1#[cfg(test)]
2pub mod tests;
3#[cfg(test)]
4mod example;
5
6use std::io::prelude::*;
7use std::borrow::Borrow;
8use std::net::{IpAddr, SocketAddr, TcpListener};
9use std::str::FromStr;
10use std::time::Duration;
11
12use crate::request::{METHOD, Request};
13use crate::response::{Response, STATUS_CODE_REASON_PHRASE};
14use crate::app::App;
15use crate::application::Application;
16use crate::core::{New};
17use crate::entry_point::{bootstrap, get_ip_port_thread_count, get_request_allocation_size, set_default_values};
18use crate::header::Header;
19use crate::log::Log;
20use crate::mime_type::MimeType;
21use crate::range::{ContentRange, Range};
22use crate::symbol::SYMBOL;
23use crate::thread_pool::ThreadPool;
24
25pub struct Server {}
26impl Server {
27 pub fn process_request(mut stream: impl Read + Write + Unpin, peer_addr: SocketAddr) -> Vec<u8> {
28 let request_allocation_size = get_request_allocation_size();
29 let mut buffer = vec![0; request_allocation_size as usize];
30 let boxed_read = stream.read(&mut buffer);
31 if boxed_read.is_err() {
32 let message = boxed_read.err().unwrap().to_string();
33 eprintln!("unable to read TCP stream {}", &message);
34
35 let raw_response = Server::bad_request_response(message);
36 let boxed_stream = stream.write(raw_response.borrow());
37 if boxed_stream.is_ok() {
38 stream.flush().unwrap();
39 };
40 return raw_response;
41 }
42
43 boxed_read.unwrap();
44 let request : &[u8] = &buffer;
45
46 let boxed_request = Request::parse_request(request);
51 if boxed_request.is_err() {
52 let message = boxed_request.err().unwrap();
53 eprintln!("unable to parse request: {}", &message);
54
55 let raw_response = Server::bad_request_response(message);
56 let boxed_stream = stream.write(raw_response.borrow());
57 if boxed_stream.is_ok() {
58 stream.flush().unwrap();
59 };
60 return raw_response;
61 }
62
63
64 let request: Request = boxed_request.unwrap();
65 let (response, request) = App::handle_request(request);
66
67
68 let log_request_response = Log::combined(&request, &response, &peer_addr);
69 println!("{}", log_request_response);
70 let raw_response = Response::generate_response(response, request);
71
72 let boxed_stream = stream.write(raw_response.borrow());
73 if boxed_stream.is_ok() {
74 stream.flush().unwrap();
75 };
76
77 raw_response
78 }
79
80 pub fn bad_request_response(message: String) -> Vec<u8> {
81 let error_request = Request {
82 method: METHOD.get.to_string(),
83 request_uri: "".to_string(),
84 http_version: "".to_string(),
85 headers: vec![],
86 body: vec![],
87 };
88
89 let size = message.chars().count() as u64;
90 let content_range = ContentRange {
91 unit: Range::BYTES.to_string(),
92 range: Range { start: 0, end: size },
93 size: size.to_string(),
94 body: Vec::from(message.as_bytes()),
95 content_type: MimeType::TEXT_PLAIN.to_string(),
96 };
97
98 let header_list = Header::get_header_list(&error_request);
99 let error_response: Response = Response::get_response(
100 STATUS_CODE_REASON_PHRASE.n400_bad_request,
101 Some(header_list),
102 Some(vec![content_range])
103 );
104
105 let response = Response::generate_response(error_response, error_request);
106 return response;
107 }
108
109 pub fn process(mut stream: impl Read + Write + Unpin,
110 connection: ConnectionInfo,
