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actix-web/actix-http/src/h1/dispatcher.rs

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use std::collections::VecDeque;
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use std::fmt::Debug;
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use std::mem;
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use std::time::Instant;
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use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_service::Service;
use actix_utils::cloneable::CloneableService;
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use bitflags::bitflags;
use futures::{Async, Future, Poll, Sink, Stream};
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use log::{debug, error, trace};
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use tokio_timer::Delay;
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use crate::body::{Body, BodySize, MessageBody, ResponseBody};
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use crate::config::ServiceConfig;
use crate::error::DispatchError;
use crate::error::{ParseError, PayloadError};
use crate::request::Request;
use crate::response::Response;
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use super::codec::Codec;
use super::payload::{Payload, PayloadSender, PayloadStatus, PayloadWriter};
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use super::{Message, MessageType};
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const MAX_PIPELINED_MESSAGES: usize = 16;
bitflags! {
pub struct Flags: u8 {
const STARTED = 0b0000_0001;
const KEEPALIVE_ENABLED = 0b0000_0010;
const KEEPALIVE = 0b0000_0100;
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const POLLED = 0b0000_1000;
const SHUTDOWN = 0b0010_0000;
const DISCONNECTED = 0b0100_0000;
const DROPPING = 0b1000_0000;
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}
}
/// Dispatcher for HTTP/1.1 protocol
pub struct Dispatcher<T, S: Service<Request = Request> + 'static, B: MessageBody>
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where
S::Error: Debug,
{
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inner: Option<InnerDispatcher<T, S, B>>,
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}
struct InnerDispatcher<T, S: Service<Request = Request> + 'static, B: MessageBody>
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where
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S::Error: Debug,
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{
service: CloneableService<S>,
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flags: Flags,
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framed: Framed<T, Codec>,
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error: Option<DispatchError>,
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config: ServiceConfig,
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state: State<S, B>,
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payload: Option<PayloadSender>,
messages: VecDeque<DispatcherMessage>,
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ka_expire: Instant,
ka_timer: Option<Delay>,
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}
enum DispatcherMessage {
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Item(Request),
Error(Response<()>),
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}
enum State<S: Service<Request = Request>, B: MessageBody> {
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None,
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ServiceCall(S::Future),
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SendPayload(ResponseBody<B>),
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}
impl<S: Service<Request = Request>, B: MessageBody> State<S, B> {
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fn is_empty(&self) -> bool {
if let State::None = self {
true
} else {
false
}
}
}
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impl<T, S, B> Dispatcher<T, S, B>
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where
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T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
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S::Error: Debug,
S::Response: Into<Response<B>>,
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B: MessageBody,
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{
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/// Create http/1 dispatcher.
pub fn new(stream: T, config: ServiceConfig, service: CloneableService<S>) -> Self {
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Dispatcher::with_timeout(
Framed::new(stream, Codec::new(config.clone())),
config,
None,
service,
)
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}
/// Create http/1 dispatcher with slow request timeout.
pub fn with_timeout(
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framed: Framed<T, Codec>,
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config: ServiceConfig,
timeout: Option<Delay>,
service: CloneableService<S>,
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) -> Self {
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let keepalive = config.keep_alive_enabled();
let flags = if keepalive {
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Flags::KEEPALIVE | Flags::KEEPALIVE_ENABLED
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} else {
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Flags::empty()
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};
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// keep-alive timer
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let (ka_expire, ka_timer) = if let Some(delay) = timeout {
(delay.deadline(), Some(delay))
} else if let Some(delay) = config.keep_alive_timer() {
(delay.deadline(), Some(delay))
} else {
(config.now(), None)
};
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Dispatcher {
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inner: Some(InnerDispatcher {
framed,
payload: None,
state: State::None,
error: None,
messages: VecDeque::new(),
service,
flags,
config,
ka_expire,
ka_timer,
}),
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}
}
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}
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impl<T, S, B> InnerDispatcher<T, S, B>
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where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
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S::Error: Debug,
S::Response: Into<Response<B>>,
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B: MessageBody,
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{
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fn can_read(&self) -> bool {
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if self.flags.contains(Flags::DISCONNECTED) {
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return false;
}
if let Some(ref info) = self.payload {
info.need_read() == PayloadStatus::Read
} else {
true
}
}
// if checked is set to true, delay disconnect until all tasks have finished.
