xmpp-rs/src/happy_eyeballs.rs

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use std::mem;
use std::io::Error as IoError;
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use std::net::SocketAddr;
use std::collections::BTreeMap;
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use std::collections::VecDeque;
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use std::cell::RefCell;
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use futures::{Future, Poll, Async};
use tokio::net::{ConnectFuture, TcpStream};
use trust_dns_resolver::{IntoName, Name, ResolverFuture, error::ResolveError};
use trust_dns_resolver::lookup::SrvLookupFuture;
use trust_dns_resolver::lookup_ip::LookupIpFuture;
use trust_dns_resolver::system_conf;
use trust_dns_resolver::config::LookupIpStrategy;
use {Error, ConnecterError};
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enum State {
AwaitResolver(Box<Future<Item = ResolverFuture, Error = ResolveError> + Send>),
ResolveSrv(ResolverFuture, SrvLookupFuture),
ResolveTarget(ResolverFuture, LookupIpFuture, u16),
Connecting(Option<ResolverFuture>, Vec<RefCell<ConnectFuture>>),
Invalid,
}
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pub struct Connecter {
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fallback_port: u16,
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srv_domain: Option<Name>,
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domain: Name,
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state: State,
targets: VecDeque<(Name, u16)>,
error: Option<Error>,
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}
fn resolver_future() -> Result<Box<Future<Item = ResolverFuture, Error = ResolveError> + Send>, IoError> {
let (conf, mut opts) = system_conf::read_system_conf()?;
opts.ip_strategy = LookupIpStrategy::Ipv4AndIpv6;
Ok(ResolverFuture::new(conf, opts))
}
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impl Connecter {
pub fn from_lookup(domain: &str, srv: Option<&str>, fallback_port: u16) -> Result<Connecter, Error> {
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if let Ok(ip) = domain.parse() {
// use specified IP address, not domain name, skip the whole dns part
let connect =
RefCell::new(TcpStream::connect(&SocketAddr::new(ip, fallback_port)));
return Ok(Connecter {
fallback_port,
srv_domain: None,
domain: "nohost".into_name()
.map_err(ConnecterError::Dns)?,
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state: State::Connecting(None, vec![connect]),
targets: VecDeque::new(),
error: None,
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});
}
let state = State::AwaitResolver(resolver_future()?);
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let srv_domain = match srv {
Some(srv) =>
Some(format!("{}.{}.", srv, domain)
.into_name()
.map_err(ConnecterError::Dns)?
),
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None =>
None,
};
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Ok(Connecter {
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fallback_port,
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srv_domain,
domain: domain.into_name()
.map_err(ConnecterError::Dns)?,
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state,
targets: VecDeque::new(),
error: None,
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})
}
}
impl Future for Connecter {
type Item = TcpStream;
type Error = Error;
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fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
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let state = mem::replace(&mut self.state, State::Invalid);
match state {
State::AwaitResolver(mut resolver_future) => {
match resolver_future.poll().map_err(ConnecterError::Resolve)? {
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Async::NotReady => {
self.state = State::AwaitResolver(resolver_future);
Ok(Async::NotReady)
}
Async::Ready(resolver) => {
match &self.srv_domain {
&Some(ref srv_domain) => {
let srv_lookup = resolver.lookup_srv(srv_domain);
self.state = State::ResolveSrv(resolver, srv_lookup);
}
None => {
self.targets =
[(self.domain.clone(), self.fallback_port)].into_iter()
.cloned()
.collect();
self.state = State::Connecting(Some(resolver), vec![]);
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}
}
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self.poll()
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}
}
}
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State::ResolveSrv(resolver, mut srv_lookup) => {
match srv_lookup.poll() {
Ok(Async::NotReady) => {
self.state = State::ResolveSrv(resolver, srv_lookup);
Ok(Async::NotReady)
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}
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Ok(Async::Ready(srv_result)) => {
let mut srv_map: BTreeMap<_, _> =
srv_result.iter()
.map(|srv| (srv.priority(), (srv.target().clone(), srv.port())))
.collect();
let targets =
srv_map.into_iter()
.map(|(_, tp)| tp)
.collect();
self.targets = targets;
self.state = State::Connecting(Some(resolver), vec![]);
self.poll()
}
Err(_) => {
// ignore, fallback
self.targets =
[(self.domain.clone(), self.fallback_port)].into_iter()
.cloned()
.collect();
self.state = State::Connecting(Some(resolver), vec![]);
self.poll()
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}
}
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}
State::Connecting(resolver, mut connects) => {
if resolver.is_some() && connects.len() == 0 && self.targets.len() > 0 {
let resolver = resolver.unwrap();
let (host, port) = self.targets.pop_front().unwrap();
let ip_lookup = resolver.lookup_ip(host);
self.state = State::ResolveTarget(resolver, ip_lookup, port);
self.poll()
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} else if connects.len() > 0 {
let mut success = None;
connects.retain(|connect| {
match connect.borrow_mut().poll() {
Ok(Async::NotReady) => true,
Ok(Async::Ready(connection)) => {
success = Some(connection);
false
}
Err(e) => {
if self.error.is_none() {
self.error = Some(e.into());
}
false
},
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}
});
match success {
Some(connection) =>
Ok(Async::Ready(connection)),
None => {
self.state = State::Connecting(resolver, connects);
Ok(Async::NotReady)
},
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}
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} else {
// All targets tried
match self.error.take() {
None =>
Err(ConnecterError::AllFailed.into()),
Some(e) =>
Err(e),
}
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}
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}
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State::ResolveTarget(resolver, mut ip_lookup, port) => {
match ip_lookup.poll() {
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Ok(Async::NotReady) => {
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self.state = State::ResolveTarget(resolver, ip_lookup, port);
Ok(Async::NotReady)
}
Ok(Async::Ready(ip_result)) => {
let connects =
ip_result.iter()
.map(|ip| RefCell::new(TcpStream::connect(&SocketAddr::new(ip, port))))
.collect();
self.state = State::Connecting(Some(resolver), connects);
self.poll()
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}
Err(e) => {
if self.error.is_none() {
self.error = Some(ConnecterError::Resolve(e).into());
}
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// ignore, next…
self.state = State::Connecting(Some(resolver), vec![]);
self.poll()
}
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}
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}
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_ => panic!("")
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}
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}
}
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