use futures::{sink::SinkExt, task::Poll, Future, Sink, Stream}; use idna; use sasl::common::{ChannelBinding, Credentials}; use std::mem::replace; use std::pin::Pin; use std::str::FromStr; use std::task::Context; use tokio::net::TcpStream; use tokio::task::JoinHandle; use tokio::task::LocalSet; use tokio_tls::TlsStream; use xmpp_parsers::{Element, Jid, JidParseError}; use super::event::Event; use super::happy_eyeballs::connect; use super::starttls::starttls; use super::xmpp_codec::Packet; use super::xmpp_stream; use super::{Error, ProtocolError}; mod auth; use auth::auth; mod bind; use bind::bind; pub const NS_XMPP_SASL: &str = "urn:ietf:params:xml:ns:xmpp-sasl"; pub const NS_XMPP_BIND: &str = "urn:ietf:params:xml:ns:xmpp-bind"; /// XMPP client connection and state /// /// This implements the `futures` crate's [`Stream`](#impl-Stream) and /// [`Sink`](#impl-Sink) traits. pub struct Client { state: ClientState, jid: Jid, password: String, reconnect: bool, } type XMPPStream = xmpp_stream::XMPPStream>; const NS_JABBER_CLIENT: &str = "jabber:client"; enum ClientState { Invalid, Disconnected, Connecting(JoinHandle>, LocalSet), Connected(XMPPStream), } impl Client { /// Start a new XMPP client /// /// Start polling the returned instance so that it will connect /// and yield events. pub fn new>(jid: &str, password: P) -> Result { let jid = Jid::from_str(jid)?; let client = Self::new_with_jid(jid, password.into()); Ok(client) } /// Start a new client given that the JID is already parsed. pub fn new_with_jid(jid: Jid, password: String) -> Self { let local = LocalSet::new(); let connect = local.spawn_local(Self::connect(jid.clone(), password.clone())); let client = Client { jid, password, state: ClientState::Connecting(connect, local), reconnect: false, }; client } /// Set whether to reconnect (`true`) or let the stream end /// (`false`) when a connection to the server has ended. pub fn set_reconnect(&mut self, reconnect: bool) -> &mut Self { self.reconnect = reconnect; self } async fn connect(jid: Jid, password: String) -> Result { let username = jid.clone().node().unwrap(); let password = password; let domain = idna::domain_to_ascii(&jid.clone().domain()).map_err(|_| Error::Idna)?; // TCP connection let tcp_stream = connect(&domain, Some("_xmpp-client._tcp"), 5222).await?; // Unencryped XMPPStream let xmpp_stream = xmpp_stream::XMPPStream::start(tcp_stream, jid.clone(), NS_JABBER_CLIENT.to_owned()).await?; let xmpp_stream = if xmpp_stream.stream_features.can_starttls() { // TlsStream let tls_stream = starttls(xmpp_stream).await?; // Encrypted XMPPStream xmpp_stream::XMPPStream::start(tls_stream, jid.clone(), NS_JABBER_CLIENT.to_owned()).await? } else { return Err(Error::Protocol(ProtocolError::NoTls)); }; let creds = Credentials::default() .with_username(username) .with_password(password) .with_channel_binding(ChannelBinding::None); // Authenticated (unspecified) stream let stream = auth(xmpp_stream, creds).await?; // Authenticated XMPPStream let xmpp_stream = xmpp_stream::XMPPStream::start(stream, jid, NS_JABBER_CLIENT.to_owned()).await?; // XMPPStream bound to user session let xmpp_stream = bind(xmpp_stream).await?; Ok(xmpp_stream) } /// Get the client's bound JID (the one reported by the XMPP /// server). pub fn bound_jid(&self) -> Option<&Jid> { match self.state { ClientState::Connected(ref stream) => Some(&stream.jid), _ => None, } } /// Send stanza pub async fn send_stanza(&mut self, stanza: Element) -> Result<(), Error> { self.send(Packet::Stanza(stanza)).await } /// End connection by sending `` /// /// You may expect the server to respond with the same. This /// client will then drop its connection. /// /// Make sure to disable reconnect. pub async fn send_end(&mut self) -> Result<(), Error> { self.send(Packet::StreamEnd).await } } /// Incoming XMPP events /// /// In an `async fn` you may want to use this with `use /// futures::stream::StreamExt;` impl Stream for Client { type Item = Event; /// Low-level read on the XMPP stream, allowing the underlying /// machinery to: /// /// * connect, /// * starttls, /// * authenticate, /// * bind a session, and finally /// * receive stanzas /// /// ...for your client fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll> { let state = replace(&mut self.state, ClientState::Invalid); match state { ClientState::Invalid => panic!