111 app: impl Application) -> Result<(), String> {
112 use crate::http::VERSION;
113
114 let request_allocation_size = connection.request_size;
115 let client = connection.client.clone();
116 let client_addr = SocketAddr::new(IpAddr::from_str(client.ip.as_str()).unwrap(), client.port as u16);
117
118 loop {
119 let mut buffer = vec![0; request_allocation_size as usize];
120 let boxed_read = stream.read(&mut buffer);
121 if boxed_read.is_err() {
122 break;
124 }
125 if boxed_read.unwrap() == 0 {
126 break;
127 }
128
129 let request = match Request::parse(&buffer) {
130 Ok(r) => r,
131 Err(message) => {
132 let raw_response = Server::bad_request_response(message.clone());
133 let boxed_stream = stream.write(raw_response.borrow());
134 if boxed_stream.is_ok() { stream.flush().unwrap(); }
135 return Err(message);
136 }
137 };
138
139 let keep_alive = {
140 let conn_hdr = request.get_header(Header::_CONNECTION.to_string());
141 match conn_hdr {
142 Some(h) => h.value.to_lowercase() != "close",
143 None => request.http_version == VERSION.http_1_1,
144 }
145 };
146
147 let mut response = match app.execute(&request, &connection) {
148 Ok(r) => r,
149 Err(message) => {
150 let raw_response = Server::bad_request_response(message.clone());
151 let boxed_stream = stream.write(raw_response.borrow());
152 if boxed_stream.is_ok() { stream.flush().unwrap(); }
153 return Err(message);
154 }
155 };
156
157 crate::metrics::record_request();
158 crate::compression::apply_gzip(&request, &mut response);
159
160 response.headers.push(Header {
161 name: Header::_CONNECTION.to_string(),
162 value: if keep_alive { "keep-alive".to_string() } else { "close".to_string() },
163 });
164
165 Log::log_access(&request, &response, &client_addr);
166
167 if let Some(ref filepath) = response.stream_file.clone() {
168 if let Err(e) = Server::write_chunked_file(&mut stream, response, request, filepath) {
169 return Err(e);
170 }
171 } else {
172 let raw_response = Response::generate_response(response, request);
173 if let Err(e) = stream.write(raw_response.borrow()) {
174 return Err(e.to_string());
175 }
176 stream.flush().unwrap();
177 }
178
179 if !keep_alive { break; }
180 }
181
182 Ok(())
183 }
184
185 pub(crate) fn write_chunked_file(
188 stream: &mut impl Write,
189 mut response: Response,
190 request: Request,
191 filepath: &str,
192 ) -> Result<(), String> {
193 use std::fs::File;
194 use std::io::Read as _;
195
196 response.headers.push(Header {
197 name: Header::_TRANSFER_ENCODING.to_string(),
198 value: "chunked".to_string(),
199 });
200
201 let status = [
203 response.http_version.clone(),
204 response.status_code.to_string(),
205 response.reason_phrase.clone(),
206 ].join(SYMBOL.whitespace);
207
208 let mut headers_str = SYMBOL.new_line_carriage_return.to_string();
209 for header in &response.headers {
210 headers_str.push_str(&header.name);
211 headers_str.push_str(Header::NAME_VALUE_SEPARATOR);
212 headers_str.push_str(&header.value);
213 headers_str.push_str(SYMBOL.new_line_carriage_return);
214 }
215 let head = format!("{}{}{}", status, headers_str, SYMBOL.new_line_carriage_return);
216
217 stream.write_all(head.as_bytes()).map_err(|e| e.to_string())?;
218
219 if request.method != METHOD.head && request.method != METHOD.options {
220 let mut file = File::open(filepath).map_err(|e| e.to_string())?;
