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actix-web/src/client/connector.rs

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use std::cell::{Cell, RefCell};
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use std::collections::{HashMap, VecDeque};
use std::net::Shutdown;
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use std::rc::Rc;
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use std::time::{Duration, Instant};
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use std::{fmt, io, mem, time};
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use actix::actors::{Connect as ResolveConnect, Connector, ConnectorError};
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use actix::fut::WrapFuture;
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use actix::registry::ArbiterService;
use actix::{fut, Actor, ActorFuture, ActorResponse, Arbiter, AsyncContext, Context,
ContextFutureSpawner, Handler, Message, Recipient, Supervised, Syn};
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use futures::task::{current as current_task, Task};
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use futures::unsync::oneshot;
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use futures::{Async, Future, Poll};
use http::{Error as HttpError, HttpTryFrom, Uri};
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use tokio_core::reactor::Timeout;
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use tokio_io::{AsyncRead, AsyncWrite};
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#[cfg(feature = "alpn")]
use openssl::ssl::{Error as OpensslError, SslConnector, SslMethod};
#[cfg(feature = "alpn")]
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use tokio_openssl::SslConnectorExt;
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#[cfg(all(feature = "tls", not(feature = "alpn")))]
use native_tls::{Error as TlsError, TlsConnector};
#[cfg(all(feature = "tls", not(feature = "alpn")))]
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use tokio_tls::TlsConnectorExt;
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use server::IoStream;
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use {HAS_OPENSSL, HAS_TLS};
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/// Client connector usage stats
#[derive(Default, Message)]
pub struct ClientConnectorStats {
pub waits: usize,
pub reused: usize,
pub opened: usize,
pub closed: usize,
pub errors: usize,
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pub timeouts: usize,
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}
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#[derive(Debug)]
/// `Connect` type represents a message that can be sent to
/// `ClientConnector` with a connection request.
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pub struct Connect {
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pub(crate) uri: Uri,
pub(crate) wait_timeout: Duration,
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pub(crate) conn_timeout: Duration,
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}
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impl Connect {
/// Create `Connect` message for specified `Uri`
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pub fn new<U>(uri: U) -> Result<Connect, HttpError>
where
Uri: HttpTryFrom<U>,
{
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Ok(Connect {
uri: Uri::try_from(uri).map_err(|e| e.into())?,
wait_timeout: Duration::from_secs(5),
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conn_timeout: Duration::from_secs(1),
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})
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}
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/// Connection timeout, i.e. max time to connect to remote host.
/// Set to 1 second by default.
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pub fn conn_timeout(mut self, timeout: Duration) -> Self {
self.conn_timeout = timeout;
self
}
/// If connection pool limits are enabled, wait time indicates
/// max time to wait for a connection to become available.
/// Set to 5 seconds by default.
pub fn wait_timeout(mut self, timeout: Duration) -> Self {
self.wait_timeout = timeout;
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self
}
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}
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impl Message for Connect {
type Result = Result<Connection, ClientConnectorError>;
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}
/// Pause connection process for `ClientConnector`
///
/// All connect requests enter wait state during connector pause.
