: IpAddr = "192.168.1.101".parse().unwrap();
         assert!(!filter.is_allowed(&blocked));
@@ -143,7 +213,7 @@ mod tests {
     #[test]
     fn test_block_trumps_allow() {
         let filter = IpFilter::new(
-            &["10.0.0.0/8".to_string()],
+            &[plain("10.0.0.0/8")],
             &["10.0.0.5".to_string()],
         );
         let blocked: IpAddr = "10.0.0.5".parse().unwrap();
@@ -154,20 +224,14 @@ mod tests {
 
     #[test]
     fn test_wildcard_allow() {
-        let filter = IpFilter::new(
-            &["*".to_string()],
-            &[],
-        );
+        let filter = IpFilter::new(&[plain("*")], &[]);
         let ip: IpAddr = "1.2.3.4".parse().unwrap();
         assert!(filter.is_allowed(&ip));
     }
 
     #[test]
     fn test_wildcard_block() {
-        let filter = IpFilter::new(
-            &[],
-            &["*".to_string()],
-        );
+        let filter = IpFilter::new(&[], &["*".to_string()]);
         let ip: IpAddr = "1.2.3.4".parse().unwrap();
         assert!(!filter.is_allowed(&ip));
     }
@@ -186,4 +250,97 @@ mod tests {
         let normalized = IpFilter::normalize_ip(&ip);
         assert_eq!(normalized, ip);
     }
+
+    // Domain-scoped tests
+
+    #[test]
+    fn test_domain_scoped_allows_matching_domain() {
+        let filter = IpFilter::new(
+            &[scoped("10.8.0.2", &["outline.abc.xyz"])],
+            &[],
+        );
+        let ip: IpAddr = "10.8.0.2".parse().unwrap();
+        assert!(filter.is_allowed_for_domain(&ip, Some("outline.abc.xyz")));
+    }
+
+    #[test]
+    fn test_domain_scoped_denies_non_matching_domain() {
+        let filter = IpFilter::new(
+            &[scoped("10.8.0.2", &["outline.abc.xyz"])],
+            &[],
+        );
+        let ip: IpAddr = "10.8.0.2".parse().unwrap();
+        assert!(!filter.is_allowed_for_domain(&ip, Some("app.abc.xyz")));
+    }
+
+    #[test]
+    fn test_domain_scoped_denies_without_domain() {
+        let filter = IpFilter::new(
+            &[scoped("10.8.0.2", &["outline.abc.xyz"])],
+            &[],
+        );
+        let ip: IpAddr = "10.8.0.2".parse().unwrap();
+        // Without domain context, domain-scoped entries cannot match
+        assert!(!filter.is_allowed_for_domain(&ip, None));
+    }
+
+    #[test]
+    fn test_domain_scoped_wildcard_domain() {
+        let filter = IpFilter::new(
+            &[scoped("10.8.0.2", &["*.abc.xyz"])],
+            &[],
+        );
+        let ip: IpAddr = "10.8.0.2".parse().unwrap();
+        assert!(filter.is_allowed_for_domain(&ip, Some("outline.abc.xyz")));
+        assert!(filter.is_allowed_for_domain(&ip, Some("app.abc.xyz")));
+        assert!(!filter.is_allowed_for_domain(&ip, Some("other.com")));
+    }
+
+    #[test]
+    fn test_plain_and_domain_scoped_coexist() {
+        let filter = IpFilter::new(
+            &[
+                plain("1.2.3.4"),                          // full route access
+                scoped("10.8.0.2", &["outline.abc.xyz"]),  // scoped access
+            ],
+            &[],
+        );
+
+        let admin: IpAddr = "1.2.3.4".parse().unwrap();
+        let vpn: IpAddr = "10.8.0.2".parse().unwrap();
+        let other: IpAddr = "9.9.9.9".parse().unwrap();
+
+        // Admin IP has full access
+        assert!(filter.is_allowed_for_domain(&admin, Some("anything.abc.xyz")));
+        assert!(filter.is_allowed_for_domain(&admin, Some("outline.abc.xyz")));
+
+        // VPN IP only has scoped access
+        assert!(filter.is_allowed_for_domain(&vpn, Some("outline.abc.xyz")));
+        assert!(!filter.is_allowed_for_domain(&vpn, Some("app.abc.xyz")));
+
+        // Unknown IP denied
+        assert!(!filter.is_allowed_for_domain(&other, Some("outline.abc.xyz")));
+    }
+
+    #[test]
+    fn test_block_trumps_domain_scoped() {
+        let filter = IpFilter::new(
+            &[scoped("10.8.0.2", &["outline.abc.xyz"])],
+            &["10.8.0.2".to_string()],
+        );
+        let ip: IpAddr = "10.8.0.2".parse().unwrap();
+        assert!(!filter.is_allowed_for_domain(&ip, Some("outline.abc.xyz")));
+    }
+
+    #[test]
+    fn test_domain_matches_pattern_fn() {
+        assert!(domain_matches_pattern("example.com", "example.com"));
+        assert!(domain_matches_pattern("*.abc.xyz", "outline.abc.xyz"));
+        assert!(domain_matches_pattern("*.abc.xyz", "app.abc.xyz"));
+        assert!(!domain_matches_pattern("*.abc.xyz", "abc.xyz")); // suffix only, not exact parent
+        assert!(domain_matches_pattern("*", "anything.com"));
+        assert!(!domain_matches_pattern("outline.abc.xyz", "app.abc.xyz"));
+        // Case insensitive
+        assert!(domain_matches_pattern("*.ABC.XYZ", "outline.abc.xyz"));
+    }
 }

