Line data Source code
1 : /// A stand-alone program that routes connections, e.g. from
2 : /// `aaa--bbb--1234.external.domain` to `aaa.bbb.internal.domain:1234`.
3 : ///
4 : /// This allows connecting to pods/services running in the same Kubernetes cluster from
5 : /// the outside. Similar to an ingress controller for HTTPS.
6 : use std::{net::SocketAddr, sync::Arc};
7 :
8 : use futures::future::Either;
9 : use itertools::Itertools;
10 : use proxy::config::TlsServerEndPoint;
11 : use proxy::context::RequestMonitoring;
12 : use proxy::proxy::{copy_bidirectional_client_compute, run_until_cancelled};
13 : use rustls::pki_types::PrivateKeyDer;
14 : use tokio::net::TcpListener;
15 :
16 : use anyhow::{anyhow, bail, ensure, Context};
17 : use clap::Arg;
18 : use futures::TryFutureExt;
19 : use proxy::stream::{PqStream, Stream};
20 :
21 : use tokio::io::{AsyncRead, AsyncWrite};
22 : use tokio_util::sync::CancellationToken;
23 : use utils::{project_git_version, sentry_init::init_sentry};
24 :
25 : use tracing::{error, info, Instrument};
26 :
27 : project_git_version!(GIT_VERSION);
28 :
29 0 : fn cli() -> clap::Command {
30 0 : clap::Command::new("Neon proxy/router")
31 0 : .version(GIT_VERSION)
32 0 : .arg(
33 0 : Arg::new("listen")
34 0 : .short('l')
35 0 : .long("listen")
36 0 : .help("listen for incoming client connections on ip:port")
37 0 : .default_value("127.0.0.1:4432"),
38 0 : )
39 0 : .arg(
40 0 : Arg::new("tls-key")
41 0 : .short('k')
42 0 : .long("tls-key")
43 0 : .help("path to TLS key for client postgres connections")
44 0 : .required(true),
45 0 : )
46 0 : .arg(
47 0 : Arg::new("tls-cert")
48 0 : .short('c')
49 0 : .long("tls-cert")
50 0 : .help("path to TLS cert for client postgres connections")
51 0 : .required(true),
52 0 : )
53 0 : .arg(
54 0 : Arg::new("dest")
55 0 : .short('d')
56 0 : .long("destination")
57 0 : .help("append this domain zone to the SNI hostname to get the destination address")
58 0 : .required(true),
59 0 : )
60 0 : }
61 :
62 : #[tokio::main]
63 0 : async fn main() -> anyhow::Result<()> {
64 0 : let _logging_guard = proxy::logging::init().await?;
65 0 : let _panic_hook_guard = utils::logging::replace_panic_hook_with_tracing_panic_hook();
66 0 : let _sentry_guard = init_sentry(Some(GIT_VERSION.into()), &[]);
67 0 :
68 0 : let args = cli().get_matches();
69 0 : let destination: String = args.get_one::<String>("dest").unwrap().parse()?;
70 0 :
71 0 : // Configure TLS
72 0 : let (tls_config, tls_server_end_point): (Arc<rustls::ServerConfig>, TlsServerEndPoint) = match (
73 0 : args.get_one::<String>("tls-key"),
74 0 : args.get_one::<String>("tls-cert"),
75 0 : ) {
76 0 : (Some(key_path), Some(cert_path)) => {
77 0 : let key = {
78 0 : let key_bytes = std::fs::read(key_path).context("TLS key file")?;
79 0 :
80 0 : let mut keys =
81 0 : rustls_pemfile::pkcs8_private_keys(&mut &key_bytes[..]).collect_vec();
82 0 :
83 0 : ensure!(keys.len() == 1, "keys.len() = {} (should be 1)", keys.len());
84 0 : PrivateKeyDer::Pkcs8(
85 0 : keys.pop()
86 0 : .unwrap()
87 0 : .context(format!("Failed to read TLS keys at '{key_path}'"))?,
88 0 : )
89 0 : };
90 0 :
91 0 : let cert_chain_bytes = std::fs::read(cert_path)
92 0 : .context(format!("Failed to read TLS cert file at '{cert_path}.'"))?;
93 0 :
94 0 : let cert_chain: Vec<_> = {
95 0 : rustls_pemfile::certs(&mut &cert_chain_bytes[..])
