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| Author | SHA1 | Date | |
|---|---|---|---|
| 4e3c548012 | |||
| 1a2d7529db | |||
| 31514f54ae | |||
| 247653c9d0 | |||
| 07d88f6f6a | |||
| 4b64de2c67 | |||
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| 2621dea9fa | |||
| bb5b9b3d12 | |||
| d70c2d77ed |
34
changelog.md
34
changelog.md
@@ -1,5 +1,39 @@
|
||||
# Changelog
|
||||
|
||||
## 2026-03-20 - 25.17.2 - fix(rustproxy-http)
|
||||
enable TLS connections for HTTP/3 upstream requests when backend re-encryption or TLS is configured
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||||
|
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- Pass backend TLS client configuration into the HTTP/3 request handler.
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- Detect TLS-required upstream targets using route and target TLS settings before connecting.
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- Build backend request URIs with the correct http or https scheme to match the upstream connection.
|
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|
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## 2026-03-20 - 25.17.1 - fix(rustproxy-routing)
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allow QUIC UDP TLS connections without SNI to match domain-restricted routes
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||||
|
||||
- Exempts UDP transport from the no-SNI rejection logic because QUIC encrypts the TLS ClientHello and SNI is unavailable at accept time
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- Adds regression tests to confirm QUIC route matching succeeds without SNI while TCP TLS without SNI remains rejected
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||||
|
||||
## 2026-03-19 - 25.17.0 - feat(rustproxy-passthrough)
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add PROXY protocol v2 client IP handling for UDP and QUIC listeners
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- propagate trusted proxy IP configuration into UDP and QUIC listener managers
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- extract and preserve real client addresses from PROXY protocol v2 headers for HTTP/3 and QUIC stream handling
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- apply rate limiting, session limits, routing, and metrics using the resolved client IP while preserving correct proxy return-path routing
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## 2026-03-19 - 25.16.3 - fix(rustproxy)
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upgrade fallback UDP listeners to QUIC when TLS certificates become available
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|
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- Rebuild and apply QUIC TLS configuration during route and certificate updates instead of only when adding new UDP ports.
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||||
- Add logic to drain UDP sessions, stop raw fallback listeners, and start QUIC endpoints on existing ports once TLS is available.
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||||
- Retry QUIC endpoint creation during upgrade and fall back to rebinding raw UDP if the upgrade cannot complete.
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||||
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||||
## 2026-03-19 - 25.16.2 - fix(rustproxy-http)
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cache backend Alt-Svc only from original upstream responses during protocol auto-detection
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||||
|
||||
- Moves Alt-Svc discovery into streaming response construction so it reads backend headers before response filters inject client-facing Alt-Svc values
|
||||
- Stores the protocol cache key in connection activity during auto-detect mode and clears it after HTTP/3 connection failure to avoid re-caching failed H3 routes
|
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- Prevents fallback requests from reintroducing stale or self-injected Alt-Svc entries that could cause repeated H3 retry loops
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||||
|
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## 2026-03-19 - 25.16.1 - fix(http-proxy)
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avoid repeated HTTP/3 recaching after QUIC fallback and document backend protocol selection
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|
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@@ -1,6 +1,6 @@
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||||
{
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||||
"name": "@push.rocks/smartproxy",
|
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"version": "25.16.1",
|
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"version": "25.17.2",
|
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"private": false,
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"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.",
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"main": "dist_ts/index.js",
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|
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@@ -4,6 +4,7 @@
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//! and forwards them to backends using the same routing and pool infrastructure
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//! as the HTTP/1+2 proxy.
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|
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use std::net::SocketAddr;
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use std::pin::Pin;
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use std::sync::Arc;
|
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use std::task::{Context, Poll};
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@@ -35,7 +36,6 @@ pub struct H3ProxyService {
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protocol_cache: Arc<ProtocolCache>,
|
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#[allow(dead_code)]
|
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upstream_selector: UpstreamSelector,
|
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#[allow(dead_code)]
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backend_tls_config: Arc<rustls::ClientConfig>,
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connect_timeout: Duration,
|
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}
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@@ -61,13 +61,17 @@ impl H3ProxyService {
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}
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/// Handle an accepted QUIC connection as HTTP/3.
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///
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/// If `real_client_addr` is provided (from PROXY protocol), it overrides
|
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/// `connection.remote_address()` for client IP attribution.
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pub async fn handle_connection(
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&self,
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connection: quinn::Connection,
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_fallback_route: &RouteConfig,
|
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port: u16,
|
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real_client_addr: Option<SocketAddr>,
|
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) -> anyhow::Result<()> {
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let remote_addr = connection.remote_address();
|
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let remote_addr = real_client_addr.unwrap_or_else(|| connection.remote_address());
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debug!("HTTP/3 connection from {} on port {}", remote_addr, port);
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||||
|
||||
let mut h3_conn: h3::server::Connection<h3_quinn::Connection, Bytes> =
|
||||
@@ -93,12 +97,14 @@ impl H3ProxyService {
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||||
let rm = self.route_manager.load();
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||||
let pool = Arc::clone(&self.connection_pool);
|
||||
let metrics = Arc::clone(&self.metrics);
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let backend_tls = Arc::clone(&self.backend_tls_config);
|
||||
let connect_timeout = self.connect_timeout;
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||||
let client_ip = client_ip.clone();
|
||||
|
||||
tokio::spawn(async move {
|
||||
if let Err(e) = handle_h3_request(
|
||||
request, stream, port, &client_ip, &rm, &pool, &metrics, connect_timeout,
|
||||
request, stream, port, &client_ip, &rm, &pool, &metrics,
|
||||
&backend_tls, connect_timeout,
|
||||
).await {
|
||||
debug!("HTTP/3 request error from {}: {}", client_ip, e);
|
||||
}
|
||||
@@ -128,6 +134,7 @@ async fn handle_h3_request(
|
||||
route_manager: &RouteManager,
|
||||
_connection_pool: &ConnectionPool,
|
||||
metrics: &MetricsCollector,
|
||||
backend_tls_config: &Arc<rustls::ClientConfig>,
|
||||
connect_timeout: Duration,
|
||||
) -> anyhow::Result<()> {
|
||||
let method = request.method().clone();
|
||||
@@ -168,7 +175,15 @@ async fn handle_h3_request(
|
||||
let backend_port = target.port.resolve(port);
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let backend_addr = format!("{}:{}", backend_host, backend_port);
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||||
|
||||
// Connect to backend via TCP HTTP/1.1 with timeout
|
||||
// Determine if backend requires TLS (same logic as proxy_service.rs)
|
||||
let mut use_tls = target.tls.is_some();
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||||
if let Some(ref tls) = route.action.tls {
|
||||
if tls.mode == rustproxy_config::TlsMode::TerminateAndReencrypt {
|
||||
use_tls = true;
|
||||
}
|
||||
}
|
||||
|
||||
// Connect to backend via TCP with timeout
|
||||
let tcp_stream = tokio::time::timeout(
|
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connect_timeout,
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tokio::net::TcpStream::connect(&backend_addr),
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@@ -178,15 +193,27 @@ async fn handle_h3_request(
|
||||
|
||||
let _ = tcp_stream.set_nodelay(true);
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||||
|
||||
let io = hyper_util::rt::TokioIo::new(tcp_stream);
|
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let (mut sender, conn) = hyper::client::conn::http1::handshake(io).await
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.map_err(|e| anyhow::anyhow!("Backend handshake failed: {}", e))?;
|
||||
|
||||
tokio::spawn(async move {
|
||||
if let Err(e) = conn.await {
|
||||
debug!("Backend connection closed: {}", e);
|
||||
}
|
||||
});
|
||||
// Branch: wrap in TLS if backend requires it, then HTTP/1.1 handshake.
|
||||
// hyper's SendRequest<B> is NOT generic over the IO type, so both branches
|
||||
// produce the same type and can be unified.