rust/crates/rustproxy/src/lib.rs

@@ -198,7 +198,9 @@ impl RustProxy {
                     };
 
                     if let Some(ref allow_list) = default_security.ip_allow_list {
-                        security.ip_allow_list = Some(allow_list.clone());
+                        security.ip_allow_list = Some(
+                            allow_list.iter().map(|s| rustproxy_config::IpAllowEntry::Plain(s.clone())).collect()
+                        );
                     }
                     if let Some(ref block_list) = default_security.ip_block_list {
                         security.ip_block_list = Some(block_list.clone());
@@ -845,6 +847,10 @@ impl RustProxy {
                             connection_registry,
                         );
                         udp_mgr.set_proxy_ips(conn_config.proxy_ips);
+                        // Wire up H3ProxyService so QUIC connections can serve HTTP/3
+                        let http_proxy = listener.http_proxy().clone();
+                        let h3_svc = rustproxy_http::h3_service::H3ProxyService::new(http_proxy);
+                        udp_mgr.set_h3_service(std::sync::Arc::new(h3_svc));
                         self.udp_listener_manager = Some(udp_mgr);
                     }
                 }

test/test.websocket-e2e.ts

@@ -0,0 +1,418 @@
+import { tap, expect } from '@git.zone/tstest/tapbundle';
+import { SmartProxy } from '../ts/index.js';
+import * as http from 'http';
+import WebSocket, { WebSocketServer } from 'ws';
+import { findFreePorts, assertPortsFree } from './helpers/port-allocator.js';
+
+/**
+ * Helper: create a WebSocket client that connects through the proxy.
+ * Registers the message handler BEFORE awaiting open to avoid race conditions.
+ */
+function connectWs(
+  url: string,
+  headers: Record<string, string> = {},
+  opts: WebSocket.ClientOptions = {},
+): { ws: WebSocket; messages: string[]; opened: Promise<void> } {
+  const messages: string[] = [];
+  const ws = new WebSocket(url, { headers, ...opts });
+
+  // Register message handler immediately — before open fires
+  ws.on('message', (data) => {
+    messages.push(data.toString());
+  });
+
+  const opened = new Promise<void>((resolve, reject) => {
+    const timeout = setTimeout(() => reject(new Error('WebSocket open timeout')), 5000);
+    ws.on('open', () => { clearTimeout(timeout); resolve(); });
+    ws.on('error', (err) => { clearTimeout(timeout); reject(err); });
+  });
+
+  return { ws, messages, opened };
+}
+
+/** Wait until `predicate` returns true, with a hard timeout. */
+function waitFor(predicate: () => boolean, timeoutMs = 5000): Promise<void> {
+  return new Promise((resolve, reject) => {
+    const deadline = setTimeout(() => reject(new Error('waitFor timeout')), timeoutMs);
+    const check = () => {
+      if (predicate()) { clearTimeout(deadline); resolve(); }
+      else setTimeout(check, 30);
+    };
+    check();
+  });
+}
+
+/** Graceful close helper */
+function closeWs(ws: WebSocket): Promise<void> {
+  return new Promise((resolve) => {
+    if (ws.readyState === WebSocket.CLOSED) return resolve();
+    ws.on('close', () => resolve());
+    ws.close();
+    setTimeout(resolve, 2000); // fallback
+  });
+}
+
+// ─── Test 1: Basic WebSocket upgrade and bidirectional messaging ───
+tap.test('should proxy WebSocket connections with bidirectional messaging', async () => {
+  const [PROXY_PORT, BACKEND_PORT] = await findFreePorts(2);
+
+  // Backend: echoes messages with prefix, sends greeting on connect
+  const backendServer = http.createServer();