pub struct Pause {
time: Option<Duration>,
}
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impl Pause {
/// Create message with pause duration parameter
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pub fn new(time: Duration) -> Pause {
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Pause { time: Some(time) }
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}
}
impl Default for Pause {
fn default() -> Pause {
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Pause { time: None }
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}
}
impl Message for Pause {
type Result = ();
}
/// Resume connection process for `ClientConnector`
#[derive(Message)]
pub struct Resume;
/// A set of errors that can occur while connecting to an HTTP host
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#[derive(Fail, Debug)]
pub enum ClientConnectorError {
/// Invalid URL
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#[fail(display = "Invalid URL")]
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InvalidUrl,
/// SSL feature is not enabled
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#[fail(display = "SSL is not supported")]
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SslIsNotSupported,
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/// SSL error
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#[cfg(feature = "alpn")]
#[fail(display = "{}", _0)]
SslError(#[cause] OpensslError),
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/// SSL error
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#[cfg(all(feature = "tls", not(feature = "alpn")))]
#[fail(display = "{}", _0)]
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SslError(#[cause] TlsError),
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/// Connection error
#[fail(display = "{}", _0)]
Connector(#[cause] ConnectorError),
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/// Connection took too long
#[fail(display = "Timeout while establishing connection")]
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Timeout,
/// Connector has been disconnected
#[fail(display = "Internal error: connector has been disconnected")]
Disconnected,
/// Connection IO error
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#[fail(display = "{}", _0)]
IoError(#[cause] io::Error),
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}
impl From<ConnectorError> for ClientConnectorError {
fn from(err: ConnectorError) -> ClientConnectorError {
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match err {
ConnectorError::Timeout => ClientConnectorError::Timeout,
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_ => ClientConnectorError::Connector(err),
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}
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}
}
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struct Waiter {
tx: oneshot::Sender<Result<Connection, ClientConnectorError>>,
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wait: Instant,
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conn_timeout: Duration,
}
/// `ClientConnector` type is responsible for transport layer of a
/// client connection.
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pub struct ClientConnector {
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#[cfg(all(feature = "alpn"))]
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connector: SslConnector,
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#[cfg(all(feature = "tls", not(feature = "alpn")))]
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connector: TlsConnector,
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stats: ClientConnectorStats,
subscriber: Option<Recipient<Syn, ClientConnectorStats>>,
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pool: Rc<Pool>,
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pool_modified: Rc<Cell<bool>>,
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conn_lifetime: Duration,
conn_keep_alive: Duration,
limit: usize,
limit_per_host: usize,
acquired: usize,
acquired_per_host: HashMap<Key, usize>,
available: HashMap<Key, VecDeque<Conn>>,
to_close: Vec<Connection>,
waiters: HashMap<Key, VecDeque<Waiter>>,
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wait_timeout: Option<(Instant, Timeout)>,
paused: Option<Option<(Instant, Timeout)>>,
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}
impl Actor for ClientConnector {
type Context = Context<ClientConnector>;
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fn started(&mut self, ctx: &mut Self::Context) {
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self.collect_periodic(ctx);
ctx.spawn(Maintenance);
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}
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}
impl Supervised for ClientConnector {}
impl ArbiterService for ClientConnector {}
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impl Default for ClientConnector {
fn default() -> ClientConnector {
let _modified = Rc::new(Cell::new(false));
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#[cfg(all(feature = "alpn"))]
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{
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let builder = SslConnector::builder(SslMethod::tls()).unwrap();
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ClientConnector::with_connector(builder.build())
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}
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#[cfg(all(feature = "tls", not(feature = "alpn")))]
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{
let builder = TlsConnector::builder().unwrap();
ClientConnector {
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stats: ClientConnectorStats::default(),
subscriber: None,
pool: Rc::new(Pool::new(Rc::clone(&_modified))),
pool_modified: _modified,
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connector: builder.build().unwrap(),
conn_lifetime: Duration::from_secs(15),
conn_keep_alive: Duration::from_secs(75),
limit: 100,
limit_per_host: 0,
acquired: 0,
acquired_per_host: HashMap::new(),
available: HashMap::new(),
to_close: Vec::new(),
waiters: HashMap::new(),
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wait_timeout: None,
paused: None,
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}
}
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#[cfg(not(any(feature = "alpn", feature = "tls")))]
ClientConnector {
stats: ClientConnectorStats::default(),
subscriber: None,
pool: Rc::new(Pool::new(Rc::clone(&_modified))),
pool_modified: _modified,
conn_lifetime: Duration::from_secs(15),
conn_keep_alive: Duration::from_secs(75),
limit: 100,
limit_per_host: 0,
acquired: 0,
acquired_per_host: HashMap::new(),
available: HashMap::new(),
to_close: Vec::new(),
waiters: HashMap::new(),
wait_timeout: None,
paused: None,
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}
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}
}
impl ClientConnector {
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#[cfg(feature = "alpn")]
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/// Create `ClientConnector` actor with custom `SslConnector` instance.