|
||||
let mut sender = if use_tls {
|
||||
let connector = tokio_rustls::TlsConnector::from(Arc::clone(backend_tls_config));
|
||||
let server_name = rustls::pki_types::ServerName::try_from(backend_host.to_string())
|
||||
.map_err(|e| anyhow::anyhow!("Invalid backend SNI '{}': {}", backend_host, e))?;
|
||||
let tls_stream = connector.connect(server_name, tcp_stream).await
|
||||
.map_err(|e| anyhow::anyhow!("Backend TLS handshake to {} failed: {}", backend_addr, e))?;
|
||||
let io = hyper_util::rt::TokioIo::new(tls_stream);
|
||||
let (sender, conn) = hyper::client::conn::http1::handshake(io).await
|
||||
.map_err(|e| anyhow::anyhow!("Backend handshake failed: {}", e))?;
|
||||
tokio::spawn(async move { let _ = conn.await; });
|
||||
sender
|
||||
} else {
|
||||
let io = hyper_util::rt::TokioIo::new(tcp_stream);
|
||||
let (sender, conn) = hyper::client::conn::http1::handshake(io).await
|
||||
.map_err(|e| anyhow::anyhow!("Backend handshake failed: {}", e))?;
|
||||
tokio::spawn(async move { let _ = conn.await; });
|
||||
sender
|
||||
};
|
||||
|
||||
// Stream request body from H3 client to backend via an mpsc channel.
|
||||
// This avoids buffering the entire request body in memory.
|
||||
@@ -209,7 +236,7 @@ async fn handle_h3_request(
|
||||
|
||||
// Create a body that polls from the mpsc receiver
|
||||
let body = H3RequestBody { receiver: body_rx };
|
||||
let backend_req = build_backend_request(&method, &backend_addr, &path, &host, &request, body)?;
|
||||
let backend_req = build_backend_request(&method, &backend_addr, &path, &host, &request, body, use_tls)?;
|
||||
|
||||
let response = sender.send_request(backend_req).await
|
||||
.map_err(|e| anyhow::anyhow!("Backend request failed: {}", e))?;
|
||||
@@ -289,10 +316,12 @@ fn build_backend_request<B>(
|
||||
host: &str,
|
||||
original_request: &hyper::Request<()>,
|
||||
body: B,
|
||||
use_tls: bool,
|
||||
) -> anyhow::Result<hyper::Request<B>> {
|
||||
let scheme = if use_tls { "https" } else { "http" };
|
||||
let mut req = hyper::Request::builder()
|
||||
.method(method)
|
||||
.uri(format!("http://{}{}", backend_addr, path))
|
||||
.uri(format!("{}://{}{}", scheme, backend_addr, path))
|
||||
.header("host", host);
|
||||
|
||||
// Forward non-pseudo headers
|
||||
|
||||
@@ -43,6 +43,10 @@ struct ConnActivity {
|
||||
/// 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>>,
|
||||
/// Protocol cache key for Alt-Svc discovery. When set, `build_streaming_response`
|
||||
/// checks the backend's original response headers for Alt-Svc before our
|
||||
/// ResponseFilter injects its own. None when not in auto-detect mode or after H3 failure.
|
||||
alt_svc_cache_key: Option<crate::protocol_cache::ProtocolCacheKey>,
|
||||
}
|
||||
|
||||
/// Default upstream connect timeout (30 seconds).
|
||||
@@ -341,7 +345,7 @@ 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)) };
|
||||
let ca = ConnActivity { last_activity: Arc::clone(&la_inner), start, active_requests: Some(Arc::clone(&ar_inner)), alt_svc_cache_key: None };
|
||||
async move {
|
||||
let result = svc.handle_request(req, peer, port, cn, ca).await;
|
||||
// Mark request end — update activity timestamp before guard drops
|
||||
@@ -418,7 +422,7 @@ impl HttpProxyService {
|
||||
peer_addr: std::net::SocketAddr,
|
||||
port: u16,
|
||||
cancel: CancellationToken,
|
||||
conn_activity: ConnActivity,
|
||||
mut conn_activity: ConnActivity,
|
||||
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
|
||||
let host = req.headers()
|
||||
.get("host")
|
||||
@@ -703,9 +707,11 @@ impl HttpProxyService {
|
||||
ProtocolDecision::AlpnProbe => (false, true),
|
||||
};
|
||||
|
||||
// Track whether H3 connect failed — suppresses Alt-Svc re-caching to prevent
|
||||
// the loop: H3 cached → QUIC timeout → H2/H1 fallback → Alt-Svc re-caches H3 → repeat
|
||||
let mut h3_connect_failed = false;
|
||||
// Set Alt-Svc cache key on conn_activity so build_streaming_response can check
|
||||
// the backend's original Alt-Svc header before ResponseFilter injects our own.
|
||||
if is_auto_detect_mode {
|
||||
conn_activity.alt_svc_cache_key = Some(protocol_cache_key.clone());
|
||||
}
|
||||
|
||||
// --- H3 path: try QUIC connection before TCP ---
|
||||
if let ProtocolDecision::H3 { port: h3_port } = protocol_decision {
|
||||
@@ -742,7 +748,9 @@ impl HttpProxyService {
|
||||
Err(e) => {
|
||||
warn!(backend = %upstream_key, error = %e,
|
||||
"H3 backend connect failed, falling back to H2/H1");
|
||||
h3_connect_failed = true;
|
||||
// Suppress Alt-Svc caching for the fallback to prevent re-caching H3
|
||||
// from our own injected Alt-Svc header or a stale backend Alt-Svc
|
||||
conn_activity.alt_svc_cache_key = None;
|
||||
// Force ALPN probe on TCP fallback so we correctly detect H2 vs H1
|
||||
// (don't cache anything yet — let the ALPN probe decide)
|
||||
if is_auto_detect_mode && upstream.use_tls {
|
||||
@@ -948,22 +956,6 @@ impl HttpProxyService {
|
||||
self.upstream_selector.connection_ended(&upstream_key);
|
||||
self.metrics.backend_connection_closed(&upstream_key);
|
||||
|
||||
// --- Alt-Svc discovery: check if backend advertises H3 ---
|
||||
// Suppress Alt-Svc caching when we just failed an H3 attempt to prevent the loop:
|
||||
// H3 cached → QUIC timeout → fallback → Alt-Svc re-caches H3 → repeat.
|
||||
// The ALPN probe already cached H1 or H2; it will expire after 5min TTL,
|
||||
// at which point we'll re-probe and see Alt-Svc again, retrying QUIC then.
|
||||
if is_auto_detect_mode && !h3_connect_failed {
|
||||
if let Ok(ref resp) = result {
|
||||
if let Some(alt_svc) = resp.headers().get("alt-svc").and_then(|v| v.to_str().ok()) {
|
||||
if let Some(h3_port) = parse_alt_svc_h3_port(alt_svc) {
|
||||
debug!(backend = %upstream_key, h3_port, "Backend advertises H3 via Alt-Svc");
|
||||
self.protocol_cache.insert_h3(protocol_cache_key, h3_port);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
result
|
||||
}
|
||||
|
||||
@@ -1762,6 +1754,19 @@ impl HttpProxyService {
|
||||
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
|
||||
let (resp_parts, resp_body) = upstream_response.into_parts();
|
||||
|
||||
// Check for Alt-Svc in the backend's ORIGINAL response headers BEFORE
|
||||
// ResponseFilter::apply_headers runs — the filter may inject our own Alt-Svc
|
||||
// for client-facing HTTP/3 advertisement, which must not be confused with
|
||||
// backend-originated Alt-Svc.
|
||||
if let Some(ref cache_key) = conn_activity.alt_svc_cache_key {
|
||||
if let Some(alt_svc) = resp_parts.headers.get("alt-svc").and_then(|v| v.to_str().ok()) {
|
||||
if let Some(h3_port) = parse_alt_svc_h3_port(alt_svc) {
|
||||
debug!(h3_port, "Backend advertises H3 via Alt-Svc");
|
||||
self.protocol_cache.insert_h3(cache_key.clone(), h3_port);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
let mut response = Response::builder()
|
||||
.status(resp_parts.status);
|
||||
|
||||
|
||||
@@ -3,13 +3,21 @@
|
||||
//! Manages QUIC endpoints (via quinn), accepts connections, and either:
|
||||
//! - Forwards streams bidirectionally to TCP backends (QUIC termination)
|
||||
//! - Dispatches to H3ProxyService for HTTP/3 handling (Phase 5)
|
||||
//!
|
||||
//! When `proxy_ips` is configured, a UDP relay layer intercepts PROXY protocol v2
|
||||
//! headers before they reach quinn, extracting real client IPs for attribution.