+  const wss = new WebSocketServer({ server: backendServer });
+  const backendMessages: string[] = [];
+
+  wss.on('connection', (ws) => {
+    ws.on('message', (data) => {
+      const msg = data.toString();
+      backendMessages.push(msg);
+      ws.send(`echo: ${msg}`);
+    });
+    ws.send('hello from backend');
+  });
+
+  await new Promise<void>((resolve) => {
+    backendServer.listen(BACKEND_PORT, '127.0.0.1', () => resolve());
+  });
+
+  const proxy = new SmartProxy({
+    routes: [{
+      name: 'ws-test-route',
+      match: { ports: PROXY_PORT },
+      action: {
+        type: 'forward',
+        targets: [{ host: '127.0.0.1', port: BACKEND_PORT }],
+        websocket: { enabled: true },
+      },
+    }],
+  });
+  await proxy.start();
+
+  // Connect client — message handler registered before open
+  const { ws, messages, opened } = connectWs(
+    `ws://127.0.0.1:${PROXY_PORT}/`,
+    { Host: 'test.local' },
+  );
+  await opened;
+
+  // Wait for the backend greeting
+  await waitFor(() => messages.length >= 1);
+  expect(messages[0]).toEqual('hello from backend');
+
+  // Send 3 messages, expect 3 echoes
+  ws.send('ping 1');
+  ws.send('ping 2');
+  ws.send('ping 3');
+
+  await waitFor(() => messages.length >= 4);
+
+  expect(messages).toContain('echo: ping 1');
+  expect(messages).toContain('echo: ping 2');
+  expect(messages).toContain('echo: ping 3');
+  expect(backendMessages).toInclude('ping 1');
+  expect(backendMessages).toInclude('ping 2');
+  expect(backendMessages).toInclude('ping 3');
+
+  await closeWs(ws);
+  await proxy.stop();
+  await new Promise<void>((resolve) => backendServer.close(() => resolve()));
+  await new Promise((r) => setTimeout(r, 500));
+  await assertPortsFree([PROXY_PORT, BACKEND_PORT]);
+});
+
+// ─── Test 2: Multiple concurrent WebSocket connections ───
+tap.test('should handle multiple concurrent WebSocket connections', async () => {
+  const [PROXY_PORT, BACKEND_PORT] = await findFreePorts(2);
+
+  const backendServer = http.createServer();
+  const wss = new WebSocketServer({ server: backendServer });
+
+  let connectionCount = 0;
+  wss.on('connection', (ws) => {
+    const id = ++connectionCount;
+    ws.on('message', (data) => {
+      ws.send(`conn${id}: ${data.toString()}`);
+    });
+  });
+
+  await new Promise<void>((resolve) => {
+    backendServer.listen(BACKEND_PORT, '127.0.0.1', () => resolve());
+  });
+
+  const proxy = new SmartProxy({
+    routes: [{
+      name: 'ws-multi-route',
+      match: { ports: PROXY_PORT },
+      action: {
+        type: 'forward',
+        targets: [{ host: '127.0.0.1', port: BACKEND_PORT }],
+        websocket: { enabled: true },
+      },
+    }],
+  });
+  await proxy.start();
+
+  const NUM_CLIENTS = 5;
+  const clients: { ws: WebSocket; messages: string[] }[] = [];
+
+  for (let i = 0; i < NUM_CLIENTS; i++) {
+    const c = connectWs(
+      `ws://127.0.0.1:${PROXY_PORT}/`,
+      { Host: 'test.local' },
+    );
+    await c.opened;
+    clients.push(c);
+  }
+
+  // Each client sends a unique message
+  for (let i = 0; i < NUM_CLIENTS; i++) {
+    clients[i].ws.send(`hello from client ${i}`);
+  }
+
+  // Wait for all replies
+  await waitFor(() => clients.every((c) => c.messages.length >= 1));
+
+  for (let i = 0; i < NUM_CLIENTS; i++) {
+    expect(clients[i].messages.length).toBeGreaterThanOrEqual(1);
+    expect(clients[i].messages[0]).toInclude(`hello from client ${i}`);
+  }
+  expect(connectionCount).toEqual(NUM_CLIENTS);
+
+  for (const c of clients) await closeWs(c.ws);