///
/// By default `ClientConnector` uses very a simple SSL configuration.
/// With `with_connector` method it is possible to use a custom
/// `SslConnector` object.
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///
/// ```rust
/// # #![cfg(feature="alpn")]
/// # extern crate actix;
/// # extern crate actix_web;
/// # extern crate futures;
/// # use futures::Future;
/// # use std::io::Write;
/// extern crate openssl;
/// use actix::prelude::*;
/// use actix_web::client::{Connect, ClientConnector};
///
/// use openssl::ssl::{SslMethod, SslConnector};
///
/// fn main() {
/// let sys = System::new("test");
///
/// // Start `ClientConnector` with custom `SslConnector`
/// let ssl_conn = SslConnector::builder(SslMethod::tls()).unwrap().build();
/// let conn: Address<_> = ClientConnector::with_connector(ssl_conn).start();
///
/// Arbiter::handle().spawn({
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/// conn.send(
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/// Connect::new("https://www.rust-lang.org").unwrap()) // <- connect to host
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/// .map_err(|_| ())
/// .and_then(|res| {
/// if let Ok(mut stream) = res {
/// stream.write_all(b"GET / HTTP/1.0\r\n\r\n").unwrap();
/// }
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/// # Arbiter::system().do_send(actix::msgs::SystemExit(0));
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/// Ok(())
/// })
/// });
///
/// sys.run();
/// }
/// ```
pub fn with_connector(connector: SslConnector) -> ClientConnector {
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let modified = Rc::new(Cell::new(false));
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ClientConnector {
connector,
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stats: ClientConnectorStats::default(),
subscriber: None,
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pool: Rc::new(Pool::new(Rc::clone(&modified))),
pool_modified: modified,
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conn_lifetime: Duration::from_secs(75),
conn_keep_alive: Duration::from_secs(15),
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limit: 100,
limit_per_host: 0,
acquired: 0,
acquired_per_host: HashMap::new(),
available: HashMap::new(),
to_close: Vec::new(),
waiters: HashMap::new(),
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wait_timeout: None,
paused: None,
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}
}
/// Set total number of simultaneous connections.
///
/// If limit is 0, the connector has no limit.
/// The default limit size is 100.
pub fn limit(mut self, limit: usize) -> Self {
self.limit = limit;
self
}
/// Set total number of simultaneous connections to the same endpoint.
///
/// Endpoints are the same if they have equal (host, port, ssl) triplets.
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/// If limit is 0, the connector has no limit. The default limit size is 0.
pub fn limit_per_host(mut self, limit: usize) -> Self {
self.limit_per_host = limit;
self
}
/// Set keep-alive period for opened connection.
///
/// Keep-alive period is the period between connection usage. If
/// the delay between repeated usages of the same connection
/// exceeds this period, the connection is closed.
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pub fn conn_keep_alive(mut self, dur: Duration) -> Self {
self.conn_keep_alive = dur;
self
}
/// Set max lifetime period for connection.
///
/// Connection lifetime is max lifetime of any opened connection
/// until it is closed regardless of keep-alive period.
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pub fn conn_lifetime(mut self, dur: Duration) -> Self {
self.conn_lifetime = dur;
self
}
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/// Subscribe for connector stats. Only one subscriber is supported.
