1 //! A simple tokio-based HTTP server which serves DNSSEC proofs in RFC 9102 format.
5 // const_slice_from_raw_parts was stabilized in 1.64, however we support building on 1.63 as well.
6 // Luckily, it seems to work fine in 1.63 with the feature flag (and RUSTC_BOOTSTRAP=1) enabled.
7 #![cfg_attr(feature = "validation", allow(stable_features))]
8 #![cfg_attr(feature = "validation", feature(const_slice_from_raw_parts))]
16 #[cfg(feature = "validation")]
18 #[cfg(feature = "validation")]
20 #[cfg(feature = "validation")]
23 #[cfg(any(feature = "build_server", all(feature = "tokio", feature = "validation")))]
24 use tokio_crate as tokio;
26 #[cfg(feature = "build_server")]
29 let resolver_sockaddr = std::env::var("RESOLVER")
30 .expect("Please set the RESOLVER env variable to the TCP socket of a recursive DNS resolver")
31 .parse().expect("RESOLVER was not a valid socket address");
32 let bind_addr = std::env::var("BIND")
33 .expect("Please set the BIND env variable to a socket address to listen on");
35 let listener = tokio::net::TcpListener::bind(bind_addr).await
36 .expect("Failed to bind to socket");
37 imp::run_server(listener, resolver_sockaddr).await;
40 #[cfg(any(feature = "build_server", all(feature = "tokio", feature = "validation")))]
47 use std::net::SocketAddr;
49 use tokio::net::TcpListener;
50 use tokio::io::{AsyncReadExt, AsyncWriteExt};
52 pub(super) async fn run_server(listener: TcpListener, resolver_sockaddr: SocketAddr) {
54 let (mut socket, _) = listener.accept().await.expect("Failed to accept new TCP connection");
55 tokio::spawn(async move {
56 let mut response = ("400 Bad Request", "Bad Request");
57 'ret_err: loop { // goto label
58 let mut buf = [0; 4096];
61 if buf_pos == buf.len() { response.1 = "Request Too Large"; break 'ret_err; }
62 let read_res = { socket.read(&mut buf[buf_pos..]).await };
67 for window in buf[..buf_pos].windows(2) {
68 if window == b"\r\n" { break 'read_req; }
71 Err(e) if e.kind() == std::io::ErrorKind::WouldBlock => {},
76 if let Ok(s) = std::str::from_utf8(&buf[..buf_pos]) {
77 if let Some((r, _)) = s.split_once("\r\n") {
87 let mut parts = request.split(" ");
88 let (verb, path, http_vers);
89 if let Some(v) = parts.next() { verb = v; } else { break 'ret_err; }
90 if let Some(p) = parts.next() { path = p; } else { break 'ret_err; }
91 if let Some(v) = parts.next() { http_vers = v; } else { break 'ret_err; }
92 if parts.next().is_some() { break; }
93 if verb != "GET" { break; }
94 if http_vers != "HTTP/1.1" && http_vers != "HTTP/1.0" { break 'ret_err; }
96 const PATH_PFX: &'static str = "/dnssecproof?";
97 if !path.starts_with(PATH_PFX) {
98 response = ("404 Not Found", "Not Found");
102 let (mut d, mut t) = ("", "");
103 for arg in path[PATH_PFX.len()..].split("&") {
104 if let Some((k, v)) = arg.split_once("=") {
110 } else { break 'ret_err; }
113 if d == "" || t == "" {
114 response.1 = "Missing d or t URI parameters";
117 let query_name = if let Ok(domain) = Name::try_from(d) { domain } else {
118 response.1 = "Failed to parse domain, make sure it ends with .";
121 let proof_res = match t.to_ascii_uppercase().as_str() {
122 "TXT" => build_txt_proof_async(resolver_sockaddr, &query_name).await,
123 "TLSA" => build_tlsa_proof_async(resolver_sockaddr, &query_name).await,
124 "A" => build_a_proof_async(resolver_sockaddr, &query_name).await,
125 "AAAA" => build_aaaa_proof_async(resolver_sockaddr, &query_name).await,
128 let (proof, cache_ttl) = if let Ok(proof) = proof_res { proof } else {
129 response = ("404 Not Found", "Failed to generate proof for given domain");
133 let _ = socket.write_all(
135 "HTTP/1.1 200 OK\r\nContent-Length: {}\r\nContent-Type: application/octet-stream\r\nCache-Control: public, max-age={}, s-maxage={}\r\nAccess-Control-Allow-Origin: *\r\n\r\n",
136 proof.len(), cache_ttl, cache_ttl
139 let _ = socket.write_all(&proof).await;
142 let _ = socket.write_all(format!(
143 "HTTP/1.1 {}\r\nContent-Length: {}\r\nContent-Type: text/plain\r\nAccess-Control-Allow-Origin: *\r\n\r\n{}",
144 response.0, response.1.len(), response.1,
151 #[cfg(all(feature = "tokio", feature = "validation", test))]
155 use crate::ser::parse_rr_stream;
156 use crate::validation::verify_rr_stream;
160 #[tokio::test(flavor = "multi_thread", worker_threads = 1)]
161 async fn test_lookup() {
162 let ns = "8.8.8.8:53".parse().unwrap();
163 let listener = tokio::net::TcpListener::bind("127.0.0.1:17492").await
164 .expect("Failed to bind to socket");
165 tokio::spawn(imp::run_server(listener, ns));
166 let resp = minreq::get(
167 "http://127.0.0.1:17492/dnssecproof?d=matt.user._bitcoin-payment.mattcorallo.com.&t=tXt"
170 assert_eq!(resp.status_code, 200);
171 let rrs = parse_rr_stream(resp.as_bytes()).unwrap();
172 let verified_rrs = verify_rr_stream(&rrs).unwrap();
173 assert_eq!(verified_rrs.verified_rrs.len(), 1);
176 #[tokio::test(flavor = "multi_thread", worker_threads = 1)]
177 async fn test_lookup_a() {
178 let ns = "9.9.9.9:53".parse().unwrap();
179 let listener = tokio::net::TcpListener::bind("127.0.0.1:17493").await
180 .expect("Failed to bind to socket");
181 tokio::spawn(imp::run_server(listener, ns));
182 let resp = minreq::get(
183 "http://127.0.0.1:17493/dnssecproof?d=cloudflare.com.&t=a"
186 assert_eq!(resp.status_code, 200);
187 let rrs = parse_rr_stream(resp.as_bytes()).unwrap();
188 let verified_rrs = verify_rr_stream(&rrs).unwrap();
189 assert!(verified_rrs.verified_rrs.len() >= 1);
192 #[tokio::test(flavor = "multi_thread", worker_threads = 1)]
193 async fn test_lookup_tlsa() {
194 let ns = "1.1.1.1:53".parse().unwrap();
195 let listener = tokio::net::TcpListener::bind("127.0.0.1:17494").await
196 .expect("Failed to bind to socket");
197 tokio::spawn(imp::run_server(listener, ns));
198 let resp = minreq::get(
199 "http://127.0.0.1:17494/dnssecproof?d=_25._tcp.mail.as397444.net.&t=TLSA"
202 assert_eq!(resp.status_code, 200);
203 let rrs = parse_rr_stream(resp.as_bytes()).unwrap();
204 let verified_rrs = verify_rr_stream(&rrs).unwrap();
205 assert_eq!(verified_rrs.verified_rrs.len(), 1);