+  await proxy.stop();
+  await new Promise<void>((resolve) => backendServer.close(() => resolve()));
+  await new Promise((r) => setTimeout(r, 500));
+  await assertPortsFree([PROXY_PORT, BACKEND_PORT]);
+});
+
+// ─── Test 3: WebSocket with binary data ───
+tap.test('should proxy binary WebSocket frames', async () => {
+  const [PROXY_PORT, BACKEND_PORT] = await findFreePorts(2);
+
+  const backendServer = http.createServer();
+  const wss = new WebSocketServer({ server: backendServer });
+
+  wss.on('connection', (ws) => {
+    ws.on('message', (data) => {
+      ws.send(data, { binary: true });
+    });
+  });
+
+  await new Promise<void>((resolve) => {
+    backendServer.listen(BACKEND_PORT, '127.0.0.1', () => resolve());
+  });
+
+  const proxy = new SmartProxy({
+    routes: [{
+      name: 'ws-binary-route',
+      match: { ports: PROXY_PORT },
+      action: {
+        type: 'forward',
+        targets: [{ host: '127.0.0.1', port: BACKEND_PORT }],
+        websocket: { enabled: true },
+      },
+    }],
+  });
+  await proxy.start();
+
+  const receivedBuffers: Buffer[] = [];
+  const ws = new WebSocket(`ws://127.0.0.1:${PROXY_PORT}/`, {
+    headers: { Host: 'test.local' },
+  });
+  ws.on('message', (data) => {
+    receivedBuffers.push(Buffer.from(data as ArrayBuffer));
+  });
+
+  await new Promise<void>((resolve, reject) => {
+    const timeout = setTimeout(() => reject(new Error('timeout')), 5000);
+    ws.on('open', () => { clearTimeout(timeout); resolve(); });
+    ws.on('error', (err) => { clearTimeout(timeout); reject(err); });
+  });
+
+  // Send a 256-byte buffer with known content
+  const sentBuffer = Buffer.alloc(256);
+  for (let i = 0; i < 256; i++) sentBuffer[i] = i;
+  ws.send(sentBuffer);
+
+  await waitFor(() => receivedBuffers.length >= 1);
+
+  expect(receivedBuffers[0].length).toEqual(256);
+  expect(Buffer.compare(receivedBuffers[0], sentBuffer)).toEqual(0);
+
+  await closeWs(ws);
+  await proxy.stop();
+  await new Promise<void>((resolve) => backendServer.close(() => resolve()));
+  await new Promise((r) => setTimeout(r, 500));
+  await assertPortsFree([PROXY_PORT, BACKEND_PORT]);
+});
+
+// ─── Test 4: WebSocket path and query string preserved ───
+tap.test('should preserve path and query string through proxy', async () => {
+  const [PROXY_PORT, BACKEND_PORT] = await findFreePorts(2);
+
+  const backendServer = http.createServer();
+  const wss = new WebSocketServer({ server: backendServer });
+
+  let receivedUrl = '';
+  wss.on('connection', (ws, req) => {
+    receivedUrl = req.url || '';
+    ws.send(`url: ${receivedUrl}`);
+  });
+
+  await new Promise<void>((resolve) => {
+    backendServer.listen(BACKEND_PORT, '127.0.0.1', () => resolve());
+  });
+
+  const proxy = new SmartProxy({
+    routes: [{
+      name: 'ws-path-route',
+      match: { ports: PROXY_PORT },
+      action: {
+        type: 'forward',
+        targets: [{ host: '127.0.0.1', port: BACKEND_PORT }],
+        websocket: { enabled: true },
+      },
+    }],
+  });
+  await proxy.start();
+
+  const { ws, messages, opened } = connectWs(
+    `ws://127.0.0.1:${PROXY_PORT}/chat/room1?token=abc123`,
+    { Host: 'test.local' },
+  );
+  await opened;
+
+  await waitFor(() => messages.length >= 1);
+
+  expect(receivedUrl).toEqual('/chat/room1?token=abc123');
+  expect(messages[0]).toEqual('url: /chat/room1?token=abc123');
+
+  await closeWs(ws);
+  await proxy.stop();
+  await new Promise<void>((resolve) => backendServer.close(() => resolve()));
+  await new Promise((r) => setTimeout(r, 500));