pub fn stats(mut self, subs: Recipient<Syn, ClientConnectorStats>) -> Self {
self.subscriber = Some(subs);
self
}
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fn acquire(&mut self, key: &Key) -> Acquire {
// check limits
if self.limit > 0 {
if self.acquired >= self.limit {
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return Acquire::NotAvailable;
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}
if self.limit_per_host > 0 {
if let Some(per_host) = self.acquired_per_host.get(key) {
if self.limit_per_host >= *per_host {
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return Acquire::NotAvailable;
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}
}
}
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} else if self.limit_per_host > 0 {
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if let Some(per_host) = self.acquired_per_host.get(key) {
if self.limit_per_host >= *per_host {
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return Acquire::NotAvailable;
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}
}
}
self.reserve(key);
// check if open connection is available
// cleanup stale connections at the same time
if let Some(ref mut connections) = self.available.get_mut(key) {
let now = Instant::now();
while let Some(conn) = connections.pop_back() {
// check if it still usable
if (now - conn.0) > self.conn_keep_alive
|| (now - conn.1.ts) > self.conn_lifetime
{
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self.stats.closed += 1;
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self.to_close.push(conn.1);
} else {
let mut conn = conn.1;
let mut buf = [0; 2];
match conn.stream().read(&mut buf) {
Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => (),
Ok(n) if n > 0 => {
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self.stats.closed += 1;
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self.to_close.push(conn);
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continue;
}
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Ok(_) | Err(_) => continue,
}
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return Acquire::Acquired(conn);
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}
}
}
Acquire::Available
}
fn reserve(&mut self, key: &Key) {
self.acquired += 1;
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let per_host = if let Some(per_host) = self.acquired_per_host.get(key) {
*per_host
} else {
0
};
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self.acquired_per_host
.insert(key.clone(), per_host + 1);
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}
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fn release_key(&mut self, key: &Key) {
self.acquired -= 1;
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let per_host = if let Some(per_host) = self.acquired_per_host.get(key) {
*per_host
} else {
return;
};
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if per_host > 1 {
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self.acquired_per_host
.insert(key.clone(), per_host - 1);
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} else {
self.acquired_per_host.remove(key);
}
}
fn collect(&mut self, periodic: bool) {
let now = Instant::now();
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if self.pool_modified.get() {
// collect half acquire keys
if let Some(keys) = self.pool.collect_keys() {
for key in keys {
self.release_key(&key);
}
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}
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// collect connections for close
if let Some(to_close) = self.pool.collect_close() {
for conn in to_close {
self.release_key(&conn.key);
self.to_close.push(conn);
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self.stats.closed += 1;
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}
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}
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// connection connections
if let Some(to_release) = self.pool.collect_release() {
for conn in to_release {
self.release_key(&conn.key);
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// check connection lifetime and the return to available pool
if (now - conn.ts) < self.conn_lifetime {
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self.available
.entry(conn.key.clone())
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.or_insert_with(VecDeque::new)
.push_back(Conn(Instant::now(), conn));
}
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}
}
}
// check keep-alive
for conns in self.available.values_mut() {
while !conns.is_empty() {
if (now > conns[0].0) && (now - conns[0].0) > self.conn_keep_alive
|| (now - conns[0].1.ts) > self.conn_lifetime
{
let conn = conns.pop_front().unwrap().1;
self.to_close.push(conn);
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self.stats.closed += 1;
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} else {
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break;
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}
}
}
// check connections for shutdown
if periodic {
let mut idx = 0;
while idx < self.to_close.len() {
match AsyncWrite::shutdown(&mut self.to_close[idx]) {
Ok(Async::NotReady) => idx += 1,
_ => {
self.to_close.swap_remove(idx);
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}