221 let mut buf = vec![0u8; 65536];
222 loop {
223 let n = file.read(&mut buf).map_err(|e| e.to_string())?;
224 if n == 0 { break; }
225 stream.write_all(format!("{:x}\r\n", n).as_bytes()).map_err(|e| e.to_string())?;
227 stream.write_all(&buf[..n]).map_err(|e| e.to_string())?;
228 stream.write_all(b"\r\n").map_err(|e| e.to_string())?;
229 }
230 stream.write_all(b"0\r\n\r\n").map_err(|e| e.to_string())?;
232 }
233
234 stream.flush().map_err(|e| e.to_string())
235 }
236
237 pub fn setup() -> Result<(TcpListener, ThreadPool), String> {
240 let info = Log::info("Rust Web Server");
241 println!("{}", info);
242
243 let usage_info = Log::usage_information();
244 println!("{}", usage_info);
245
246
247 println!("RWS Configuration Start: \n");
248
249 set_default_values();
250 bootstrap();
251
252 println!("\nRWS Configuration End\n\n");
253
254
255 let (ip, port, thread_count) = get_ip_port_thread_count();
256
257
258 let mut ip_readable = ip.to_string();
259
260 if ip.contains(":") {
261 ip_readable = [SYMBOL.opening_square_bracket, &ip, SYMBOL.closing_square_bracket].join("");
262 }
263
264 let bind_addr = [ip_readable, SYMBOL.colon.to_string(), port.to_string()].join(SYMBOL.empty_string);
265
266 #[cfg(feature = "http2")]
267 let protocol = {
268 let cert = std::env::var(crate::entry_point::Config::RWS_CONFIG_TLS_CERT_FILE).unwrap_or_default();
269 if cert.is_empty() { "http" } else { "https" }
270 };
271 #[cfg(not(feature = "http2"))]
272 let protocol = "http";
273
274 println!("Setting up {}://{}...", protocol, &bind_addr);
275
276 let boxed_listener = TcpListener::bind(&bind_addr);
277 if boxed_listener.is_err() {
278 let message = format!("unable to set up TCP listener: {}", boxed_listener.err().unwrap());
279 return Err(message);
280 }
281
282 let listener = boxed_listener.unwrap();
283 let pool = ThreadPool::new(thread_count as usize);
284
285
286 let server_url_thread_count = Log::server_url_thread_count(protocol, &bind_addr, thread_count);
287 println!("{}", server_url_thread_count);
288
289 Ok((listener, pool))
290 }
291
292 pub fn run(listener: TcpListener,
300 pool: ThreadPool,
301 app: impl Application + New + Send + 'static + Copy) {
302 #[cfg(feature = "http1")]
303 {
304 use std::sync::Arc;
305 use std::sync::atomic::{AtomicBool, Ordering};
306
307 let shutdown = Arc::new(AtomicBool::new(false));
308 let s = shutdown.clone();
309 if let Err(e) = ctrlc::set_handler(move || {
310 s.store(true, Ordering::SeqCst);
311 }) {
312 eprintln!("unable to install signal handler: {}", e);
313 }
314 crate::config_reload::install_sighup_handler();
315 if let Err(e) = listener.set_nonblocking(true) {
316 eprintln!("unable to set non-blocking listener: {}", e);
317 }
318
319 loop {
320 if shutdown.load(Ordering::SeqCst) {
321 break;
322 }
323 if crate::config_reload::RELOAD_REQUESTED
324 .compare_exchange(true, false, Ordering::SeqCst, Ordering::Relaxed)
325 .is_ok()
326 {
327 crate::config_reload::reload();
328 }
329 match listener.accept() {
330 Ok((stream, peer_addr)) => {
331 Server::dispatch_connection(stream, peer_addr, &pool, app);
332 }
333 Err(ref e) if e.kind() == std::io::ErrorKind::WouldBlock => {
334 std::thread::sleep(Duration::from_millis(10));
335 }
336 Err(e) => {
337 eprintln!("accept error: {}", e);