96 0 : .try_collect()
97 0 : .with_context(|| {
98 0 : format!("Failed to read TLS certificate chain from bytes from file at '{cert_path}'.")
99 0 : })?
100 0 : };
101 0 :
102 0 : // needed for channel bindings
103 0 : let first_cert = cert_chain.first().context("missing certificate")?;
104 0 : let tls_server_end_point = TlsServerEndPoint::new(first_cert)?;
105 0 :
106 0 : let tls_config = rustls::ServerConfig::builder_with_protocol_versions(&[
107 0 : &rustls::version::TLS13,
108 0 : &rustls::version::TLS12,
109 0 : ])
110 0 : .with_no_client_auth()
111 0 : .with_single_cert(cert_chain, key)?
112 0 : .into();
113 0 :
114 0 : (tls_config, tls_server_end_point)
115 0 : }
116 0 : _ => bail!("tls-key and tls-cert must be specified"),
117 0 : };
118 0 :
119 0 : // Start listening for incoming client connections
120 0 : let proxy_address: SocketAddr = args.get_one::<String>("listen").unwrap().parse()?;
121 0 : info!("Starting sni router on {proxy_address}");
122 0 : let proxy_listener = TcpListener::bind(proxy_address).await?;
123 0 :
124 0 : let cancellation_token = CancellationToken::new();
125 0 :
126 0 : let main = tokio::spawn(task_main(
127 0 : Arc::new(destination),
128 0 : tls_config,
129 0 : tls_server_end_point,
130 0 : proxy_listener,
131 0 : cancellation_token.clone(),
132 0 : ));
133 0 : let signals_task = tokio::spawn(proxy::handle_signals(cancellation_token));
134 0 :
135 0 : // the signal task cant ever succeed.
136 0 : // the main task can error, or can succeed on cancellation.
137 0 : // we want to immediately exit on either of these cases
138 0 : let signal = match futures::future::select(signals_task, main).await {
139 0 : Either::Left((res, _)) => proxy::flatten_err(res)?,
140 0 : Either::Right((res, _)) => return proxy::flatten_err(res),
141 0 : };
142 0 :
143 0 : // maintenance tasks return `Infallible` success values, this is an impossible value
144 0 : // so this match statically ensures that there are no possibilities for that value
145 0 : match signal {}
146 0 : }
147 :
148 0 : async fn task_main(
149 0 : dest_suffix: Arc<String>,
150 0 : tls_config: Arc<rustls::ServerConfig>,
151 0 : tls_server_end_point: TlsServerEndPoint,
152 0 : listener: tokio::net::TcpListener,
153 0 : cancellation_token: CancellationToken,
154 0 : ) -> anyhow::Result<()> {
155 0 : // When set for the server socket, the keepalive setting
156 0 : // will be inherited by all accepted client sockets.
157 0 : socket2::SockRef::from(&listener).set_keepalive(true)?;
158 :
159 0 : let connections = tokio_util::task::task_tracker::TaskTracker::new();
160 :
161 0 : while let Some(accept_result) =
162 0 : run_until_cancelled(listener.accept(), &cancellation_token).await
163 : {
164 0 : let (socket, peer_addr) = accept_result?;
165 :
166 0 : let session_id = uuid::Uuid::new_v4();
167 0 : let tls_config = Arc::clone(&tls_config);
168 0 : let dest_suffix = Arc::clone(&dest_suffix);
169 0 :
170 0 : connections.spawn(
171 0 : async move {
172 0 : socket
173 0 : .set_nodelay(true)
174 0 : .context("failed to set socket option")?;
175 :
176 0 : info!(%peer_addr, "serving");
177 0 : let ctx = RequestMonitoring::new(
178 0 : session_id,
179 0 : peer_addr.ip(),
180 0 : proxy::metrics::Protocol::SniRouter,
181 0 : "sni",
182 0 : );
183 0 : handle_client(ctx, dest_suffix, tls_config, tls_server_end_point, socket).await
184 0 : }
185 0 : .unwrap_or_else(|e| {
186 0 : // Acknowledge that the task has finished with an error.