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}
}
}
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self.pool_modified.set(false);
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}
fn collect_periodic(&mut self, ctx: &mut Context<Self>) {
self.collect(true);
// re-schedule next collect period
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ctx.run_later(Duration::from_secs(1), |act, ctx| {
act.collect_periodic(ctx)
});
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// send stats
let stats = mem::replace(&mut self.stats, ClientConnectorStats::default());
if let Some(ref mut subscr) = self.subscriber {
let _ = subscr.do_send(stats);
}
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}
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fn collect_waiters(&mut self) {
let now = Instant::now();
let mut next = None;
for waiters in self.waiters.values_mut() {
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let mut idx = 0;
while idx < waiters.len() {
if waiters[idx].wait <= now {
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self.stats.timeouts += 1;
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let waiter = waiters.swap_remove_back(idx).unwrap();
let _ = waiter.tx.send(Err(ClientConnectorError::Timeout));
} else {
if let Some(n) = next {
if waiters[idx].wait < n {
next = Some(waiters[idx].wait);
}
} else {
next = Some(waiters[idx].wait);
}
idx += 1;
}
}
}
if next.is_some() {
self.install_wait_timeout(next.unwrap());
}
}
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fn install_wait_timeout(&mut self, time: Instant) {
if let Some(ref mut wait) = self.wait_timeout {
if wait.0 < time {
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return;
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}
}
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let mut timeout =
Timeout::new(time - Instant::now(), Arbiter::handle()).unwrap();
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let _ = timeout.poll();
self.wait_timeout = Some((time, timeout));
}
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fn wait_for(
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&mut self, key: Key, wait: Duration, conn_timeout: Duration,
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) -> oneshot::Receiver<Result<Connection, ClientConnectorError>> {
// connection is not available, wait
let (tx, rx) = oneshot::channel();
let wait = Instant::now() + wait;
self.install_wait_timeout(wait);
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let waiter = Waiter {
tx,
wait,
conn_timeout,
};
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self.waiters
.entry(key)
.or_insert_with(VecDeque::new)
.push_back(waiter);
rx
}
}
impl Handler<Pause> for ClientConnector {
type Result = ();
fn handle(&mut self, msg: Pause, _: &mut Self::Context) {
if let Some(time) = msg.time {
let when = Instant::now() + time;
let mut timeout = Timeout::new(time, Arbiter::handle()).unwrap();
let _ = timeout.poll();
self.paused = Some(Some((when, timeout)));
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} else if self.paused.is_none() {
self.paused = Some(None);
}
}
}
impl Handler<Resume> for ClientConnector {
type Result = ();
fn handle(&mut self, _: Resume, _: &mut Self::Context) {
self.paused.take();
}
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}
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impl Handler<Connect> for ClientConnector {
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type Result = ActorResponse<ClientConnector, Connection, ClientConnectorError>;
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fn handle(&mut self, msg: Connect, _: &mut Self::Context) -> Self::Result {
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if self.pool_modified.get() {
self.collect(false);
}
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let uri = &msg.uri;
let wait_timeout = msg.wait_timeout;
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let conn_timeout = msg.conn_timeout;
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// host name is required
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if uri.host().is_none() {
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return ActorResponse::reply(Err(ClientConnectorError::InvalidUrl));
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}
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// supported protocols
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let proto = match uri.scheme_part() {
Some(scheme) => match Protocol::from(scheme.as_str()) {
Some(proto) => proto,
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None => {
return ActorResponse::reply(Err(ClientConnectorError::InvalidUrl))
}
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},
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None => return ActorResponse::reply(Err(ClientConnectorError::InvalidUrl)),
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};
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// check ssl availability
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if proto.is_secure() && !HAS_OPENSSL && !HAS_TLS {
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return ActorResponse::reply(Err(ClientConnectorError::SslIsNotSupported));
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}