338 break;
339 }
340 }
341 }
342
343 crate::metrics::SERVER_READY.store(false, std::sync::atomic::Ordering::SeqCst);
344 println!("Shutting down — waiting for in-flight connections to finish");
345 pool.join();
346 println!("Server stopped");
347 }
348
349 #[cfg(not(feature = "http1"))]
350 {
351 for boxed_stream in listener.incoming() {
352 match boxed_stream {
353 Err(e) => {
354 eprintln!("unable to get TCP stream: {}", e);
355 return;
356 }
357 Ok(stream) => {
358 let peer_addr = match stream.peer_addr() {
359 Ok(a) => a,
360 Err(e) => {
361 eprintln!("unable to read peer addr: {}", e);
362 return;
363 }
364 };
365 Server::dispatch_connection(stream, peer_addr, &pool, app);
366 }
367 }
368 }
369 }
370 }
371
372 fn dispatch_connection(
373 stream: std::net::TcpStream,
374 peer_addr: std::net::SocketAddr,
375 pool: &ThreadPool,
376 app: impl Application + New + Send + 'static + Copy,
377 ) {
378 print!("Connection established, ");
379 if let Ok(local) = stream.local_addr() {
380 print!("local addr: {}", local);
381 }
382 println!(", peer addr: {}", peer_addr);
383
384 let (server_ip, server_port, _thread_count) = get_ip_port_thread_count();
385 let connection = ConnectionInfo {
386 client: Address {
387 ip: peer_addr.ip().to_string(),
388 port: peer_addr.port() as i32,
389 },
390 server: Address {
391 ip: server_ip,
392 port: server_port,
393 },
394 request_size: get_request_allocation_size(),
395 };
396
397 if let Err(e) = stream.set_read_timeout(Some(Duration::from_secs(30))) {
398 eprintln!("failed to set read timeout: {}", e);
399 }
400
401 pool.execute(move || {
402 crate::metrics::connection_open();
403 let result = Server::process(stream, connection, app);
404 crate::metrics::connection_close();
405 if let Err(msg) = result {
406 crate::metrics::record_error();
407 eprintln!("{}", msg);
408 }
409 });
410 }
411
412}
413
414#[derive(Clone)]
416pub struct ConnectionInfo {
417 pub client: Address,
419 pub server: Address,
421 pub request_size: i64
423}
424
425#[derive(Clone)]
427pub struct Address {
428 pub ip: String,
429 pub port: i32
430}
431
432impl ConnectionInfo {
433 pub fn peer_addr(&self) -> Option<std::net::SocketAddr> {
436 self.client.to_socket_addr()
437 }
438}
439
440impl Address {
441 pub fn to_socket_addr(&self) -> Option<std::net::SocketAddr> {
444 let ip: std::net::IpAddr = self.ip.parse().ok()?;
445 let port = u16::try_from(self.port).ok()?;
446 Some(std::net::SocketAddr::new(ip, port))
447 }
448}
449
450#[cfg(feature = "http2")]
453async fn sigterm() {
454 #[cfg(unix)]
455 {
456 if let Ok(mut s) = tokio::signal::unix::signal(
457 tokio::signal::unix::SignalKind::terminate()
458 ) {
459 s.recv().await;
460 } else {
461 std::future::pending::<()>().await
462 }
463 }
464 #[cfg(not(unix))]
465 std::future::pending::<()>().await
466}
467
468#[cfg(feature = "http2")]
470async fn sighup() {
471 #[cfg(unix)]
472 {
473 if let Ok(mut s) = tokio::signal::unix::signal(
474 tokio::signal::unix::SignalKind::hangup()
475 ) {
476 s.recv().await;
477 } else {
478 std::future::pending::<()>().await
479 }
480 }
481 #[cfg(not(unix))]
482 std::future::pending::<()>().await
483}
484
485#[cfg(feature = "http2")]
486impl Server {
487 pub async fn run_tls(
488 listener: TcpListener,
489 pool: ThreadPool,