187 0 : error!("per-client task finished with an error: {e:#}");
188 0 : })
189 0 : .instrument(tracing::info_span!("handle_client", ?session_id)),
190 : );
191 : }
192 :
193 0 : connections.close();
194 0 : drop(listener);
195 0 :
196 0 : connections.wait().await;
197 :
198 0 : info!("all client connections have finished");
199 0 : Ok(())
200 0 : }
201 :
202 : const ERR_INSECURE_CONNECTION: &str = "connection is insecure (try using `sslmode=require`)";
203 :
204 0 : async fn ssl_handshake<S: AsyncRead + AsyncWrite + Unpin>(
205 0 : ctx: &mut RequestMonitoring,
206 0 : raw_stream: S,
207 0 : tls_config: Arc<rustls::ServerConfig>,
208 0 : tls_server_end_point: TlsServerEndPoint,
209 0 : ) -> anyhow::Result<Stream<S>> {
210 0 : let mut stream = PqStream::new(Stream::from_raw(raw_stream));
211 :
212 0 : let msg = stream.read_startup_packet().await?;
213 : use pq_proto::FeStartupPacket::*;
214 :
215 0 : match msg {
216 : SslRequest => {
217 0 : stream
218 0 : .write_message(&pq_proto::BeMessage::EncryptionResponse(true))
219 0 : .await?;
220 : // Upgrade raw stream into a secure TLS-backed stream.
221 : // NOTE: We've consumed `tls`; this fact will be used later.
222 :
223 0 : let (raw, read_buf) = stream.into_inner();
224 0 : // TODO: Normally, client doesn't send any data before
225 0 : // server says TLS handshake is ok and read_buf is empy.
226 0 : // However, you could imagine pipelining of postgres
227 0 : // SSLRequest + TLS ClientHello in one hunk similar to
228 0 : // pipelining in our node js driver. We should probably
229 0 : // support that by chaining read_buf with the stream.
230 0 : if !read_buf.is_empty() {
231 0 : bail!("data is sent before server replied with EncryptionResponse");
232 0 : }
233 0 :
234 0 : Ok(Stream::Tls {
235 0 : tls: Box::new(
236 0 : raw.upgrade(tls_config, !ctx.has_private_peer_addr())
237 0 : .await?,
238 : ),
239 0 : tls_server_end_point,
240 : })
241 : }
242 0 : unexpected => {
243 0 : info!(
244 : ?unexpected,
245 0 : "unexpected startup packet, rejecting connection"
246 : );
247 0 : stream
248 0 : .throw_error_str(ERR_INSECURE_CONNECTION, proxy::error::ErrorKind::User)
249 0 : .await?
250 : }
251 : }
252 0 : }
253 :
254 0 : async fn handle_client(
255 0 : mut ctx: RequestMonitoring,
256 0 : dest_suffix: Arc<String>,
257 0 : tls_config: Arc<rustls::ServerConfig>,
258 0 : tls_server_end_point: TlsServerEndPoint,
259 0 : stream: impl AsyncRead + AsyncWrite + Unpin,
260 0 : ) -> anyhow::Result<()> {
261 0 : let mut tls_stream = ssl_handshake(&mut ctx, stream, tls_config, tls_server_end_point).await?;
262 :
263 : // Cut off first part of the SNI domain
264 : // We receive required destination details in the format of
265 : // `{k8s_service_name}--{k8s_namespace}--{port}.non-sni-domain`
266 0 : let sni = tls_stream.sni_hostname().ok_or(anyhow!("SNI missing"))?;
267 0 : let dest: Vec<&str> = sni
268 0 : .split_once('.')
269 0 : .context("invalid SNI")?
270 : .0
271 0 : .splitn(3, "--")
272 0 : .collect();
273 0 : let port = dest[2].parse::<u16>().context("invalid port")?;
274 0 : let destination = format!("{}.{}.{}:{}", dest[0], dest[1], dest_suffix, port);
275 0 :
276 0 : info!("destination: {}", destination);
277 :
278 0 : let mut client = tokio::net::TcpStream::connect(destination).await?;
279 :
280 : // doesn't yet matter as pg-sni-router doesn't report analytics logs
281 0 : ctx.set_success();
282 0 : ctx.log_connect();
283 0 :
284 0 : // Starting from here we only proxy the client's traffic.
285 0 : info!("performing the proxy pass...");
286 0 : let _ = copy_bidirectional_client_compute(&mut tls_stream, &mut client).await?;
287 :
288 0 : Ok(())
289 0 : }
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