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// check if pool has task reference
if self.pool.task.borrow().is_none() {
*self.pool.task.borrow_mut() = Some(current_task());
}
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let host = uri.host().unwrap().to_owned();
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let port = uri.port().unwrap_or_else(|| proto.port());
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let key = Key {
host,
port,
ssl: proto.is_secure(),
};
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// check pause state
if self.paused.is_some() {
let rx = self.wait_for(key, wait_timeout, conn_timeout);
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self.stats.waits += 1;
return ActorResponse::async(
rx.map_err(|_| ClientConnectorError::Disconnected)
.into_actor(self)
.and_then(|res, _, _| match res {
Ok(conn) => fut::ok(conn),
Err(err) => fut::err(err),
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}),
);
}
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// acquire connection
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let pool = if proto.is_http() {
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match self.acquire(&key) {
Acquire::Acquired(mut conn) => {
// use existing connection
conn.pool = Some(AcquiredConn(key, Some(Rc::clone(&self.pool))));
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self.stats.reused += 1;
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return ActorResponse::async(fut::ok(conn));
}
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Acquire::NotAvailable => {
// connection is not available, wait
let rx = self.wait_for(key, wait_timeout, conn_timeout);
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self.stats.waits += 1;
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return ActorResponse::async(
rx.map_err(|_| ClientConnectorError::Disconnected)
.into_actor(self)
.and_then(|res, _, _| match res {
Ok(conn) => fut::ok(conn),
Err(err) => fut::err(err),
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}),
);
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}
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Acquire::Available => Some(Rc::clone(&self.pool)),
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}
} else {
None
};
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let conn = AcquiredConn(key, pool);
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{
ActorResponse::async(
Connector::from_registry()
.send(
ResolveConnect::host_and_port(&conn.0.host, port)
.timeout(conn_timeout),
)
.into_actor(self)
.map_err(|_, _, _| ClientConnectorError::Disconnected)
.and_then(move |res, act, _| {
#[cfg(feature = "alpn")]
match res {
Err(err) => {
act.stats.opened += 1;
fut::Either::B(fut::err(err.into()))
}
Ok(stream) => {
act.stats.opened += 1;
if proto.is_secure() {
fut::Either::A(
act.connector
.connect_async(&conn.0.host, stream)
.map_err(ClientConnectorError::SslError)
.map(|stream| {
Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)
})
.into_actor(act),
)
} else {
fut::Either::B(fut::ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)))
}
}
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}
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#[cfg(all(feature = "tls", not(feature = "alpn")))]
match res {
Err(err) => {
act.stats.opened += 1;
fut::Either::B(fut::err(err.into()))
}
Ok(stream) => {
act.stats.opened += 1;
if proto.is_secure() {
fut::Either::A(
act.connector
.connect_async(&conn.0.host, stream)
.map_err(ClientConnectorError::SslError)
.map(|stream| {
Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)
})
.into_actor(act),
)
} else {
fut::Either::B(fut::ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)))
}
}
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}
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#[cfg(not(any(feature = "alpn", feature = "tls")))]
match res {
Err(err) => {
act.stats.opened += 1;
fut::err(err.into())
}
Ok(stream) => {
act.stats.opened += 1;
if proto.is_secure() {
fut::err(ClientConnectorError::SslIsNotSupported)
} else {
fut::ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
))
}
}
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}
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}),
)
}
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}
}
struct Maintenance;
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impl fut::ActorFuture for Maintenance {
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type Item = ();
type Error = ();
type Actor = ClientConnector;
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fn poll(
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&mut self, act: &mut ClientConnector, ctx: &mut Context<ClientConnector>,
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) -> Poll<Self::Item, Self::Error> {
// check pause duration
let done = if let Some(Some(ref pause)) = act.paused {
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pause.0 <= Instant::now()
} else {
false
};
if done {
act.paused.take();
}
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// collect connections
if act.pool_modified.get() {
act.collect(false);
}
// collect wait timers
act.collect_waiters();
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// check waiters