|
||||
|
||||
use std::net::SocketAddr;
|
||||
use std::net::{IpAddr, SocketAddr};
|
||||
use std::sync::atomic::{AtomicU64, Ordering};
|
||||
use std::sync::Arc;
|
||||
use std::time::Instant;
|
||||
|
||||
use tokio::io::AsyncWriteExt;
|
||||
use tokio::net::UdpSocket;
|
||||
use tokio::task::JoinHandle;
|
||||
|
||||
use arc_swap::ArcSwap;
|
||||
use dashmap::DashMap;
|
||||
use quinn::{Endpoint, ServerConfig as QuinnServerConfig};
|
||||
use rustls::ServerConfig as RustlsServerConfig;
|
||||
use tokio_util::sync::CancellationToken;
|
||||
@@ -47,9 +55,274 @@ pub fn create_quic_endpoint(
|
||||
Ok(endpoint)
|
||||
}
|
||||
|
||||
// ===== PROXY protocol relay for QUIC =====
|
||||
|
||||
/// Result of creating a QUIC endpoint with a PROXY protocol relay layer.
|
||||
pub struct QuicProxyRelay {
|
||||
/// The quinn endpoint (bound to 127.0.0.1:ephemeral).
|
||||
pub endpoint: Endpoint,
|
||||
/// The relay recv loop task handle.
|
||||
pub relay_task: JoinHandle<()>,
|
||||
/// Maps relay socket local addr → real client SocketAddr (from PROXY v2).
|
||||
/// Consulted by `quic_accept_loop` to resolve real client IPs.
|
||||
pub real_client_map: Arc<DashMap<SocketAddr, SocketAddr>>,
|
||||
}
|
||||
|
||||
/// A single relay session for forwarding datagrams between an external source
|
||||
/// and the internal quinn endpoint.
|
||||
struct RelaySession {
|
||||
socket: Arc<UdpSocket>,
|
||||
last_activity: AtomicU64,
|
||||
return_task: JoinHandle<()>,
|
||||
cancel: CancellationToken,
|
||||
}
|
||||
|
||||
/// Create a QUIC endpoint with a PROXY protocol v2 relay layer.
|
||||
///
|
||||
/// Instead of giving the external socket to quinn, we:
|
||||
/// 1. Bind a raw UDP socket on 0.0.0.0:port (external)
|
||||
/// 2. Bind quinn on 127.0.0.1:0 (internal, ephemeral)
|
||||
/// 3. Run a relay loop that filters PROXY v2 headers and forwards datagrams
|
||||
///
|
||||
/// Only used when `proxy_ips` is non-empty.
|
||||
pub fn create_quic_endpoint_with_proxy_relay(
|
||||
port: u16,
|
||||
tls_config: Arc<RustlsServerConfig>,
|
||||
proxy_ips: Arc<Vec<IpAddr>>,
|
||||
cancel: CancellationToken,
|
||||
) -> anyhow::Result<QuicProxyRelay> {
|
||||
// Bind external socket on the real port
|
||||
let external_socket = std::net::UdpSocket::bind(SocketAddr::from(([0, 0, 0, 0], port)))?;
|
||||
external_socket.set_nonblocking(true)?;
|
||||
let external_socket = Arc::new(
|
||||
UdpSocket::from_std(external_socket)
|
||||
.map_err(|e| anyhow::anyhow!("Failed to wrap external socket: {}", e))?,
|
||||
);
|
||||
|
||||
// Bind quinn on localhost ephemeral port
|
||||
let internal_socket = std::net::UdpSocket::bind("127.0.0.1:0")?;
|
||||
let quinn_internal_addr = internal_socket.local_addr()?;
|
||||
|
||||
let quic_crypto = quinn::crypto::rustls::QuicServerConfig::try_from(tls_config)
|
||||
.map_err(|e| anyhow::anyhow!("Failed to create QUIC crypto config: {}", e))?;
|
||||
let server_config = QuinnServerConfig::with_crypto(Arc::new(quic_crypto));
|
||||
|
||||
let endpoint = Endpoint::new(
|
||||
quinn::EndpointConfig::default(),
|
||||
Some(server_config),
|
||||
internal_socket,
|
||||
quinn::default_runtime()
|
||||
.ok_or_else(|| anyhow::anyhow!("No async runtime for quinn"))?,
|
||||
)?;
|
||||
|
||||
let real_client_map = Arc::new(DashMap::new());
|
||||
|
||||
let relay_task = tokio::spawn(quic_proxy_relay_loop(
|
||||
external_socket,
|
||||
quinn_internal_addr,
|
||||
proxy_ips,
|
||||
Arc::clone(&real_client_map),
|
||||
cancel,
|
||||
));
|
||||
|
||||
info!("QUIC endpoint with PROXY relay on port {} (quinn internal: {})", port, quinn_internal_addr);
|
||||
Ok(QuicProxyRelay { endpoint, relay_task, real_client_map })
|
||||
}
|
||||
|
||||
/// Main relay loop: reads datagrams from the external socket, filters PROXY v2
|
||||
/// headers from trusted proxy IPs, and forwards everything else to quinn via
|
||||
/// per-session relay sockets.
|
||||
async fn quic_proxy_relay_loop(
|
||||
external_socket: Arc<UdpSocket>,
|
||||
quinn_internal_addr: SocketAddr,
|
||||
proxy_ips: Arc<Vec<IpAddr>>,
|
||||
real_client_map: Arc<DashMap<SocketAddr, SocketAddr>>,
|
||||
cancel: CancellationToken,
|
||||
) {
|
||||
// Maps external source addr → real client addr (from PROXY v2 headers)
|
||||
let proxy_addr_map: DashMap<SocketAddr, SocketAddr> = DashMap::new();
|
||||
// Maps external source addr → relay session
|
||||
let relay_sessions: DashMap<SocketAddr, Arc<RelaySession>> = DashMap::new();
|
||||
let epoch = Instant::now();
|
||||
let mut buf = vec![0u8; 65535];
|
||||
|
||||
// Inline cleanup: periodically scan relay_sessions for stale entries
|
||||
let mut last_cleanup = Instant::now();
|
||||
let cleanup_interval = std::time::Duration::from_secs(30);
|
||||
let session_timeout_ms: u64 = 120_000;
|
||||
|
||||
loop {
|
||||
let (len, src_addr) = tokio::select! {
|
||||
_ = cancel.cancelled() => {
|
||||
debug!("QUIC proxy relay loop cancelled");
|
||||
break;
|
||||
}
|
||||
result = external_socket.recv_from(&mut buf) => {
|
||||
match result {
|
||||
Ok(r) => r,
|
||||
Err(e) => {
|
||||
warn!("QUIC proxy relay recv error: {}", e);
|
||||
continue;
|
||||
}
|
||||
}
|
||||
}
|
||||
};
|
||||
|
||||
let datagram = &buf[..len];
|
||||
|
||||
// PROXY v2 handling: only on first datagram from a trusted proxy IP
|
||||
// (before a relay session exists for this source)
|
||||
if proxy_ips.contains(&src_addr.ip()) && relay_sessions.get(&src_addr).is_none() {
|
||||
if crate::proxy_protocol::is_proxy_protocol_v2(datagram) {
|
||||
match crate::proxy_protocol::parse_v2(datagram) {
|
||||
Ok((header, _consumed)) => {
|
||||
debug!("QUIC PROXY v2 from {}: real client {}", src_addr, header.source_addr);
|
||||
proxy_addr_map.insert(src_addr, header.source_addr);
|
||||
continue; // consume the PROXY v2 datagram
|
||||
}
|
||||
Err(e) => {
|
||||
debug!("QUIC proxy relay: failed to parse PROXY v2 from {}: {}", src_addr, e);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// Determine real client address
|
||||
let real_client = proxy_addr_map.get(&src_addr)
|
||||
.map(|r| *r)
|
||||
.unwrap_or(src_addr);
|
||||
|
||||
// Get or create relay session for this external source
|
||||
let session = match relay_sessions.get(&src_addr) {
|
||||
Some(s) => {
|
||||
s.last_activity.store(epoch.elapsed().as_millis() as u64, Ordering::Relaxed);
|
||||
Arc::clone(s.value())
|
||||
}
|
||||
None => {
|
||||
// Create new relay socket connected to quinn's internal address
|
||||
let relay_socket = match UdpSocket::bind("127.0.0.1:0").await {
|
||||
Ok(s) => s,
|
||||
Err(e) => {
|
||||
warn!("QUIC relay: failed to bind relay socket: {}", e);
|
||||
continue;
|
||||
}
|
||||
};
|
||||
if let Err(e) = relay_socket.connect(quinn_internal_addr).await {
|
||||
warn!("QUIC relay: failed to connect relay socket to {}: {}", quinn_internal_addr, e);
|
||||
continue;
|
||||
}
|
||||