("Invalid client state"), ClientState::Disconnected if self.reconnect => { // TODO: add timeout let mut local = LocalSet::new(); let connect = local.spawn_local(Self::connect(self.jid.clone(), self.password.clone())); let _ = Pin::new(&mut local).poll(cx); self.state = ClientState::Connecting(connect, local); self.poll_next(cx) } ClientState::Disconnected => Poll::Ready(None), ClientState::Connecting(mut connect, mut local) => { match Pin::new(&mut connect).poll(cx) { Poll::Ready(Ok(Ok(stream))) => { let bound_jid = stream.jid.clone(); self.state = ClientState::Connected(stream); Poll::Ready(Some(Event::Online { bound_jid, resumed: false, })) } Poll::Ready(Ok(Err(e))) => { self.state = ClientState::Disconnected; return Poll::Ready(Some(Event::Disconnected(e.into()))); } Poll::Ready(Err(e)) => { self.state = ClientState::Disconnected; panic!("connect task: {}", e); } Poll::Pending => { let _ = Pin::new(&mut local).poll(cx); self.state = ClientState::Connecting(connect, local); Poll::Pending } } } ClientState::Connected(mut stream) => { // Poll sink match Pin::new(&mut stream).poll_ready(cx) { Poll::Pending => (), Poll::Ready(Ok(())) => (), Poll::Ready(Err(e)) => { self.state = ClientState::Disconnected; return Poll::Ready(Some(Event::Disconnected(e.into()))); } }; // Poll stream match Pin::new(&mut stream).poll_next(cx) { Poll::Ready(None) => { // EOF self.state = ClientState::Disconnected; Poll::Ready(Some(Event::Disconnected(Error::Disconnected))) } Poll::Ready(Some(Ok(Packet::Stanza(stanza)))) => { // Receive stanza self.state = ClientState::Connected(stream); Poll::Ready(Some(Event::Stanza(stanza))) } Poll::Ready(Some(Ok(Packet::Text(_)))) => { // Ignore text between stanzas self.state = ClientState::Connected(stream); Poll::Pending } Poll::Ready(Some(Ok(Packet::StreamStart(_)))) => { // self.state = ClientState::Disconnected; Poll::Ready(Some(Event::Disconnected( ProtocolError::InvalidStreamStart.into(), ))) } Poll::Ready(Some(Ok(Packet::StreamEnd))) => { // End of stream: self.state = ClientState::Disconnected; Poll::Ready(Some(Event::Disconnected(Error::Disconnected))) } Poll::Pending => { // Try again later self.state = ClientState::Connected(stream); Poll::Pending } Poll::Ready(Some(Err(e))) => { self.state = ClientState::Disconnected; Poll::Ready(Some(Event::Disconnected(e.into()))) } } } } } } /// Outgoing XMPP packets /// /// See `send_stanza()` for an `async fn` impl Sink for Client { type Error = Error; fn start_send(mut self: Pin<&mut Self>, item: Packet) -> Result<(), Self::Error> { match self.state { ClientState::Connected(ref mut stream) => { Pin::new(stream).start_send(item).map_err(|e| e.into()) } _ => Err(Error::InvalidState), } } fn poll_ready(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll> { match self.state { ClientState::Connected(ref mut stream) => { Pin::new(stream).poll_ready(cx).map_err(|e| e.into()) } _ => Poll::Pending, } } fn poll_flush(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll> { match self.state { ClientState::Connected(ref mut stream) => { Pin::new(stream).poll_flush(cx).map_err(|e| e.into()) } _ => Poll::Pending, } } fn poll_close(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll> { match self.state { ClientState::Connected(ref mut stream) => { Pin::new(stream).poll_close(cx).map_err(|e| e.into()) } _ => Poll::Pending, } } }