490 app: impl Application + New + Send + 'static + Copy,
491 ) {
492 use crate::tls::create_tls_acceptor;
493 use crate::h2_handler;
494
495 let cert_path = std::env::var(crate::entry_point::Config::RWS_CONFIG_TLS_CERT_FILE)
496 .unwrap_or_default();
497 let key_path = std::env::var(crate::entry_point::Config::RWS_CONFIG_TLS_KEY_FILE)
498 .unwrap_or_default();
499
500 if cert_path.is_empty() || key_path.is_empty() {
501 println!("No TLS certificate configured — serving plain HTTP/1.1.");
502 tokio::task::block_in_place(|| Server::run(listener, pool, app));
503 return;
504 }
505
506 let mut tls_acceptor = match create_tls_acceptor(&cert_path, &key_path) {
507 Ok(a) => a,
508 Err(e) => {
509 eprintln!("TLS setup failed: {}", e);
510 return;
511 }
512 };
513
514 listener
515 .set_nonblocking(true)
516 .expect("failed to set TCP listener to non-blocking");
517 let tokio_listener = tokio::net::TcpListener::from_std(listener)
518 .expect("failed to convert TCP listener to tokio");
519
520 println!("Listening for TLS connections (HTTP/1.1 + HTTP/2)...");
521
522 loop {
523 tokio::select! {
524 result = tokio_listener.accept() => {
525 match result {
526 Ok((tcp_stream, peer_addr)) => {
527 let acceptor = tls_acceptor.clone();
528 tokio::spawn(async move {
529 match acceptor.accept(tcp_stream).await {
530 Ok(tls_stream) => {
531 let protocol = tls_stream
532 .get_ref()
533 .1
534 .alpn_protocol()
535 .map(|p| p.to_vec());
536
537 match protocol.as_deref() {
538 Some(b"h2") => {
539 if let Err(e) =
540 h2_handler::handle_connection(tls_stream, peer_addr, app)
541 .await
542 {
543 eprintln!("H2 connection error: {}", e);
544 }
545 }
546 _ => {
547 if let Err(e) =
548 Server::process_h1_tls(tls_stream, peer_addr, app).await
549 {
550 eprintln!("H1 TLS error: {}", e);
551 }
552 }
553 }
554 }
555 Err(e) => eprintln!("TLS handshake failed: {}", e),
556 }
557 });
558 }
559 Err(e) => eprintln!("TCP accept error: {}", e),
560 }
561 }
562 _ = tokio::signal::ctrl_c() => {
563 crate::metrics::SERVER_READY.store(false, std::sync::atomic::Ordering::SeqCst);
564 println!("\nShutting down gracefully (SIGINT).");
565 break;
566 }
567 _ = sigterm() => {
568 crate::metrics::SERVER_READY.store(false, std::sync::atomic::Ordering::SeqCst);
569 println!("\nShutting down gracefully (SIGTERM).");
570 break;
571 }
572 _ = sighup() => {
573 crate::config_reload::reload();
574 if let Ok(new_acceptor) = create_tls_acceptor(&cert_path, &key_path) {
576 tls_acceptor = new_acceptor;
577 println!("[TLS] Certificate reloaded from '{}'.", cert_path);
578 }
579 }
580 }
581 }
582 }
583
584 pub async fn run_redirect() {
588 use std::env;
589 use tokio::io::{AsyncReadExt, AsyncWriteExt};
590 use tokio::net::TcpListener as TokioListener;
591
592 let cert_path = env::var(crate::entry_point::Config::RWS_CONFIG_TLS_CERT_FILE)
593 .unwrap_or_default();
594 if cert_path.is_empty() {
595 return;
596 }
597
598 let redirect_port_str = env::var(crate::entry_point::Config::RWS_CONFIG_HTTP_REDIRECT_PORT)
599 .unwrap_or_default();
600 if redirect_port_str.is_empty() {
601 return;
602 }
603
604 let redirect_port: u16 = match redirect_port_str.parse() {
605 Ok(p) => p,
606 Err(_) => {
607 eprintln!("Invalid RWS_CONFIG_HTTP_REDIRECT_PORT: {}", redirect_port_str);
608 return;
609 }
610 };
611