let relay_local_addr = match relay_socket.local_addr() {
|
||||
Ok(a) => a,
|
||||
Err(e) => {
|
||||
warn!("QUIC relay: failed to get relay socket local addr: {}", e);
|
||||
continue;
|
||||
}
|
||||
};
|
||||
let relay_socket = Arc::new(relay_socket);
|
||||
|
||||
// Store the real client mapping for the QUIC accept loop
|
||||
real_client_map.insert(relay_local_addr, real_client);
|
||||
|
||||
// Spawn return-path relay: quinn -> external socket -> original source
|
||||
let session_cancel = cancel.child_token();
|
||||
let return_task = tokio::spawn(relay_return_path(
|
||||
Arc::clone(&relay_socket),
|
||||
Arc::clone(&external_socket),
|
||||
src_addr,
|
||||
session_cancel.child_token(),
|
||||
));
|
||||
|
||||
let session = Arc::new(RelaySession {
|
||||
socket: relay_socket,
|
||||
last_activity: AtomicU64::new(epoch.elapsed().as_millis() as u64),
|
||||
return_task,
|
||||
cancel: session_cancel,
|
||||
});
|
||||
|
||||
relay_sessions.insert(src_addr, Arc::clone(&session));
|
||||
debug!("QUIC relay: new session for {} (relay {}), real client {}",
|
||||
src_addr, relay_local_addr, real_client);
|
||||
|
||||
session
|
||||
}
|
||||
};
|
||||
|
||||
// Forward datagram to quinn via the relay socket
|
||||
if let Err(e) = session.socket.send(datagram).await {
|
||||
debug!("QUIC relay: forward error to quinn for {}: {}", src_addr, e);
|
||||
}
|
||||
|
||||
// Periodic cleanup of stale relay sessions
|
||||
if last_cleanup.elapsed() >= cleanup_interval {
|
||||
last_cleanup = Instant::now();
|
||||
let now_ms = epoch.elapsed().as_millis() as u64;
|
||||
let stale_keys: Vec<SocketAddr> = relay_sessions.iter()
|
||||
.filter(|entry| {
|
||||
let age = now_ms.saturating_sub(entry.value().last_activity.load(Ordering::Relaxed));
|
||||
age > session_timeout_ms
|
||||
})
|
||||
.map(|entry| *entry.key())
|
||||
.collect();
|
||||
|
||||
for key in stale_keys {
|
||||
if let Some((_, session)) = relay_sessions.remove(&key) {
|
||||
session.cancel.cancel();
|
||||
session.return_task.abort();
|
||||
// Clean up real_client_map entry
|
||||
if let Ok(addr) = session.socket.local_addr() {
|
||||
real_client_map.remove(&addr);
|
||||
}
|
||||
proxy_addr_map.remove(&key);
|
||||
debug!("QUIC relay: cleaned up stale session for {}", key);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// Shutdown: cancel all relay sessions
|
||||
for entry in relay_sessions.iter() {
|
||||
entry.value().cancel.cancel();
|
||||
entry.value().return_task.abort();
|
||||
}
|
||||
}
|
||||
|
||||
/// Return-path relay: receives datagrams from quinn (via the relay socket)
|
||||
/// and forwards them back to the external client through the external socket.
|
||||
async fn relay_return_path(
|
||||
relay_socket: Arc<UdpSocket>,
|
||||
external_socket: Arc<UdpSocket>,
|
||||
external_src_addr: SocketAddr,
|
||||
cancel: CancellationToken,
|
||||
) {
|
||||
let mut buf = vec![0u8; 65535];
|
||||
loop {
|
||||
let len = tokio::select! {
|
||||
_ = cancel.cancelled() => break,
|
||||
result = relay_socket.recv(&mut buf) => {
|
||||
match result {
|
||||
Ok(len) => len,
|
||||
Err(e) => {
|
||||
debug!("QUIC relay return recv error for {}: {}", external_src_addr, e);
|
||||
break;
|
||||
}
|
||||
}
|
||||
}
|
||||
};
|
||||
|
||||
if let Err(e) = external_socket.send_to(&buf[..len], external_src_addr).await {
|
||||
debug!("QUIC relay return send error to {}: {}", external_src_addr, e);
|
||||
break;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// ===== QUIC accept loop =====
|
||||
|
||||
/// Run the QUIC accept loop for a single endpoint.
|
||||
///
|
||||
/// Accepts incoming QUIC connections and spawns a task per connection.
|
||||
/// When `real_client_map` is provided, it is consulted to resolve real client
|
||||
/// IPs from PROXY protocol v2 headers (relay socket addr → real client addr).
|
||||
pub async fn quic_accept_loop(
|
||||
endpoint: Endpoint,
|
||||
port: u16,
|
||||
@@ -58,6 +331,7 @@ pub async fn quic_accept_loop(
|
||||
conn_tracker: Arc<ConnectionTracker>,
|
||||
cancel: CancellationToken,
|
||||
h3_service: Option<Arc<H3ProxyService>>,
|
||||
real_client_map: Option<Arc<DashMap<SocketAddr, SocketAddr>>>,
|
||||
) {
|
||||
loop {
|
||||
let incoming = tokio::select! {
|
||||
@@ -77,11 +351,16 @@ pub async fn quic_accept_loop(
|
||||
};
|
||||
|
||||
let remote_addr = incoming.remote_address();
|
||||
let ip = remote_addr.ip();
|
||||
|
||||
// Resolve real client IP from PROXY protocol map if available
|
||||
let real_addr = real_client_map.as_ref()
|
||||
.and_then(|map| map.get(&remote_addr).map(|r| *r))
|
||||
.unwrap_or(remote_addr);
|
||||
let ip = real_addr.ip();
|
||||
|
||||
// Per-IP rate limiting
|
||||
if !conn_tracker.try_accept(&ip) {
|
||||
debug!("QUIC connection rejected from {} (rate limit)", remote_addr);
|
||||
debug!("QUIC connection rejected from {} (rate limit)", real_addr);
|
||||
// Drop `incoming` to refuse the connection
|
||||
continue;
|
||||
}
|
||||
@@ -104,7 +383,7 @@ pub async fn quic_accept_loop(
|
||||
let route = match rm.find_route(&ctx) {
|
||||
Some(m) => m.route.clone(),
|
||||
None => {
|
||||
debug!("No QUIC route matched for port {} from {}", port, remote_addr);
|
||||
debug!("No QUIC route matched for port {} from {}", port, real_addr);
|
||||
continue;
|
||||
}
|
||||
};
|
||||
@@ -117,11 +396,12 @@ pub async fn quic_accept_loop(
|
||||
let conn_tracker = Arc::clone(&conn_tracker);
|
||||
let cancel = cancel.child_token();
|
||||
let h3_svc = h3_service.clone();
|
||||
let real_client_addr = if real_addr != remote_addr { Some(real_addr) } else { None };
|
||||
|
||||
tokio::spawn(async move {
|
||||
match handle_quic_connection(incoming, route, port, Arc::clone(&metrics), &cancel, h3_svc).await {
|
||||
Ok(()) => debug!("QUIC connection from {} completed", remote_addr),
|
||||
Err(e) => debug!("QUIC connection from {} error: {}", remote_addr, e),
|
||||
match handle_quic_connection(incoming, route, port, Arc::clone(&metrics), &cancel, h3_svc, real_client_addr).await {
|
||||
Ok(()) => debug!("QUIC connection from {} completed", real_addr),
|
||||
Err(e) => debug!("QUIC connection from {} error: {}", real_addr, e),
|
||||
}
|
||||
|
||||
// Cleanup
|
||||
@@ -144,10 +424,11 @@ async fn handle_quic_connection(
|
||||
metrics: Arc<MetricsCollector>,
|
||||
cancel: &CancellationToken,
|
||||
h3_service: Option<Arc<H3ProxyService>>,
|
||||
real_client_addr: Option<SocketAddr>,
|
||||
) -> anyhow::Result<()> {
|
||||
let connection = incoming.await?;
|
||||
let remote_addr = connection.remote_address();
|
||||
debug!("QUIC connection established from {}", remote_addr);
|
||||
let effective_addr = real_client_addr.unwrap_or_else(|| connection.remote_address());
|
||||
debug!("QUIC connection established from {}", effective_addr);
|
||||
|
||||
// Check if this route has HTTP/3 enabled
|
||||
let enable_http3 = route.action.udp.as_ref()
|
||||