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let tmp: &mut ClientConnector = unsafe { &mut *(act as *mut _) };
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for (key, waiters) in &mut tmp.waiters {
while let Some(waiter) = waiters.pop_front() {
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if waiter.tx.is_canceled() {
continue;
}
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match act.acquire(key) {
Acquire::Acquired(mut conn) => {
// use existing connection
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act.stats.reused += 1;
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conn.pool =
Some(AcquiredConn(key.clone(), Some(Rc::clone(&act.pool))));
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let _ = waiter.tx.send(Ok(conn));
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}
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Acquire::NotAvailable => {
waiters.push_front(waiter);
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break;
}
Acquire::Available => {
let conn = AcquiredConn(key.clone(), Some(Rc::clone(&act.pool)));
fut::WrapFuture::<ClientConnector>::actfuture(
Connector::from_registry().send(
ResolveConnect::host_and_port(&conn.0.host, conn.0.port)
.timeout(waiter.conn_timeout),
),
).map_err(|_, _, _| ())
.and_then(move |res, act, _| {
#[cfg_attr(rustfmt, rustfmt_skip)]
#[cfg(feature = "alpn")]
match res {
Err(err) => {
act.stats.errors += 1;
let _ = waiter.tx.send(Err(err.into()));
fut::Either::B(fut::err(()))
}
Ok(stream) => {
act.stats.opened += 1;
if conn.0.ssl {
fut::Either::A(
act.connector
.connect_async(&key.host, stream)
.then(move |res| {
match res {
Err(e) => {
let _ = waiter.tx.send(
Err(ClientConnectorError::SslError(e)));
}
Ok(stream) => {
let _ = waiter.tx.send(
Ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)),
);
}
}
Ok(())
})
.actfuture(),
)
} else {
let _ = waiter.tx.send(Ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)));
fut::Either::B(fut::ok(()))
}
}
}
#[cfg_attr(rustfmt, rustfmt_skip)]
#[cfg(all(feature = "tls", not(feature = "alpn")))]
match res {
Err(err) => {
act.stats.errors += 1;
let _ = waiter.tx.send(Err(err.into()));
fut::Either::B(fut::err(()))
}
Ok(stream) => {
act.stats.opened += 1;
if conn.0.ssl {
fut::Either::A(
act.connector
.connect_async(&conn.0.host, stream)
.then(|res| {
match res {
Err(e) => {
let _ = waiter.tx.send(Err(
ClientConnectorError::SslError(e),
));
}
Ok(stream) => {
let _ = waiter.tx.send(
Ok(Connection::new(
conn.0.clone(), Some(conn),
Box::new(stream),
)),
);
}
}
Ok(())
})
.into_actor(act),
)
} else {
let _ = waiter.tx.send(Ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)));
fut::Either::B(fut::ok(()))
}
}
}
#[cfg_attr(rustfmt, rustfmt_skip)]
#[cfg(not(any(feature = "alpn", feature = "tls")))]
match res {
Err(err) => {
act.stats.errors += 1;
let _ = waiter.tx.send(Err(err.into()));
fut::err(())
}
Ok(stream) => {
act.stats.opened += 1;
if conn.0.ssl {
let _ = waiter.tx.send(Err(ClientConnectorError::SslIsNotSupported));
} else {
let _ = waiter.tx.send(Ok(Connection::new(
conn.0.clone(),
Some(conn),
Box::new(stream),
)));
};
fut::ok(())
}
}
})
.spawn(ctx);
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}
}
}
}
Ok(Async::NotReady)
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}
}
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#[derive(PartialEq, Hash, Debug, Clone, Copy)]
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enum Protocol {
Http,
Https,
Ws,
Wss,
}
impl Protocol {
fn from(s: &str) -> Option<Protocol> {
match s {
"http" => Some(Protocol::Http),
"https" => Some(Protocol::Https),
"ws" => Some(Protocol::Ws),
"wss" => Some(Protocol::Wss),
_ => None,
}
}
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fn is_http(&self) -> bool {
match *self {
Protocol::Https | Protocol::Http => true,
_ => false,
}
}
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fn is_secure(&self) -> bool {
match *self {
Protocol::Https | Protocol::Wss => true,
_ => false,
}
}
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fn port(&self) -> u16 {
match *self {
Protocol::Http | Protocol::Ws => 80,
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Protocol::Https | Protocol::Wss => 443,
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}
}
}
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#[derive(Hash, Eq, PartialEq, Clone, Debug)]
struct Key {
host: String,
port: u16,
ssl: bool,
}
impl Key {
fn empty() -> Key {
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Key {
host: String::new(),
port: 0,
ssl: false,
}
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}
}
#[derive(Debug)]
struct Conn(Instant, Connection);
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enum Acquire {
Acquired(Connection),
Available,
NotAvailable,
}
struct AcquiredConn(Key, Option<Rc<Pool>>);
impl AcquiredConn {
fn close(&mut self, conn: Connection) {
if let Some(pool) = self.1.take() {
pool.close(conn);
}
}
fn release(&mut self, conn: Connection) {
if let Some(pool) = self.1.take() {
pool.release(conn);
}
}
}
impl Drop for AcquiredConn {
fn drop(&mut self) {
if let Some(pool) = self.1.take() {
pool.release_key(self.0.clone());
}
}
}
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pub struct Pool {
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keys: RefCell<Vec<Key>>,
