use std::env::args; use std::process::exit; use try_from::TryFrom; use futures::{Stream, Sink, future}; use tokio::runtime::current_thread::Runtime; use tokio_xmpp::Client; use minidom::Element; use xmpp_parsers::presence::{Presence, Type as PresenceType, Show as PresenceShow}; use xmpp_parsers::message::{Message, MessageType, Body}; use jid::Jid; fn main() { let args: Vec = args().collect(); if args.len() != 3 { println!("Usage: {} ", args[0]); exit(1); } let jid = &args[1]; let password = &args[2]; // tokio_core context let mut rt = Runtime::new().unwrap(); // Client instance let client = Client::new(jid, password).unwrap(); // Make the two interfaces for sending and receiving independent // of each other so we can move one into a closure. let (mut sink, stream) = client.split(); // Wrap sink in Option so that we can take() it for the send(self) // to consume and return it back when ready. let mut send = move |stanza| { sink.start_send(stanza).expect("start_send"); }; // Main loop, processes events let done = stream.for_each(|event| { if event.is_online() { println!("Online!"); let presence = make_presence(); send(presence); } else if let Some(message) = event.into_stanza() .and_then(|stanza| Message::try_from(stanza).ok()) { // This is a message we'll echo match (message.from, message.bodies.get("")) { (Some(from), Some(body)) => if message.type_ != MessageType::Error { let reply = make_reply(from, &body.0); send(reply); }, _ => (), } } Box::new(future::ok(())) }); // Start polling `done` match rt.block_on(done) { Ok(_) => (), Err(e) => { println!("Fatal: {}", e); () } } } // Construct a fn make_presence() -> Element { let mut presence = Presence::new(PresenceType::None); presence.show = PresenceShow::Chat; presence.statuses.insert(String::from("en"), String::from("Echoing messages.")); presence.into() } // Construct a chat fn make_reply(to: Jid, body: &str) -> Element { let mut message = Message::new(Some(to)); message.bodies.insert(String::new(), Body(body.to_owned())); message.into() }