@@ -158,7 +439,7 @@ async fn handle_quic_connection(
|
||||
if enable_http3 {
|
||||
if let Some(ref h3_svc) = h3_service {
|
||||
debug!("HTTP/3 enabled for route {:?}, dispatching to H3ProxyService", route.name);
|
||||
h3_svc.handle_connection(connection, &route, port).await
|
||||
h3_svc.handle_connection(connection, &route, port, real_client_addr).await
|
||||
} else {
|
||||
warn!("HTTP/3 enabled for route {:?} but H3ProxyService not initialized", route.name);
|
||||
// Keep connection alive until cancelled
|
||||
@@ -172,7 +453,7 @@ async fn handle_quic_connection(
|
||||
}
|
||||
} else {
|
||||
// Non-HTTP3 QUIC: bidirectional stream forwarding to TCP backend
|
||||
handle_quic_stream_forwarding(connection, route, port, metrics, cancel).await
|
||||
handle_quic_stream_forwarding(connection, route, port, metrics, cancel, real_client_addr).await
|
||||
}
|
||||
}
|
||||
|
||||
@@ -187,8 +468,9 @@ async fn handle_quic_stream_forwarding(
|
||||
port: u16,
|
||||
metrics: Arc<MetricsCollector>,
|
||||
cancel: &CancellationToken,
|
||||
real_client_addr: Option<SocketAddr>,
|
||||
) -> anyhow::Result<()> {
|
||||
let remote_addr = connection.remote_address();
|
||||
let effective_addr = real_client_addr.unwrap_or_else(|| connection.remote_address());
|
||||
let route_id = route.name.as_deref().or(route.id.as_deref());
|
||||
let metrics_arc = metrics;
|
||||
|
||||
@@ -209,7 +491,7 @@ async fn handle_quic_stream_forwarding(
|
||||
Err(quinn::ConnectionError::ApplicationClosed(_)) => break,
|
||||
Err(quinn::ConnectionError::LocallyClosed) => break,
|
||||
Err(e) => {
|
||||
debug!("QUIC stream accept error from {}: {}", remote_addr, e);
|
||||
debug!("QUIC stream accept error from {}: {}", effective_addr, e);
|
||||
break;
|
||||
}
|
||||
}
|
||||
@@ -217,7 +499,7 @@ async fn handle_quic_stream_forwarding(
|
||||
};
|
||||
|
||||
let backend_addr = backend_addr.clone();
|
||||
let ip_str = remote_addr.ip().to_string();
|
||||
let ip_str = effective_addr.ip().to_string();
|
||||
let stream_metrics = Arc::clone(&metrics_arc);
|
||||
let stream_route_id = route_id.map(|s| s.to_string());
|
||||
|
||||
|
||||
@@ -2,12 +2,17 @@
|
||||
//!
|
||||
//! Binds UDP sockets on configured ports, receives datagrams, matches routes,
|
||||
//! tracks sessions (flows), and forwards datagrams to backend UDP sockets.
|
||||
//!
|
||||
//! Supports PROXY protocol v2 on both raw UDP and QUIC paths when `proxy_ips`
|
||||
//! is configured. For QUIC, a relay layer intercepts datagrams before they
|
||||
//! reach the quinn endpoint.
|
||||
|
||||
use std::collections::HashMap;
|
||||
use std::net::SocketAddr;
|
||||
use std::net::{IpAddr, SocketAddr};
|
||||
use std::sync::atomic::Ordering;
|
||||
use std::sync::Arc;
|
||||
|
||||
use dashmap::DashMap;
|
||||
use tokio::io::{AsyncReadExt, AsyncWriteExt};
|
||||
|
||||
use arc_swap::ArcSwap;
|
||||
@@ -48,6 +53,9 @@ pub struct UdpListenerManager {
|
||||
relay_reader_cancel: Option<CancellationToken>,
|
||||
/// H3 proxy service for HTTP/3 request handling
|
||||
h3_service: Option<Arc<H3ProxyService>>,
|
||||
/// Trusted proxy IPs that may send PROXY protocol v2 headers.
|
||||
/// When non-empty, PROXY v2 detection is enabled on both raw UDP and QUIC paths.
|
||||
proxy_ips: Arc<Vec<IpAddr>>,
|
||||
}
|
||||
|
||||
impl Drop for UdpListenerManager {
|
||||
@@ -80,9 +88,18 @@ impl UdpListenerManager {
|
||||
relay_writer: Arc::new(Mutex::new(None)),
|
||||
relay_reader_cancel: None,
|
||||
h3_service: None,
|
||||
proxy_ips: Arc::new(Vec::new()),
|
||||
}
|
||||
}
|
||||
|
||||
/// Set the trusted proxy IPs for PROXY protocol v2 detection.
|
||||
pub fn set_proxy_ips(&mut self, ips: Vec<IpAddr>) {
|
||||
if !ips.is_empty() {
|
||||
info!("UDP/QUIC PROXY protocol v2 enabled for {} trusted IPs", ips.len());
|
||||
}
|
||||
self.proxy_ips = Arc::new(ips);
|
||||
}
|
||||
|
||||
/// Set the H3 proxy service for HTTP/3 request handling.
|
||||
pub fn set_h3_service(&mut self, svc: Arc<H3ProxyService>) {
|
||||
self.h3_service = Some(svc);
|
||||
@@ -122,20 +139,44 @@ impl UdpListenerManager {
|
||||
|
||||
if has_quic {
|
||||
if let Some(tls) = tls_config {
|
||||
// Create QUIC endpoint; clone it so we can hot-swap TLS later
|
||||
let endpoint = crate::quic_handler::create_quic_endpoint(port, tls)?;
|
||||
let endpoint_for_updates = endpoint.clone(); // quinn::Endpoint is Arc-based
|
||||
let handle = tokio::spawn(crate::quic_handler::quic_accept_loop(
|
||||
endpoint,
|
||||
port,
|
||||
Arc::clone(&self.route_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
Arc::clone(&self.conn_tracker),
|
||||
self.cancel_token.child_token(),
|
||||
self.h3_service.clone(),
|
||||
));
|
||||
self.listeners.insert(port, (handle, Some(endpoint_for_updates)));
|
||||
info!("QUIC endpoint started on port {}", port);
|
||||
if self.proxy_ips.is_empty() {
|
||||
// Direct path: quinn owns the external socket (zero overhead)
|
||||
let endpoint = crate::quic_handler::create_quic_endpoint(port, tls)?;
|
||||
let endpoint_for_updates = endpoint.clone();
|
||||
let handle = tokio::spawn(crate::quic_handler::quic_accept_loop(
|
||||
endpoint,
|
||||
port,
|
||||
Arc::clone(&self.route_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
Arc::clone(&self.conn_tracker),
|
||||
self.cancel_token.child_token(),
|
||||
self.h3_service.clone(),
|
||||
None,
|
||||
));
|
||||
self.listeners.insert(port, (handle, Some(endpoint_for_updates)));
|
||||
info!("QUIC endpoint started on port {}", port);
|
||||
} else {
|
||||
// Proxy relay path: we own external socket, quinn on localhost
|
||||
let relay = crate::quic_handler::create_quic_endpoint_with_proxy_relay(
|
||||
port,
|
||||
tls,
|
||||
Arc::clone(&self.proxy_ips),
|
||||
self.cancel_token.child_token(),
|
||||
)?;
|
||||
let endpoint_for_updates = relay.endpoint.clone();
|
||||
let handle = tokio::spawn(crate::quic_handler::quic_accept_loop(
|
||||
relay.endpoint,
|
||||
port,
|
||||
Arc::clone(&self.route_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
Arc::clone(&self.conn_tracker),
|
||||
self.cancel_token.child_token(),
|
||||
self.h3_service.clone(),
|
||||
Some(relay.real_client_map),
|
||||
));
|
||||
self.listeners.insert(port, (handle, Some(endpoint_for_updates)));
|
||||
info!("QUIC endpoint with PROXY relay started on port {}", port);
|
||||
}
|
||||
return Ok(());
|
||||
} else {
|
||||
warn!("QUIC routes on port {} but no TLS config provided, falling back to raw UDP", port);
|
||||
@@ -158,6 +199,7 @@ impl UdpListenerManager {
|
||||
Arc::clone(&self.datagram_handler_relay),
|
||||
Arc::clone(&self.relay_writer),
|
||||
self.cancel_token.child_token(),
|
||||
Arc::clone(&self.proxy_ips),
|
||||
));
|
||||
|
||||
self.listeners.insert(port, (handle, None));
|
||||
@@ -222,6 +264,149 @@ impl UdpListenerManager {
|
||||
}
|
||||
}
|
||||
|
||||
/// Upgrade raw UDP fallback listeners to QUIC endpoints.