612 let (server_ip, server_port, _) = get_ip_port_thread_count();
613 let bind_addr = format!("{}:{}", server_ip, redirect_port);
614
615 let listener = match TokioListener::bind(&bind_addr).await {
616 Ok(l) => l,
617 Err(e) => {
618 eprintln!("HTTP redirect listener error on {}: {}", bind_addr, e);
619 return;
620 }
621 };
622
623 println!("HTTP→HTTPS redirect listening on http://{}:{}", server_ip, redirect_port);
624
625 loop {
626 tokio::select! {
627 result = listener.accept() => {
628 match result {
629 Ok((mut stream, _peer)) => {
630 let https_port = server_port;
631 tokio::spawn(async move {
632 let mut buf = vec![0u8; 4096];
633 let n = match stream.read(&mut buf).await {
634 Ok(n) => n,
635 Err(_) => return,
636 };
637 let text = String::from_utf8_lossy(&buf[..n]);
638
639 let uri = text.lines()
640 .next()
641 .and_then(|line| line.split_whitespace().nth(1))
642 .unwrap_or("/")
643 .to_string();
644
645 let host_header = text.lines()
646 .find(|l| l.to_lowercase().starts_with("host:"))
647 .map(|l| l[5..].trim().to_string());
648
649 let location = match host_header {
650 Some(h) => {
651 let h_no_port = if h.starts_with('[') {
653 h.find(']')
655 .map(|i| h[..=i].to_string())
656 .unwrap_or(h.clone())
657 } else {
658 h.rfind(':')
659 .map(|i| h[..i].to_string())
660 .unwrap_or(h.clone())
661 };
662 if https_port == 443 {
663 format!("https://{}{}", h_no_port, uri)
664 } else {
665 format!("https://{}:{}{}", h_no_port, https_port, uri)
666 }
667 }
668 None => format!("https://localhost:{}{}", https_port, uri),
669 };
670
671 let response = format!(
672 "HTTP/1.1 301 Moved Permanently\r\nLocation: {}\r\nContent-Length: 0\r\nConnection: close\r\n\r\n",
673 location
674 );
675 let _ = stream.write_all(response.as_bytes()).await;
676 });
677 }
678 Err(e) => eprintln!("HTTP redirect accept error: {}", e),
679 }
680 }
681 _ = tokio::signal::ctrl_c() => {
682 println!("\nShutting down HTTP redirect listener (SIGINT).");
683 break;
684 }
685 _ = sigterm() => {
686 println!("\nShutting down HTTP redirect listener (SIGTERM).");
687 break;
688 }
689 _ = sighup() => {
690 crate::config_reload::reload();
691 }
692 }
693 }
694 }
695
696 async fn process_h1_tls(
697 mut stream: tokio_rustls::server::TlsStream<tokio::net::TcpStream>,
698 peer_addr: std::net::SocketAddr,
699 app: impl Application,
700 ) -> Result<(), String> {
701 use tokio::io::{AsyncReadExt, AsyncWriteExt};
702
703 let (server_ip, server_port, _) = get_ip_port_thread_count();
704 let request_allocation_size = get_request_allocation_size();
705
706 let mut buffer = vec![0u8; request_allocation_size as usize];
707 if let Err(e) = stream.read(&mut buffer).await {
708 let raw = Server::bad_request_response(e.to_string());
709 let _ = stream.write_all(&raw).await;
710 return Ok(());
711 }
712
713 let request = match Request::parse(&buffer) {
714 Ok(r) => r,
715 Err(message) => {
716 let raw = Server::bad_request_response(message);
717 let _ = stream.write_all(&raw).await;
718 return Ok(());
719 }
720 };
721
722 let connection = ConnectionInfo {
723 client: Address {
724 ip: peer_addr.ip().to_string(),
725 port: peer_addr.port() as i32,
726 },
727 server: Address {
728 ip: server_ip,
729 port: server_port,
730 },
731 request_size: request_allocation_size,
732 };
733