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fn client_disconnected(&mut self) {
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self.flags.insert(Flags::DISCONNECTED);
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if let Some(mut payload) = self.payload.take() {
payload.set_error(PayloadError::Incomplete(None));
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}
}
/// Flush stream
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fn poll_flush(&mut self) -> Poll<bool, DispatchError> {
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if !self.framed.is_write_buf_empty() {
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match self.framed.poll_complete() {
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Ok(Async::NotReady) => Ok(Async::NotReady),
Err(err) => {
debug!("Error sending data: {}", err);
Err(err.into())
}
Ok(Async::Ready(_)) => {
// if payload is not consumed we can not use connection
if self.payload.is_some() && self.state.is_empty() {
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return Err(DispatchError::PayloadIsNotConsumed);
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}
Ok(Async::Ready(true))
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}
}
} else {
Ok(Async::Ready(false))
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}
}
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fn send_response(
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&mut self,
message: Response<()>,
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body: ResponseBody<B>,
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) -> Result<State<S, B>, DispatchError> {
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self.framed
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.force_send(Message::Item((message, body.length())))
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.map_err(|err| {
if let Some(mut payload) = self.payload.take() {
payload.set_error(PayloadError::Incomplete(None));
}
DispatchError::Io(err)
})?;
self.flags
.set(Flags::KEEPALIVE, self.framed.get_codec().keepalive());
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match body.length() {
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BodySize::None | BodySize::Empty => Ok(State::None),
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_ => Ok(State::SendPayload(body)),
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}
}
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fn poll_response(&mut self) -> Result<(), DispatchError> {
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let mut retry = self.can_read();
loop {
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let state = match mem::replace(&mut self.state, State::None) {
State::None => match self.messages.pop_front() {
Some(DispatcherMessage::Item(req)) => {
Some(self.handle_request(req)?)
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}
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Some(DispatcherMessage::Error(res)) => {
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self.send_response(res, ResponseBody::Other(Body::Empty))?;
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None
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}
None => None,
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},
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State::ServiceCall(mut fut) => match fut.poll() {
Ok(Async::Ready(res)) => {
let (res, body) = res.into().replace_body(());
Some(self.send_response(res, body)?)
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}
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Ok(Async::NotReady) => {
self.state = State::ServiceCall(fut);
None
}
Err(_e) => {
let res: Response = Response::InternalServerError().finish();
let (res, body) = res.replace_body(());
Some(self.send_response(res, body.into_body())?)
}
},
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State::SendPayload(mut stream) => {
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loop {
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if !self.framed.is_write_buf_full() {
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match stream
.poll_next()
.map_err(|_| DispatchError::Unknown)?
{
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Async::Ready(Some(item)) => {
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self.framed
.force_send(Message::Chunk(Some(item)))?;
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continue;
}
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Async::Ready(None) => {
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self.framed.force_send(Message::Chunk(None))?;
}
Async::NotReady => {
self.state = State::SendPayload(stream);
return Ok(());
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}
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}
} else {
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self.state = State::SendPayload(stream);
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return Ok(());
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}
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break;
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}
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None
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}
};
match state {
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Some(state) => self.state = state,
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None => {
// if read-backpressure is enabled and we consumed some data.
