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dns.rs
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dns.rs
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//! The `Resolve` trait, support types, and some basic implementations.
//!
//! This module contains:
//!
//! - A [`GaiResolver`](dns::GaiResolver) that is the default resolver for the
//! `HttpConnector`.
//! - The [`Resolve`](dns::Resolve) trait and related types to build a custom
//! resolver for use with the `HttpConnector`.
use std::{fmt, io, vec};
use std::error::Error;
use std::net::{
IpAddr, Ipv4Addr, Ipv6Addr,
SocketAddr, ToSocketAddrs,
SocketAddrV4, SocketAddrV6,
};
use std::str::FromStr;
use std::sync::Arc;
use futures::{Async, Future, Poll};
use futures::future::{Executor, ExecuteError};
use futures::sync::oneshot;
use futures_cpupool::{Builder as CpuPoolBuilder};
use tokio_threadpool;
use self::sealed::GaiTask;
/// Resolve a hostname to a set of IP addresses.
pub trait Resolve {
/// The set of IP addresses to try to connect to.
type Addrs: Iterator<Item=IpAddr>;
/// A Future of the resolved set of addresses.
type Future: Future<Item=Self::Addrs, Error=io::Error>;
/// Resolve a hostname.
fn resolve(&self, name: Name) -> Self::Future;
}
/// A domain name to resolve into IP addresses.
#[derive(Clone, Hash, Eq, PartialEq)]
pub struct Name {
host: String,
}
/// A resolver using blocking `getaddrinfo` calls in a threadpool.
#[derive(Clone)]
pub struct GaiResolver {
executor: GaiExecutor,
}
/// An iterator of IP addresses returned from `getaddrinfo`.
pub struct GaiAddrs {
inner: IpAddrs,
}
/// A future to resole a name returned by `GaiResolver`.
pub struct GaiFuture {
rx: oneshot::SpawnHandle<IpAddrs, io::Error>,
}
impl Name {
pub(super) fn new(host: String) -> Name {
Name {
host,
}
}
/// View the hostname as a string slice.
pub fn as_str(&self) -> &str {
&self.host
}
}
impl fmt::Debug for Name {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Debug::fmt(&self.host, f)
}
}
impl fmt::Display for Name {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.host, f)
}
}
impl FromStr for Name {
type Err = InvalidNameError;
fn from_str(host: &str) -> Result<Self, Self::Err> {
// Possibly add validation later
Ok(Name::new(host.to_owned()))
}
}
/// Error indicating a given string was not a valid domain name.
#[derive(Debug)]
pub struct InvalidNameError(());
impl fmt::Display for InvalidNameError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
self.description().fmt(f)
}
}
impl Error for InvalidNameError {
fn description(&self) -> &str {
"Not a valid domain name"
}
}
impl GaiResolver {
/// Construct a new `GaiResolver`.
///
/// Takes number of DNS worker threads.
pub fn new(threads: usize) -> Self {
let pool = CpuPoolBuilder::new()
.name_prefix("hyper-dns")
.pool_size(threads)
.create();
GaiResolver::new_with_executor(pool)
}
/// Construct a new `GaiResolver` with a shared thread pool executor.
///
/// Takes an executor to run blocking `getaddrinfo` tasks on.
pub fn new_with_executor<E: 'static>(executor: E) -> Self
where
E: Executor<GaiTask> + Send + Sync,
{
GaiResolver {
executor: GaiExecutor(Arc::new(executor)),
}
}
}
impl Resolve for GaiResolver {
type Addrs = GaiAddrs;
type Future = GaiFuture;
fn resolve(&self, name: Name) -> Self::Future {
let blocking = GaiBlocking::new(name.host);
let rx = oneshot::spawn(blocking, &self.executor);
GaiFuture {
rx,
}
}
}
impl fmt::Debug for GaiResolver {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.pad("GaiResolver")
}
}
impl Future for GaiFuture {
type Item = GaiAddrs;
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let addrs = try_ready!(self.rx.poll());
Ok(Async::Ready(GaiAddrs {
inner: addrs,
}))
}
}
impl fmt::Debug for GaiFuture {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.pad("GaiFuture")
}
}
impl Iterator for GaiAddrs {
type Item = IpAddr;
fn next(&mut self) -> Option<Self::Item> {
self.inner.next().map(|sa| sa.ip())
}
}
impl fmt::Debug for GaiAddrs {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.pad("GaiAddrs")
}
}
#[derive(Clone)]
struct GaiExecutor(Arc<dyn Executor<GaiTask> + Send + Sync>);
impl Executor<oneshot::Execute<GaiBlocking>> for GaiExecutor {
fn execute(&self, future: oneshot::Execute<GaiBlocking>) -> Result<(), ExecuteError<oneshot::Execute<GaiBlocking>>> {
self.0.execute(GaiTask { work: future })
.map_err(|err| ExecuteError::new(err.kind(), err.into_future().work))
}
}
pub(super) struct GaiBlocking {
host: String,
}
impl GaiBlocking {
pub(super) fn new(host: String) -> GaiBlocking {
GaiBlocking { host }
}
}
impl Future for GaiBlocking {
type Item = IpAddrs;
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
debug!("resolving host={:?}", self.host);
(&*self.host, 0).to_socket_addrs()
.map(|i| Async::Ready(IpAddrs { iter: i }))
}
}
pub(super) struct IpAddrs {
iter: vec::IntoIter<SocketAddr>,
}
impl IpAddrs {
pub(super) fn new(addrs: Vec<SocketAddr>) -> Self {
IpAddrs { iter: addrs.into_iter() }
}
pub(super) fn try_parse(host: &str, port: u16) -> Option<IpAddrs> {
if let Ok(addr) = host.parse::<Ipv4Addr>() {
let addr = SocketAddrV4::new(addr, port);
return Some(IpAddrs { iter: vec![SocketAddr::V4(addr)].into_iter() })
}
let host = {
// trim_left/trim_right deprecated...