734 let mut response = match app.execute(&request, &connection) {
735 Ok(r) => r,
736 Err(message) => {
737 let raw = Server::bad_request_response(message);
738 let _ = stream.write_all(&raw).await;
739 return Ok(());
740 }
741 };
742
743 crate::metrics::record_request();
744 crate::compression::apply_gzip(&request, &mut response);
745 response.headers.push(Header::get_hsts_header());
746
747 #[cfg(feature = "http3")]
748 response.headers.push(Header {
749 name: Header::_ALT_SVC.to_string(),
750 value: format!("h3=\":{}\"", server_port),
751 });
752 #[cfg(not(feature = "http3"))]
753 response.headers.push(Header {
754 name: Header::_ALT_SVC.to_string(),
755 value: format!("h2=\":{}\"", server_port),
756 });
757
758 Log::log_access(&request, &response, &peer_addr);
759
760 let raw = Response::generate_response(response, request);
761 stream
762 .write_all(&raw)
763 .await
764 .map_err(|e| e.to_string())?;
765 stream.flush().await.map_err(|e| e.to_string())?;
766
767 Ok(())
768 }
769}
770
771#[cfg(feature = "http3")]
772impl Server {
773 pub async fn run_quic(
774 app: impl Application + New + Send + 'static + Copy,
775 ) {
776 use crate::tls::create_quinn_server_config;
777 use crate::h3_handler;
778
779 let cert_path = std::env::var(crate::entry_point::Config::RWS_CONFIG_TLS_CERT_FILE)
780 .unwrap_or_default();
781 let key_path = std::env::var(crate::entry_point::Config::RWS_CONFIG_TLS_KEY_FILE)
782 .unwrap_or_default();
783
784 if cert_path.is_empty() || key_path.is_empty() {
785 return;
786 }
787
788 let server_config = match create_quinn_server_config(&cert_path, &key_path) {
789 Ok(c) => c,
790 Err(e) => {
791 eprintln!("QUIC TLS setup failed: {}", e);
792 return;
793 }
794 };
795
796 let (server_ip, server_port, _) = get_ip_port_thread_count();
797 let bind_addr = format!("{}:{}", server_ip, server_port);
798 let addr: std::net::SocketAddr = match bind_addr.parse() {
799 Ok(a) => a,
800 Err(e) => {
801 eprintln!("Invalid QUIC bind address '{}': {}", bind_addr, e);
802 return;
803 }
804 };
805
806 let endpoint = match quinn::Endpoint::server(server_config, addr) {
807 Ok(e) => e,
808 Err(e) => {
809 eprintln!("QUIC endpoint error: {}", e);
810 return;
811 }
812 };
813
814 println!("Listening for QUIC/HTTP3 on UDP {}:{}", server_ip, server_port);
815
816 loop {
817 tokio::select! {
818 maybe = endpoint.accept() => {
819 match maybe {
820 Some(incoming) => {
821 tokio::spawn(async move {
822 match incoming.await {
823 Ok(conn) => {
824 let peer_addr = conn.remote_address();
825 if let Err(e) = h3_handler::handle_connection(conn, peer_addr, app).await {
826 eprintln!("H3 connection error: {}", e);
827 }
828 }
829 Err(e) => eprintln!("QUIC connection error: {}", e),
830 }
831 });
832 }
833 None => break,
834 }
835 }
836 _ = tokio::signal::ctrl_c() => {
837 crate::metrics::SERVER_READY.store(false, std::sync::atomic::Ordering::SeqCst);
838 println!("\nShutting down QUIC (SIGINT).");
839 endpoint.close(0u32.into(), b"shutdown");
840 break;
841 }
842 _ = sigterm() => {
843 crate::metrics::SERVER_READY.store(false, std::sync::atomic::Ordering::SeqCst);
844 println!("\nShutting down QUIC (SIGTERM).");
845 endpoint.close(0u32.into(), b"shutdown");
846 break;
847 }
848 _ = sighup() => {
849 crate::config_reload::reload();
850 }
851 }
852 }
853 }
854}
855
856