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// we may read more data and retry
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if !retry && self.can_read() && self.poll_request()? {
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retry = self.can_read();
continue;
}
break;
}
}
}
Ok(())
}
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fn handle_request(&mut self, req: Request) -> Result<State<S, B>, DispatchError> {
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let mut task = self.service.call(req);
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match task.poll() {
Ok(Async::Ready(res)) => {
let (res, body) = res.into().replace_body(());
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self.send_response(res, body)
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}
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Ok(Async::NotReady) => Ok(State::ServiceCall(task)),
Err(_e) => {
let res: Response = Response::InternalServerError().finish();
let (res, body) = res.replace_body(());
self.send_response(res, body.into_body())
}
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}
}
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/// Process one incoming requests
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pub(self) fn poll_request(&mut self) -> Result<bool, DispatchError> {
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// limit a mount of non processed requests
if self.messages.len() >= MAX_PIPELINED_MESSAGES {
return Ok(false);
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}
let mut updated = false;
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loop {
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match self.framed.poll() {
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Ok(Async::Ready(Some(msg))) => {
updated = true;
self.flags.insert(Flags::STARTED);
match msg {
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Message::Item(mut req) => {
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match self.framed.get_codec().message_type() {
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MessageType::Payload | MessageType::Stream => {
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let (ps, pl) = Payload::create(false);
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let (req1, _) =
req.replace_payload(crate::Payload::H1(pl));
req = req1;
self.payload = Some(ps);
}
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//MessageType::Stream => {
// self.unhandled = Some(req);
// return Ok(updated);
//}
_ => (),
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}
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// handle request early
if self.state.is_empty() {
self.state = self.handle_request(req)?;
} else {
self.messages.push_back(DispatcherMessage::Item(req));
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}
}
Message::Chunk(Some(chunk)) => {
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if let Some(ref mut payload) = self.payload {
payload.feed_data(chunk);
} else {
error!(
"Internal server error: unexpected payload chunk"
);
self.flags.insert(Flags::DISCONNECTED);
self.messages.push_back(DispatcherMessage::Error(
Response::InternalServerError().finish().drop_body(),
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));
self.error = Some(DispatchError::InternalError);
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break;
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}
}
Message::Chunk(None) => {
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if let Some(mut payload) = self.payload.take() {
payload.feed_eof();
} else {
error!("Internal server error: unexpected eof");
self.flags.insert(Flags::DISCONNECTED);
self.messages.push_back(DispatcherMessage::Error(
Response::InternalServerError().finish().drop_body(),
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));
self.error = Some(DispatchError::InternalError);
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break;
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}
}
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}
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}
Ok(Async::Ready(None)) => {
self.client_disconnected();
break;
}
Ok(Async::NotReady) => break,
Err(ParseError::Io(e)) => {
self.client_disconnected();
self.error = Some(DispatchError::Io(e));
break;
}
Err(e) => {
if let Some(mut payload) = self.payload.take() {
payload.set_error(PayloadError::EncodingCorrupted);
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}
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// Malformed requests should be responded with 400
self.messages.push_back(DispatcherMessage::Error(
Response::BadRequest().finish().drop_body(),
));
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self.flags.insert(Flags::DISCONNECTED);
self.error = Some(e.into());
break;
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}
}
}
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if self.ka_timer.is_some() && updated {
if let Some(expire) = self.config.keep_alive_expire() {
self.ka_expire = expire;
}
}
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Ok(updated)
}
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/// keep-alive timer
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fn poll_keepalive(&mut self) -> Result<(), DispatchError> {
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if self.ka_timer.is_none() {
// shutdown timeout
if self.flags.contains(Flags::SHUTDOWN) {
if let Some(interval) = self.config.client_disconnect_timer() {
self.ka_timer = Some(Delay::new(interval));
} else {
self.flags.insert(Flags::DISCONNECTED);
return Ok(());
}
} else {
return Ok(());
}
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}
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match self.ka_timer.as_mut().unwrap().poll().map_err(|e| {
error!("Timer error {:?}", e);
DispatchError::Unknown
})? {
Async::Ready(_) => {
// if we get timeout during shutdown, drop connection
if self.flags.contains(Flags::SHUTDOWN) {
return Err(DispatchError::DisconnectTimeout);
} else if self.ka_timer.as_mut().unwrap().deadline() >= self.ka_expire {
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// check for any outstanding tasks
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if self.state.is_empty() && self.framed.is_write_buf_empty() {
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if self.flags.contains(Flags::STARTED) {