+  await assertPortsFree([PROXY_PORT, BACKEND_PORT]);
+});
+
+// ─── Test 5: Clean close propagation ───
+tap.test('should handle clean WebSocket close from client', async () => {
+  const [PROXY_PORT, BACKEND_PORT] = await findFreePorts(2);
+
+  const backendServer = http.createServer();
+  const wss = new WebSocketServer({ server: backendServer });
+
+  let backendGotClose = false;
+  let backendCloseCode = 0;
+  wss.on('connection', (ws) => {
+    ws.on('close', (code) => {
+      backendGotClose = true;
+      backendCloseCode = code;
+    });
+    ws.on('message', (data) => {
+      ws.send(data);
+    });
+  });
+
+  await new Promise<void>((resolve) => {
+    backendServer.listen(BACKEND_PORT, '127.0.0.1', () => resolve());
+  });
+
+  const proxy = new SmartProxy({
+    routes: [{
+      name: 'ws-close-route',
+      match: { ports: PROXY_PORT },
+      action: {
+        type: 'forward',
+        targets: [{ host: '127.0.0.1', port: BACKEND_PORT }],
+        websocket: { enabled: true },
+      },
+    }],
+  });
+  await proxy.start();
+
+  const { ws, messages, opened } = connectWs(
+    `ws://127.0.0.1:${PROXY_PORT}/`,
+    { Host: 'test.local' },
+  );
+  await opened;
+
+  // Confirm connection works with a round-trip
+  ws.send('test');
+  await waitFor(() => messages.length >= 1);
+
+  // Close with code 1000
+  let clientCloseCode = 0;
+  const closed = new Promise<void>((resolve) => {
+    ws.on('close', (code) => {
+      clientCloseCode = code;
+      resolve();
+    });
+    setTimeout(resolve, 3000);
+  });
+  ws.close(1000, 'done');
+  await closed;
+
+  // Wait for backend to register
+  await waitFor(() => backendGotClose, 3000);
+
+  expect(backendGotClose).toBeTrue();
+  expect(clientCloseCode).toEqual(1000);
+
+  await proxy.stop();
+  await new Promise<void>((resolve) => backendServer.close(() => resolve()));
+  await new Promise((r) => setTimeout(r, 500));
+  await assertPortsFree([PROXY_PORT, BACKEND_PORT]);
+});
+
+// ─── Test 6: Large messages ───
+tap.test('should handle large WebSocket messages', async () => {
+  const [PROXY_PORT, BACKEND_PORT] = await findFreePorts(2);
+
+  const backendServer = http.createServer();
+  const wss = new WebSocketServer({ server: backendServer, maxPayload: 5 * 1024 * 1024 });
+
+  wss.on('connection', (ws) => {
+    ws.on('message', (data) => {
+      const buf = Buffer.from(data as ArrayBuffer);
+      ws.send(`received ${buf.length} bytes`);
+    });
+  });
+
+  await new Promise<void>((resolve) => {
+    backendServer.listen(BACKEND_PORT, '127.0.0.1', () => resolve());
+  });
+
+  const proxy = new SmartProxy({
+    routes: [{
+      name: 'ws-large-route',
+      match: { ports: PROXY_PORT },
+      action: {
+        type: 'forward',
+        targets: [{ host: '127.0.0.1', port: BACKEND_PORT }],
+        websocket: { enabled: true },
+      },
+    }],
+  });
+  await proxy.start();
+
+  const { ws, messages, opened } = connectWs(
+    `ws://127.0.0.1:${PROXY_PORT}/`,
+    { Host: 'test.local' },
+    { maxPayload: 5 * 1024 * 1024 },
+  );
+  await opened;
+
+  // Send a 1MB message
+  const largePayload = Buffer.alloc(1024 * 1024, 0x42);
+  ws.send(largePayload);
+
+  await waitFor(() => messages.length >= 1);
+  expect(messages[0]).toEqual(`received ${1024 * 1024} bytes`);
+
+  await closeWs(ws);
+  await proxy.stop();
+  await new Promise<void>((resolve) => backendServer.close(() => resolve()));
+  await new Promise((r) => setTimeout(r, 500));
+  await assertPortsFree([PROXY_PORT, BACKEND_PORT]);
+});
+
+export default tap.start();