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to_close: RefCell<Vec<Connection>>,
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to_release: RefCell<Vec<Connection>>,
task: RefCell<Option<Task>>,
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modified: Rc<Cell<bool>>,
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}
impl Pool {
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fn new(modified: Rc<Cell<bool>>) -> Pool {
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Pool {
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modified,
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keys: RefCell::new(Vec::new()),
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to_close: RefCell::new(Vec::new()),
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to_release: RefCell::new(Vec::new()),
task: RefCell::new(None),
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}
}
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fn collect_keys(&self) -> Option<Vec<Key>> {
if self.keys.borrow().is_empty() {
None
} else {
Some(mem::replace(&mut *self.keys.borrow_mut(), Vec::new()))
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}
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}
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fn collect_close(&self) -> Option<Vec<Connection>> {
if self.to_close.borrow().is_empty() {
None
} else {
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Some(mem::replace(
&mut *self.to_close.borrow_mut(),
Vec::new(),
))
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}
}
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fn collect_release(&self) -> Option<Vec<Connection>> {
if self.to_release.borrow().is_empty() {
None
} else {
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Some(mem::replace(
&mut *self.to_release.borrow_mut(),
Vec::new(),
))
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}
}
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fn close(&self, conn: Connection) {
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self.modified.set(true);
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self.to_close.borrow_mut().push(conn);
if let Some(ref task) = *self.task.borrow() {
task.notify()
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}
}
fn release(&self, conn: Connection) {
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self.modified.set(true);
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self.to_release.borrow_mut().push(conn);
if let Some(ref task) = *self.task.borrow() {
task.notify()
}
}
fn release_key(&self, key: Key) {
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self.modified.set(true);
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self.keys.borrow_mut().push(key);
if let Some(ref task) = *self.task.borrow() {
task.notify()
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}
}
}
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pub struct Connection {
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key: Key,
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stream: Box<IoStream>,
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pool: Option<AcquiredConn>,
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ts: Instant,
}
impl fmt::Debug for Connection {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "Connection {}:{}", self.key.host, self.key.port)
}
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}
impl Connection {
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fn new(key: Key, pool: Option<AcquiredConn>, stream: Box<IoStream>) -> Self {
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Connection {
key,
stream,
pool,
ts: Instant::now(),
}
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}
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pub fn stream(&mut self) -> &mut IoStream {
&mut *self.stream
}
pub fn from_stream<T: IoStream>(io: T) -> Connection {
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Connection::new(Key::empty(), None, Box::new(io))
}
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pub fn close(mut self) {
if let Some(mut pool) = self.pool.take() {
pool.close(self)
}
}
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pub fn release(mut self) {
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if let Some(mut pool) = self.pool.take() {
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pool.release(self)
}
}
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}
impl IoStream for Connection {
fn shutdown(&mut self, how: Shutdown) -> io::Result<()> {
IoStream::shutdown(&mut *self.stream, how)
}
#[inline]
fn set_nodelay(&mut self, nodelay: bool) -> io::Result<()> {
IoStream::set_nodelay(&mut *self.stream, nodelay)
}
#[inline]
fn set_linger(&mut self, dur: Option<time::Duration>) -> io::Result<()> {
IoStream::set_linger(&mut *self.stream, dur)
}
}
impl io::Read for Connection {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
self.stream.read(buf)
}
}
impl AsyncRead for Connection {}
impl io::Write for Connection {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.stream.write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.stream.flush()
}
}
impl AsyncWrite for Connection {
fn shutdown(&mut self) -> Poll<(), io::Error> {
self.stream.shutdown()
}
}