trace!("Keep-alive timeout, close connection");
self.flags.insert(Flags::SHUTDOWN);
// start shutdown timer
if let Some(deadline) = self.config.client_disconnect_timer()
{
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if let Some(timer) = self.ka_timer.as_mut() {
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timer.reset(deadline);
let _ = timer.poll();
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}
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} else {
// no shutdown timeout, drop socket
self.flags.insert(Flags::DISCONNECTED);
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return Ok(());
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}
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} else {
// timeout on first request (slow request) return 408
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if !self.flags.contains(Flags::STARTED) {
trace!("Slow request timeout");
let _ = self.send_response(
Response::RequestTimeout().finish().drop_body(),
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ResponseBody::Other(Body::Empty),
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);
} else {
trace!("Keep-alive connection timeout");
}
self.flags.insert(Flags::STARTED | Flags::SHUTDOWN);
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self.state = State::None;
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}
} else if let Some(deadline) = self.config.keep_alive_expire() {
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if let Some(timer) = self.ka_timer.as_mut() {
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timer.reset(deadline);
let _ = timer.poll();
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}
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}
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} else if let Some(timer) = self.ka_timer.as_mut() {
timer.reset(self.ka_expire);
let _ = timer.poll();
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}
}
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Async::NotReady => (),
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}
Ok(())
}
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}
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impl<T, S, B> Future for Dispatcher<T, S, B>
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where
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T: AsyncRead + AsyncWrite,
S: Service<Request = Request>,
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S::Error: Debug,
S::Response: Into<Response<B>>,
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B: MessageBody,
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{
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type Item = ();
type Error = DispatchError;
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#[inline]
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let inner = self.inner.as_mut().unwrap();
if inner.flags.contains(Flags::SHUTDOWN) {
inner.poll_keepalive()?;
if inner.flags.contains(Flags::DISCONNECTED) {
Ok(Async::Ready(()))
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} else {
// try_ready!(inner.poll_flush());
match inner.framed.get_mut().shutdown()? {
Async::Ready(_) => Ok(Async::Ready(())),
Async::NotReady => Ok(Async::NotReady),
}
}
} else {
inner.poll_keepalive()?;
inner.poll_request()?;
loop {
inner.poll_response()?;
if let Async::Ready(false) = inner.poll_flush()? {
break;
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}
}
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if inner.flags.contains(Flags::DISCONNECTED) {
return Ok(Async::Ready(()));
}
// keep-alive and stream errors
if inner.state.is_empty() && inner.framed.is_write_buf_empty() {
if let Some(err) = inner.error.take() {
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Err(err)
}
// disconnect if keep-alive is not enabled
else if inner.flags.contains(Flags::STARTED)
&& !inner.flags.intersects(Flags::KEEPALIVE)
{
inner.flags.insert(Flags::SHUTDOWN);
self.poll()
}
// disconnect if shutdown
else if inner.flags.contains(Flags::SHUTDOWN) {
self.poll()
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} else {
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Ok(Async::NotReady)
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}
} else {
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Ok(Async::NotReady)
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}
}
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}
}
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#[cfg(test)]
mod tests {
use std::{cmp, io};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_service::IntoService;
use bytes::{Buf, Bytes};
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use futures::future::{lazy, ok};
use super::*;
use crate::error::Error;
struct Buffer {
buf: Bytes,
err: Option<io::Error>,
}
impl Buffer {
fn new(data: &'static str) -> Buffer {
Buffer {
buf: Bytes::from(data),
err: None,
}
}
}
impl AsyncRead for Buffer {}
impl io::Read for Buffer {
fn read(&mut self, dst: &mut [u8]) -> Result<usize, io::Error> {
if self.buf.is_empty() {
if self.err.is_some() {
Err(self.err.take().unwrap())
} else {
Err(io::Error::new(io::ErrorKind::WouldBlock, ""))
}
} else {
let size = cmp::min(self.buf.len(), dst.len());
let b = self.buf.split_to(size);
dst[..size].copy_from_slice(&b);
Ok(size)
}
}
}
impl io::Write for Buffer {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
Ok(buf.len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}
impl AsyncWrite for Buffer {
fn shutdown(&mut self) -> Poll<(), io::Error> {
Ok(Async::Ready(()))
}
fn write_buf<B: Buf>(&mut self, _: &mut B) -> Poll<usize, io::Error> {
Ok(Async::NotReady)
}
}
#[test]
fn test_req_parse_err() {
let mut sys = actix_rt::System::new("test");
let _ = sys.block_on(lazy(|| {
let buf = Buffer::new("GET /test HTTP/1\r\n\r\n");
let mut h1 = Dispatcher::new(
buf,
ServiceConfig::default(),
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CloneableService::new(
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(|_| ok::<_, Error>(Response::Ok().finish())).into_service(),
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),
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);
assert!(h1.poll().is_ok());
assert!(h1.poll().is_ok());
assert!(h1
.inner
.as_ref()
.unwrap()
.flags
.contains(Flags::DISCONNECTED));
// assert_eq!(h1.tasks.len(), 1);
ok::<_, ()>(())
}));
}
}