|
||||
///
|
||||
/// At startup, if no TLS certs are available, QUIC routes fall back to raw UDP.
|
||||
/// When certs become available later (via loadCertificate IPC or ACME), this method
|
||||
/// stops the raw UDP listener, drains sessions, and creates a proper QUIC endpoint.
|
||||
///
|
||||
/// This is idempotent — ports that already have QUIC endpoints are skipped.
|
||||
pub async fn upgrade_raw_to_quic(&mut self, tls_config: Arc<rustls::ServerConfig>) {
|
||||
// Find ports that are raw UDP fallback (endpoint=None) but have QUIC routes
|
||||
let rm = self.route_manager.load();
|
||||
let upgrade_ports: Vec<u16> = self.listeners.iter()
|
||||
.filter(|(_, (_, endpoint))| endpoint.is_none())
|
||||
.filter(|(port, _)| {
|
||||
rm.routes_for_port(**port).iter().any(|r| {
|
||||
r.action.udp.as_ref()
|
||||
.and_then(|u| u.quic.as_ref())
|
||||
.is_some()
|
||||
})
|
||||
})
|
||||
.map(|(port, _)| *port)
|
||||
.collect();
|
||||
|
||||
for port in upgrade_ports {
|
||||
info!("Upgrading raw UDP listener on port {} to QUIC endpoint", port);
|
||||
|
||||
// Stop the raw UDP listener task and drain sessions to release the socket
|
||||
if let Some((handle, _)) = self.listeners.remove(&port) {
|
||||
handle.abort();
|
||||
}
|
||||
let drained = self.session_table.drain_port(
|
||||
port, &self.metrics, &self.conn_tracker,
|
||||
);
|
||||
if drained > 0 {
|
||||
debug!("Drained {} UDP sessions on port {} for QUIC upgrade", drained, port);
|
||||
}
|
||||
|
||||
// Brief yield to let aborted tasks drop their socket references
|
||||
tokio::task::yield_now().await;
|
||||
|
||||
// Create QUIC endpoint on the now-free port
|
||||
let create_result = if self.proxy_ips.is_empty() {
|
||||
self.create_quic_direct(port, Arc::clone(&tls_config))
|
||||
} else {
|
||||
self.create_quic_with_relay(port, Arc::clone(&tls_config))
|
||||
};
|
||||
|
||||
match create_result {
|
||||
Ok(()) => {
|
||||
info!("QUIC endpoint started on port {} (upgraded from raw UDP)", port);
|
||||
}
|
||||
Err(e) => {
|
||||
// Port may still be held — retry once after a brief delay
|
||||
warn!("QUIC endpoint creation failed on port {}, retrying: {}", port, e);
|
||||
tokio::time::sleep(std::time::Duration::from_millis(50)).await;
|
||||
|
||||
let retry_result = if self.proxy_ips.is_empty() {
|
||||
self.create_quic_direct(port, Arc::clone(&tls_config))
|
||||
} else {
|
||||
self.create_quic_with_relay(port, Arc::clone(&tls_config))
|
||||
};
|
||||
|
||||
match retry_result {
|
||||
Ok(()) => {
|
||||
info!("QUIC endpoint started on port {} (upgraded from raw UDP, retry)", port);
|
||||
}
|
||||
Err(e2) => {
|
||||
error!("Failed to upgrade port {} to QUIC after retry: {}. \
|
||||
Rebinding as raw UDP.", port, e2);
|
||||
// Fallback: rebind as raw UDP so the port isn't dead
|
||||
if let Ok(()) = self.rebind_raw_udp(port).await {
|
||||
warn!("Port {} rebound as raw UDP (QUIC upgrade failed)", port);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/// Create a direct QUIC endpoint (quinn owns the socket).
|
||||
fn create_quic_direct(&mut self, port: u16, tls_config: Arc<rustls::ServerConfig>) -> anyhow::Result<()> {
|
||||
let endpoint = crate::quic_handler::create_quic_endpoint(port, tls_config)?;
|
||||
let endpoint_for_updates = endpoint.clone();
|
||||
let handle = tokio::spawn(crate::quic_handler::quic_accept_loop(
|
||||
endpoint,
|
||||
port,
|
||||
Arc::clone(&self.route_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
Arc::clone(&self.conn_tracker),
|
||||
self.cancel_token.child_token(),
|
||||
self.h3_service.clone(),
|
||||
None,
|
||||
));
|
||||
self.listeners.insert(port, (handle, Some(endpoint_for_updates)));
|
||||
Ok(())
|
||||
}
|
||||
|
||||
/// Create a QUIC endpoint with PROXY protocol relay.
|
||||
fn create_quic_with_relay(&mut self, port: u16, tls_config: Arc<rustls::ServerConfig>) -> anyhow::Result<()> {
|
||||
let relay = crate::quic_handler::create_quic_endpoint_with_proxy_relay(
|
||||
port,
|
||||
tls_config,
|
||||
Arc::clone(&self.proxy_ips),
|
||||
self.cancel_token.child_token(),
|
||||
)?;
|
||||
let endpoint_for_updates = relay.endpoint.clone();
|
||||
let handle = tokio::spawn(crate::quic_handler::quic_accept_loop(
|
||||
relay.endpoint,
|
||||
port,
|
||||
Arc::clone(&self.route_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
Arc::clone(&self.conn_tracker),
|
||||
self.cancel_token.child_token(),
|
||||
self.h3_service.clone(),
|
||||
Some(relay.real_client_map),
|
||||
));
|
||||
self.listeners.insert(port, (handle, Some(endpoint_for_updates)));
|
||||
Ok(())
|
||||
}
|
||||
|
||||
/// Rebind a port as a raw UDP listener (fallback when QUIC upgrade fails).
|
||||
async fn rebind_raw_udp(&mut self, port: u16) -> anyhow::Result<()> {
|
||||
let addr: std::net::SocketAddr = ([0, 0, 0, 0], port).into();
|
||||
let socket = UdpSocket::bind(addr).await?;
|
||||
let socket = Arc::new(socket);
|
||||
|
||||
let handle = tokio::spawn(Self::recv_loop(
|
||||
socket,
|
||||
port,
|
||||
Arc::clone(&self.route_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
Arc::clone(&self.conn_tracker),
|
||||
Arc::clone(&self.session_table),
|
||||
Arc::clone(&self.datagram_handler_relay),
|
||||
Arc::clone(&self.relay_writer),
|
||||
self.cancel_token.child_token(),
|
||||
Arc::clone(&self.proxy_ips),
|
||||
));
|
||||
|
||||
self.listeners.insert(port, (handle, None));
|
||||
Ok(())
|
||||
}
|
||||
|
||||
/// Set the datagram handler relay socket path and establish connection.
|
||||
pub async fn set_datagram_handler_relay(&mut self, path: String) {
|
||||
// Cancel previous relay reader task if any
|
||||
@@ -296,6 +481,10 @@ impl UdpListenerManager {
|
||||
}
|
||||
|
||||
/// Main receive loop for a UDP port.
|
||||
///
|
||||
/// When `proxy_ips` is non-empty, the first datagram from a trusted proxy IP
|
||||
/// is checked for PROXY protocol v2. If found, the real client IP is extracted
|
||||
/// and used for all subsequent session handling for that source address.
|
||||
async fn recv_loop(
|
||||
socket: Arc<UdpSocket>,
|
||||
port: u16,
|
||||
@@ -306,10 +495,15 @@ impl UdpListenerManager {
|
||||
_datagram_handler_relay: Arc<RwLock<Option<String>>>,
|
||||
relay_writer: Arc<Mutex<Option<tokio::net::unix::OwnedWriteHalf>>>,
|
||||
cancel: CancellationToken,
|
||||
proxy_ips: Arc<Vec<IpAddr>>,
|
||||
) {
|
||||
// Use a reasonably large buffer; actual max is per-route but we need a single buffer
|
||||
let mut buf = vec![0u8; 65535];
|
||||
|
||||
// Maps proxy source addr → real client addr (from PROXY v2 headers).