// TODO: use trim_start/trim_end in Rust 1.30
#[allow(deprecated)]
{
host
.trim_left_matches('[')
.trim_right_matches(']')
}
};
if let Ok(addr) = host.parse::<Ipv6Addr>() {
let addr = SocketAddrV6::new(addr, port, 0, 0);
return Some(IpAddrs { iter: vec![SocketAddr::V6(addr)].into_iter() })
}
None
}
pub(super) fn split_by_preference(self) -> (IpAddrs, IpAddrs) {
let preferring_v6 = self.iter
.as_slice()
.first()
.map(SocketAddr::is_ipv6)
.unwrap_or(false);
let (preferred, fallback) = self.iter
.partition::<Vec<_>, _>(|addr| addr.is_ipv6() == preferring_v6);
(IpAddrs::new(preferred), IpAddrs::new(fallback))
}
pub(super) fn is_empty(&self) -> bool {
self.iter.as_slice().is_empty()
}
pub(super) fn len(&self) -> usize {
self.iter.as_slice().len()
}
}
impl Iterator for IpAddrs {
type Item = SocketAddr;
#[inline]
fn next(&mut self) -> Option<SocketAddr> {
self.iter.next()
}
}
// Make this Future unnameable outside of this crate.
pub(super) mod sealed {
use super::*;
// Blocking task to be executed on a thread pool.
pub struct GaiTask {
pub(super) work: oneshot::Execute<GaiBlocking>
}
impl fmt::Debug for GaiTask {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.pad("GaiTask")
}
}
impl Future for GaiTask {
type Item = ();
type Error = ();
fn poll(&mut self) -> Poll<(), ()> {
self.work.poll()
}
}
}
/// A resolver using `getaddrinfo` calls via the `tokio_threadpool::blocking` API.
///
/// Unlike the `GaiResolver` this will not spawn dedicated threads, but only works when running on the
/// multi-threaded Tokio runtime.
#[derive(Clone, Debug)]
pub struct TokioThreadpoolGaiResolver(());
/// The future returned by `TokioThreadpoolGaiResolver`.
#[derive(Debug)]
pub struct TokioThreadpoolGaiFuture {
name: Name,
}
impl TokioThreadpoolGaiResolver {
/// Creates a new DNS resolver that will use tokio threadpool's blocking
/// feature.
///
/// **Requires** its futures to be run on the threadpool runtime.
pub fn new() -> Self {
TokioThreadpoolGaiResolver(())
}
}
impl Resolve for TokioThreadpoolGaiResolver {
type Addrs = GaiAddrs;
type Future = TokioThreadpoolGaiFuture;
fn resolve(&self, name: Name) -> TokioThreadpoolGaiFuture {
TokioThreadpoolGaiFuture { name }
}
}
impl Future for TokioThreadpoolGaiFuture {
type Item = GaiAddrs;
type Error = io::Error;
fn poll(&mut self) -> Poll<GaiAddrs, io::Error> {
match tokio_threadpool::blocking(|| (self.name.as_str(), 0).to_socket_addrs()) {
Ok(Async::Ready(Ok(iter))) => Ok(Async::Ready(GaiAddrs { inner: IpAddrs { iter } })),
Ok(Async::Ready(Err(e))) => Err(e),
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(e) => Err(io::Error::new(io::ErrorKind::Other, e)),
}
}
}
#[cfg(test)]
mod tests {
use std::net::{Ipv4Addr, Ipv6Addr};
use super::*;
#[test]
fn test_ip_addrs_split_by_preference() {
let v4_addr = (Ipv4Addr::new(127, 0, 0, 1), 80).into();
let v6_addr = (Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 1), 80).into();
let (mut preferred, mut fallback) =
IpAddrs { iter: vec![v4_addr, v6_addr].into_iter() }.split_by_preference();
assert!(preferred.next().unwrap().is_ipv4());
assert!(fallback.next().unwrap().is_ipv6());
let (mut preferred, mut fallback) =
IpAddrs { iter: vec![v6_addr, v4_addr].into_iter() }.split_by_preference();
assert!(preferred.next().unwrap().is_ipv6());
assert!(fallback.next().unwrap().is_ipv4());
}
#[test]
fn test_name_from_str() {
const DOMAIN: &str = "test.example.com";
let name = Name::from_str(DOMAIN).expect("Should be a valid domain");
assert_eq!(name.as_str(), DOMAIN);
assert_eq!(name.to_string(), DOMAIN);
}
#[test]
fn ip_addrs_try_parse_v6() {
let uri = ::http::Uri::from_static("http://[::1]:8080/");
let dst = super::super::Destination { uri };
let mut addrs = IpAddrs::try_parse(
dst.host(),
dst.port().expect("port")
).expect("try_parse");
let expected = "[::1]:8080".parse::<SocketAddr>().expect("expected");
assert_eq!(addrs.next(), Some(expected));
}
}