#[macro_use] extern crate log; use std::{panic::AssertUnwindSafe, convert::TryFrom, io::BufReader, sync::Arc}; use futures::{future::BoxFuture, FutureExt}; use mime::Mime; use tokio::{ prelude::*, io::{self, BufStream}, net::{TcpStream, ToSocketAddrs}, }; use tokio::net::TcpListener; use rustls::ClientCertVerifier; use tokio_rustls::{rustls, TlsAcceptor}; use rustls::*; use anyhow::*; use uri::URIReference; use lazy_static::lazy_static; pub mod types; pub mod util; pub use mime; pub use uriparse as uri; pub use types::*; pub use rustls::Certificate; pub const REQUEST_URI_MAX_LEN: usize = 1024; pub const GEMINI_PORT: u16 = 1965; type Handler = Arc HandlerResponse + Send + Sync>; type HandlerResponse = BoxFuture<'static, Result>; #[derive(Clone)] pub struct Server { tls_acceptor: TlsAcceptor, listener: Arc, handler: Handler, } impl Server { pub fn bind(addr: A) -> Builder { Builder::bind(addr) } async fn serve(self) -> Result<()> { loop { let (stream, _addr) = self.listener.accept().await?; let this = self.clone(); tokio::spawn(async move { if let Err(err) = this.serve_client(stream).await { error!("{}", err); } }); } } async fn serve_client(self, stream: TcpStream) -> Result<()> { let stream = self.tls_acceptor.accept(stream).await?; let mut stream = BufStream::new(stream); let mut request = receive_request(&mut stream).await?; debug!("Client requested: {}", request.uri()); // Identify the client certificate from the tls stream. This is the first // certificate in the certificate chain. let client_cert = stream.get_ref() .get_ref() .1 .get_peer_certificates() .and_then(|mut v| if v.is_empty() {None} else {Some(v.remove(0))}); request.set_cert(client_cert); let handler = (self.handler)(request); let handler = AssertUnwindSafe(handler); let response = handler.catch_unwind().await .unwrap_or_else(|_| Response::server_error("")) .or_else(|err| { error!("Handler: {}", err); Response::server_error("") })?; send_response(response, &mut stream).await?; stream.flush().await?; Ok(()) } } pub struct Builder { addr: A, } impl Builder { fn bind(addr: A) -> Self { Self { addr } } pub async fn serve(self, handler: F) -> Result<()> where F: Fn(Request) -> HandlerResponse + Send + Sync + 'static, { let config = tls_config()?; let server = Server { tls_acceptor: TlsAcceptor::from(config), listener: Arc::new(TcpListener::bind(self.addr).await?), handler: Arc::new(handler), }; server.serve().await } } async fn receive_request(stream: &mut (impl AsyncBufRead + Unpin)) -> Result { let limit = REQUEST_URI_MAX_LEN + "\r\n".len(); let mut stream = stream.take(limit as u64); let mut uri = Vec::new(); stream.read_until(b'\n', &mut uri).await?; if !uri.ends_with(b"\r\n") { if uri.len() < REQUEST_URI_MAX_LEN { bail!("Request header not terminated with CRLF") } else { bail!("Request URI too long") } } // Strip CRLF uri.pop(); uri.pop(); let uri = URIReference::try_from(&*uri)?.into_owned(); let request = Request::from_uri(uri)?; Ok(request) } async fn send_response(mut response: Response, stream: &mut (impl AsyncWrite + Unpin)) -> Result<()> { send_response_header(response.header(), stream).await?; if let Some(body) = response.take_body() { send_response_body(body, stream).await?; } Ok(()) } async fn send_response_header(header: &ResponseHeader, stream: &mut (impl AsyncWrite + Unpin)) -> Result<()> { let header = format!( "{status} {meta}\r\n", status = header.status.code(), meta = header.meta.as_str(), ); stream.write_all(header.as_bytes()).await?; Ok(()) } async fn send_response_body(body: Body, stream: &mut (impl AsyncWrite + Unpin)) -> Result<()> { match body { Body::Bytes(bytes) => stream.write_all(&bytes).await?, Body::Reader(mut reader) => { io::copy(&mut reader, stream).await?; }, } Ok(()) } fn tls_config() -> Result> { let mut config = ServerConfig::new(AllowAnonOrSelfsignedClient::new()); let cert_chain = load_cert_chain()?; let key = load_key()?; config.set_single_cert(cert_chain, key)?; Ok(config.into()) } fn load_cert_chain() -> Result> { let certs = std::fs::File::open("cert/cert.pem")?; let mut certs = BufReader::new(certs); let certs = rustls::internal::pemfile::certs(&mut certs) .map_err(|_| anyhow!("failed to load certs"))?; Ok(certs) } fn load_key() -> Result { let mut keys = BufReader::new(std::fs::File::open("cert/key.pem")?); let mut keys = rustls::internal::pemfile::pkcs8_private_keys(&mut keys) .map_err(|_| anyhow!("failed to load key"))?; ensure!(!keys.is_empty(), "no key found"); let key = keys.swap_remove(0); Ok(key) } /// Mime for Gemini documents pub const GEMINI_MIME_STR: &str = "text/gemini"; lazy_static! { /// Mime for Gemini documents ("text/gemini") pub static ref GEMINI_MIME: Mime = GEMINI_MIME_STR.parse().expect("northstar BUG"); } #[deprecated(note = "Use `GEMINI_MIME` instead", since = "0.3.0")] pub fn gemini_mime() -> Result { Ok(GEMINI_MIME.clone()) } /// A client cert verifier that accepts all connections /// /// Unfortunately, rustls doesn't provide a ClientCertVerifier that accepts self-signed /// certificates, so we need to implement this ourselves. struct AllowAnonOrSelfsignedClient { } impl AllowAnonOrSelfsignedClient { /// Create a new verifier fn new() -> Arc { Arc::new(Self {}) } } impl ClientCertVerifier for AllowAnonOrSelfsignedClient { fn client_auth_root_subjects( &self, _: Option<&webpki::DNSName> ) -> Option { Some(Vec::new()) } fn client_auth_mandatory(&self, _sni: Option<&webpki::DNSName>) -> Option { Some(false) } fn verify_client_cert( &self, _: &[Certificate], _: Option<&webpki::DNSName> ) -> Result { Ok(ClientCertVerified::assertion()) } } #[cfg(test)] mod tests { use super::*; #[test] fn gemini_mime_parses() { let _: &Mime = &GEMINI_MIME; } }