|
||||
// Only populated when proxy_ips is non-empty.
|
||||
let proxy_addr_map: DashMap<SocketAddr, SocketAddr> = DashMap::new();
|
||||
|
||||
loop {
|
||||
let (len, client_addr) = tokio::select! {
|
||||
_ = cancel.cancelled() => {
|
||||
@@ -329,9 +523,39 @@ impl UdpListenerManager {
|
||||
|
||||
let datagram = &buf[..len];
|
||||
|
||||
// Route matching
|
||||
// PROXY protocol v2 detection for datagrams from trusted proxy IPs
|
||||
let effective_client_ip = if !proxy_ips.is_empty() && proxy_ips.contains(&client_addr.ip()) {
|
||||
let session_key: SessionKey = (client_addr, port);
|
||||
if session_table.get(&session_key).is_none() && !proxy_addr_map.contains_key(&client_addr) {
|
||||
// No session and no prior PROXY header — check for PROXY v2
|
||||
if crate::proxy_protocol::is_proxy_protocol_v2(datagram) {
|
||||
match crate::proxy_protocol::parse_v2(datagram) {
|
||||
Ok((header, _consumed)) => {
|
||||
debug!("UDP PROXY v2 from {}: real client {}", client_addr, header.source_addr);
|
||||
proxy_addr_map.insert(client_addr, header.source_addr);
|
||||
continue; // discard the PROXY v2 datagram
|
||||
}
|
||||
Err(e) => {
|
||||
debug!("UDP PROXY v2 parse error from {}: {}", client_addr, e);
|
||||
client_addr.ip()
|
||||
}
|
||||
}
|
||||
} else {
|
||||
client_addr.ip()
|
||||
}
|
||||
} else {
|
||||
// Use real client IP if we've previously seen a PROXY v2 header
|
||||
proxy_addr_map.get(&client_addr)
|
||||
.map(|r| r.ip())
|
||||
.unwrap_or_else(|| client_addr.ip())
|
||||
}
|
||||
} else {
|
||||
client_addr.ip()
|
||||
};
|
||||
|
||||
// Route matching — use effective (real) client IP
|
||||
let rm = route_manager.load();
|
||||
let ip_str = client_addr.ip().to_string();
|
||||
let ip_str = effective_client_ip.to_string();
|
||||
let ctx = MatchContext {
|
||||
port,
|
||||
domain: None,
|
||||
@@ -380,20 +604,21 @@ impl UdpListenerManager {
|
||||
}
|
||||
|
||||
// Session lookup or create
|
||||
// Session key uses the proxy's source addr for correct return-path routing
|
||||
let session_key: SessionKey = (client_addr, port);
|
||||
let session = match session_table.get(&session_key) {
|
||||
Some(s) => s,
|
||||
None => {
|
||||
// New session — check per-IP limits
|
||||
if !conn_tracker.try_accept(&client_addr.ip()) {
|
||||
debug!("UDP session rejected for {} (rate limit)", client_addr);
|
||||
// New session — check per-IP limits using the real client IP
|
||||
if !conn_tracker.try_accept(&effective_client_ip) {
|
||||
debug!("UDP session rejected for {} (rate limit)", effective_client_ip);
|
||||
continue;
|
||||
}
|
||||
if !session_table.can_create_session(
|
||||
&client_addr.ip(),
|
||||
&effective_client_ip,
|
||||
udp_config.max_sessions_per_ip,
|
||||
) {
|
||||
debug!("UDP session rejected for {} (per-IP session limit)", client_addr);
|
||||
debug!("UDP session rejected for {} (per-IP session limit)", effective_client_ip);
|
||||
continue;
|
||||
}
|
||||
|
||||
@@ -426,8 +651,8 @@ impl UdpListenerManager {
|
||||
}
|
||||
let backend_socket = Arc::new(backend_socket);
|
||||
|
||||
debug!("New UDP session: {} -> {} (via port {})",
|
||||
client_addr, backend_addr, port);
|
||||
debug!("New UDP session: {} -> {} (via port {}, real client {})",
|
||||
client_addr, backend_addr, port, effective_client_ip);
|
||||
|
||||
// Spawn return-path relay task
|
||||
let session_cancel = CancellationToken::new();
|
||||
@@ -447,7 +672,7 @@ impl UdpListenerManager {
|
||||
last_activity: std::sync::atomic::AtomicU64::new(session_table.elapsed_ms()),
|
||||
created_at: std::time::Instant::now(),
|
||||
route_id: route_id.map(|s| s.to_string()),
|
||||
source_ip: client_addr.ip(),
|
||||
source_ip: effective_client_ip,
|
||||
client_addr,
|
||||
return_task,
|
||||
cancel: session_cancel,
|
||||
@@ -458,8 +683,8 @@ impl UdpListenerManager {
|
||||
continue;
|
||||
}
|
||||
|
||||
// Track in metrics
|
||||
conn_tracker.connection_opened(&client_addr.ip());
|
||||
// Track in metrics using the real client IP
|
||||
conn_tracker.connection_opened(&effective_client_ip);
|
||||
metrics.connection_opened(route_id, Some(&ip_str));
|
||||
metrics.udp_session_opened();
|
||||
|
||||
|
||||
@@ -201,6 +201,36 @@ impl UdpSessionTable {
|
||||
removed
|
||||
}
|
||||
|
||||
/// Drain all sessions on a given listening port, releasing socket references.
|
||||
/// Used when upgrading a raw UDP listener to QUIC — the raw UDP socket's
|
||||
/// Arc refcount must drop to zero so the port can be rebound.
|
||||
pub fn drain_port(
|
||||
&self,
|
||||
port: u16,
|
||||
metrics: &MetricsCollector,
|
||||
conn_tracker: &ConnectionTracker,
|
||||
) -> usize {
|
||||
let keys: Vec<SessionKey> = self.sessions.iter()
|
||||
.filter(|entry| entry.key().1 == port)
|
||||
.map(|entry| *entry.key())
|
||||
.collect();
|
||||
|
||||
let mut removed = 0;
|
||||
for key in keys {
|
||||
if let Some(session) = self.remove(&key) {
|
||||
session.cancel.cancel();
|
||||
conn_tracker.connection_closed(&session.source_ip);
|
||||
metrics.connection_closed(
|
||||
session.route_id.as_deref(),
|
||||
Some(&session.source_ip.to_string()),
|
||||
);
|
||||
metrics.udp_session_closed();
|
||||
removed += 1;
|
||||
}
|
||||
}
|
||||
removed
|
||||
}
|
||||
|
||||
/// Total number of active sessions.
|
||||
pub fn session_count(&self) -> usize {
|
||||
self.sessions.len()
|
||||
|
||||
@@ -122,10 +122,16 @@ impl RouteManager {
|
||||
// This prevents session-ticket resumption from misrouting when clients
|
||||
// omit SNI (RFC 8446 recommends but doesn't mandate SNI on resumption).
|
||||
// Wildcard-only routes (domains: ["*"]) still match since they accept all.
|
||||
let patterns = domains.to_vec();
|
||||
let is_wildcard_only = patterns.iter().all(|d| *d == "*");
|
||||
if !is_wildcard_only {
|
||||
return false;
|
||||
//
|
||||
// Exception: QUIC (UDP transport) encrypts the TLS ClientHello, so SNI
|
||||
// is unavailable at accept time. Domain verification happens per-request
|
||||
// in H3ProxyService via the :authority header.
|
||||
if ctx.transport != Some(TransportProtocol::Udp) {
|
||||
let patterns = domains.to_vec();
|
||||
let is_wildcard_only = patterns.iter().all(|d| *d == "*");
|
||||
if !is_wildcard_only {
|
||||
return false;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
@@ -997,4 +1003,52 @@ mod tests {
|
||||
let result = manager.find_route(&udp_ctx).unwrap();
|
||||
assert_eq!(result.route.name.as_deref(), Some("udp-route"));
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn test_quic_tls_no_sni_matches_domain_restricted_route() {
|
||||
// QUIC accept-level matching: is_tls=true, domain=None, transport=Udp.
|
||||
// Should match because QUIC encrypts the ClientHello — SNI is unavailable
|
||||
// at accept time but verified per-request in H3ProxyService.