ts/00_commitinfo_data.ts

@@ -3,6 +3,6 @@
  */
 export const commitinfo = {
   name: '@push.rocks/smartproxy',
-  version: '27.2.0',
+  version: '27.5.0',
   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.'
 }

ts/proxies/smart-proxy/models/route-types.ts

@@ -141,8 +141,10 @@ export interface IRouteAuthentication {
  * Security options for routes
  */
 export interface IRouteSecurity {
-  // Access control lists
-  ipAllowList?: string[];       // IP addresses that are allowed to connect
+  // Access control lists.
+  // Entries can be plain IP/CIDR strings (full route access) or
+  // objects { ip, domains } to scope access to specific domains on this route.
+  ipAllowList?: Array<string | { ip: string; domains: string[] }>;
   ipBlockList?: string[];       // IP addresses that are blocked from connecting
   
   // Connection limits

ts/proxies/smart-proxy/rust-metrics-adapter.ts

@@ -106,27 +106,14 @@ export class RustMetricsAdapter implements IMetrics {
       };
     },
     backendProtocols: (): IProtocolDistribution => {
-      // Merge per-backend h1/h2/h3 data with aggregate ws/other counters
       const bp = this.cache?.backendProtocols;
-      let h1Active = 0, h1Total = 0;
-      let h2Active = 0, h2Total = 0;
-      let h3Active = 0, h3Total = 0;
-      if (this.cache?.backends) {
-        for (const bm of Object.values(this.cache.backends)) {
-          const m = bm as any;
-          const active = m.activeConnections ?? 0;
-          const total = m.totalConnections ?? 0;
-          switch (m.protocol) {
-            case 'h2': h2Active += active; h2Total += total; break;
-            case 'h3': h3Active += active; h3Total += total; break;
-            default: h1Active += active; h1Total += total; break;
-          }
-        }
-      }
       return {
-        h1Active, h1Total,
-        h2Active, h2Total,
-        h3Active, h3Total,
+        h1Active: bp?.h1Active ?? 0,
+        h1Total: bp?.h1Total ?? 0,
+        h2Active: bp?.h2Active ?? 0,
+        h2Total: bp?.h2Total ?? 0,
+        h3Active: bp?.h3Active ?? 0,
+        h3Total: bp?.h3Total ?? 0,
         wsActive: bp?.wsActive ?? 0,
         wsTotal: bp?.wsTotal ?? 0,
         otherActive: bp?.otherActive ?? 0,

ts/proxies/smart-proxy/utils/route-validator.ts

@@ -196,10 +196,19 @@ export class RouteValidator {
       // Validate IP allow/block lists
       if (route.security.ipAllowList) {
         const allowList = Array.isArray(route.security.ipAllowList) ? route.security.ipAllowList : [route.security.ipAllowList];
-        
-        for (const ip of allowList) {
-          if (!this.isValidIPPattern(ip)) {
-            errors.push(`Invalid IP pattern in allow list: ${ip}`);
+
+        for (const entry of allowList) {
+          if (typeof entry === 'string') {
+            if (!this.isValidIPPattern(entry)) {
+              errors.push(`Invalid IP pattern in allow list: ${entry}`);
+            }
+          } else if (entry && typeof entry === 'object') {
+            if (!this.isValidIPPattern(entry.ip)) {
+              errors.push(`Invalid IP pattern in domain-scoped allow entry: ${entry.ip}`);
+            }
+            if (!Array.isArray(entry.domains) || entry.domains.length === 0) {
+              errors.push(`Domain-scoped allow entry for ${entry.ip} must have non-empty domains array`);
+            }
           }
         }
       }