|
||||
let mut route = make_route(443, Some("example.com"), 0);
|
||||
route.route_match.transport = Some(TransportProtocol::Udp);
|
||||
let routes = vec![route];
|
||||
let manager = RouteManager::new(routes);
|
||||
|
||||
let ctx = MatchContext {
|
||||
port: 443,
|
||||
domain: None,
|
||||
path: None,
|
||||
client_ip: None,
|
||||
tls_version: None,
|
||||
headers: None,
|
||||
is_tls: true,
|
||||
protocol: Some("quic"),
|
||||
transport: Some(TransportProtocol::Udp),
|
||||
};
|
||||
|
||||
assert!(manager.find_route(&ctx).is_some(),
|
||||
"QUIC (UDP) with is_tls=true and domain=None should match domain-restricted routes");
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn test_tcp_tls_no_sni_still_rejects_domain_restricted_route() {
|
||||
// TCP TLS without SNI must still be rejected (no QUIC exemption).
|
||||
let routes = vec![make_route(443, Some("example.com"), 0)];
|
||||
let manager = RouteManager::new(routes);
|
||||
|
||||
let ctx = MatchContext {
|
||||
port: 443,
|
||||
domain: None,
|
||||
path: None,
|
||||
client_ip: None,
|
||||
tls_version: None,
|
||||
headers: None,
|
||||
is_tls: true,
|
||||
protocol: None,
|
||||
transport: None, // TCP (default)
|
||||
};
|
||||
|
||||
assert!(manager.find_route(&ctx).is_none(),
|
||||
"TCP TLS without SNI should NOT match domain-restricted routes");
|
||||
}
|
||||
}
|
||||
|
||||
@@ -264,6 +264,8 @@ impl RustProxy {
|
||||
conn_config.socket_timeout_ms,
|
||||
conn_config.max_connection_lifetime_ms,
|
||||
);
|
||||
// Clone proxy_ips before conn_config is moved into the TCP listener
|
||||
let udp_proxy_ips = conn_config.proxy_ips.clone();
|
||||
listener.set_connection_config(conn_config);
|
||||
|
||||
// Share the socket-handler relay path with the listener
|
||||
@@ -339,6 +341,7 @@ impl RustProxy {
|
||||
conn_tracker,
|
||||
self.cancel_token.clone(),
|
||||
);
|
||||
udp_mgr.set_proxy_ips(udp_proxy_ips.clone());
|
||||
|
||||
// Construct H3ProxyService for HTTP/3 request handling
|
||||
let h3_svc = rustproxy_http::h3_service::H3ProxyService::new(
|
||||
@@ -774,21 +777,22 @@ impl RustProxy {
|
||||
if self.udp_listener_manager.is_none() {
|
||||
if let Some(ref listener) = self.listener_manager {
|
||||
let conn_tracker = listener.conn_tracker().clone();
|
||||
self.udp_listener_manager = Some(UdpListenerManager::new(
|
||||
let conn_config = Self::build_connection_config(&self.options);
|
||||
let mut udp_mgr = UdpListenerManager::new(
|
||||
Arc::clone(&new_manager),
|
||||
Arc::clone(&self.metrics),
|
||||
conn_tracker,
|
||||
self.cancel_token.clone(),
|
||||
));
|
||||
);
|
||||
udp_mgr.set_proxy_ips(conn_config.proxy_ips);
|
||||
self.udp_listener_manager = Some(udp_mgr);
|
||||
}
|
||||
}
|
||||
|
||||
// Build TLS config for QUIC before taking mutable borrow on udp_mgr
|
||||
let quic_tls = if new_udp_ports.iter().any(|p| !old_udp_ports.contains(p)) {
|
||||
// Build TLS config for QUIC (needed for new ports and upgrading existing raw UDP)
|
||||
let quic_tls = {
|
||||
let tls_configs = self.current_tls_configs().await;
|
||||
Self::build_quic_tls_config(&tls_configs)
|
||||
} else {
|
||||
None
|
||||
};
|
||||
|
||||
if let Some(ref mut udp_mgr) = self.udp_listener_manager {
|
||||
@@ -806,6 +810,12 @@ impl RustProxy {
|
||||
udp_mgr.remove_port(*port);
|
||||
}
|
||||
}
|
||||
|
||||
// Upgrade existing raw UDP fallback listeners to QUIC if TLS is now available
|
||||
if let Some(ref quic_config) = quic_tls {
|
||||
udp_mgr.update_quic_tls(Arc::clone(quic_config));
|
||||
udp_mgr.upgrade_raw_to_quic(Arc::clone(quic_config)).await;
|
||||
}
|
||||
}
|
||||
} else if self.udp_listener_manager.is_some() {
|
||||
// All UDP routes removed — shut down UDP manager
|
||||
@@ -862,12 +872,12 @@ impl RustProxy {
|
||||
.map_err(|e| anyhow::anyhow!("ACME provisioning failed: {}", e))?;
|
||||
|
||||
// Hot-swap into TLS configs
|
||||
if let Some(ref mut listener) = self.listener_manager {
|
||||
let mut tls_configs = Self::extract_tls_configs(&self.options.routes);
|
||||
tls_configs.insert(domain.clone(), TlsCertConfig {
|
||||
cert_pem: bundle.cert_pem.clone(),
|
||||
key_pem: bundle.key_pem.clone(),
|
||||
});
|
||||
let mut tls_configs = Self::extract_tls_configs(&self.options.routes);
|
||||
tls_configs.insert(domain.clone(), TlsCertConfig {
|
||||
cert_pem: bundle.cert_pem.clone(),
|
||||
key_pem: bundle.key_pem.clone(),
|
||||
});
|
||||
{
|
||||
let cm = cm_arc.lock().await;
|
||||
for (d, b) in cm.store().iter() {
|
||||
if !tls_configs.contains_key(d) {
|
||||
@@ -877,9 +887,22 @@ impl RustProxy {
|
||||
});
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
let quic_tls = Self::build_quic_tls_config(&tls_configs);
|
||||
|
||||
if let Some(ref listener) = self.listener_manager {
|
||||
listener.set_tls_configs(tls_configs);
|
||||
}
|
||||
|
||||
// Update existing QUIC endpoints and upgrade raw UDP fallback listeners
|
||||
if let Some(ref mut udp_mgr) = self.udp_listener_manager {
|
||||
if let Some(ref quic_config) = quic_tls {
|
||||
udp_mgr.update_quic_tls(Arc::clone(quic_config));
|
||||
udp_mgr.upgrade_raw_to_quic(Arc::clone(quic_config)).await;
|
||||
}
|
||||
}
|
||||
|
||||
info!("Certificate provisioned and loaded for route '{}'", route_name);
|
||||
Ok(())
|
||||
}
|
||||
@@ -1104,17 +1127,18 @@ impl RustProxy {
|
||||
// Hot-swap TLS config on TCP and QUIC listeners
|
||||
let tls_configs = self.current_tls_configs().await;
|
||||
|
||||
// Build QUIC TLS config before TCP consumes the map
|
||||
let quic_tls = Self::build_quic_tls_config(&tls_configs);
|
||||
|
||||
if let Some(ref listener) = self.listener_manager {
|
||||
// Build QUIC TLS config before TCP consumes the map
|
||||
let quic_tls = Self::build_quic_tls_config(&tls_configs);
|
||||
|
||||
listener.set_tls_configs(tls_configs);
|
||||
}
|
||||
|
||||
// Also update QUIC endpoints with the new certs
|
||||
if let Some(ref udp_mgr) = self.udp_listener_manager {
|
||||
if let Some(quic_config) = quic_tls {
|
||||
udp_mgr.update_quic_tls(quic_config);
|
||||
}
|
||||
// Update existing QUIC endpoints and upgrade raw UDP fallback listeners
|
||||
if let Some(ref mut udp_mgr) = self.udp_listener_manager {
|
||||
if let Some(ref quic_config) = quic_tls {
|
||||
udp_mgr.update_quic_tls(Arc::clone(quic_config));
|
||||
udp_mgr.upgrade_raw_to_quic(Arc::clone(quic_config)).await;
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
@@ -3,6 +3,6 @@
|
||||
*/
|
||||
export const commitinfo = {
|
||||
name: '@push.rocks/smartproxy',
|
||||
version: '25.16.1',
|
||||
version: '25.17.2',
|
||||
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.'
|
||||
}
|
||||
|
||||
Reference in New Issue
Block a user