935 lines
		
	
	
		
			30 KiB
		
	
	
	
		
			Rust
		
	
	
	
	
	
			
		
		
	
	
			935 lines
		
	
	
		
			30 KiB
		
	
	
	
		
			Rust
		
	
	
	
	
	
| use std::fmt;
 | |
| use std::io::{self, Write};
 | |
| use std::marker::PhantomData;
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| 
 | |
| use futures::{Poll, Async, AsyncSink, Stream, Sink, StartSend};
 | |
| use futures::task::Task;
 | |
| use tokio_io::{AsyncRead, AsyncWrite};
 | |
| use tokio_proto::streaming::pipeline::{Frame, Transport};
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| 
 | |
| use header::{ContentLength, TransferEncoding};
 | |
| use http::{self, Http1Transaction, DebugTruncate};
 | |
| use http::io::{Cursor, Buffered};
 | |
| use http::h1::{Encoder, Decoder};
 | |
| use version::HttpVersion;
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| 
 | |
| 
 | |
| /// This handles a connection, which will have been established over an
 | |
| /// `AsyncRead + AsyncWrite` (like a socket), and will likely include multiple
 | |
| /// `Transaction`s over HTTP.
 | |
| ///
 | |
| /// The connection will determine when a message begins and ends as well as
 | |
| /// determine if this  connection can be kept alive after the message,
 | |
| /// or if it is complete.
 | |
| pub struct Conn<I, B, T, K = KA> {
 | |
|     io: Buffered<I>,
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|     state: State<B, K>,
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|     _marker: PhantomData<T>
 | |
| }
 | |
| 
 | |
| impl<I, B, T, K> Conn<I, B, T, K>
 | |
| where I: AsyncRead + AsyncWrite,
 | |
|       B: AsRef<[u8]>,
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|       T: Http1Transaction,
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|       K: KeepAlive
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| {
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|     pub fn new(io: I, keep_alive: K) -> Conn<I, B, T, K> {
 | |
|         Conn {
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|             io: Buffered::new(io),
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|             state: State {
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|                 reading: Reading::Init,
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|                 writing: Writing::Init,
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|                 read_task: None,
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|                 keep_alive: keep_alive,
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|             },
 | |
|             _marker: PhantomData,
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn is_read_closed(&self) -> bool {
 | |
|         self.state.is_read_closed()
 | |
|     }
 | |
| 
 | |
|     #[allow(unused)]
 | |
|     fn is_write_closed(&self) -> bool {
 | |
|         self.state.is_write_closed()
 | |
|     }
 | |
| 
 | |
|     fn can_read_head(&self) -> bool {
 | |
|         match self.state.reading {
 | |
|             Reading::Init => true,
 | |
|             _ => false,
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn can_write_continue(&self) -> bool {
 | |
|         match self.state.writing {
 | |
|             Writing::Continue(..) => true,
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|             _ => false,
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|         }
 | |
|     }
 | |
| 
 | |
|     fn can_read_body(&self) -> bool {
 | |
|         match self.state.reading {
 | |
|             Reading::Body(..) => true,
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|             _ => false,
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn read_head(&mut self) -> Poll<Option<Frame<http::MessageHead<T::Incoming>, http::Chunk, ::Error>>, io::Error> {
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|         debug_assert!(self.can_read_head());
 | |
|         trace!("Conn::read_head");
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| 
 | |
|         let (version, head) = match self.io.parse::<T>() {
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|             Ok(Async::Ready(head)) => (head.version, head),
 | |
|             Ok(Async::NotReady) => return Ok(Async::NotReady),
 | |
|             Err(e) => {
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|                 let must_respond_with_error = !self.state.is_idle();
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|                 self.state.close_read();
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|                 self.io.consume_leading_lines();
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|                 let was_mid_parse = !self.io.read_buf().is_empty();
 | |
|                 return if was_mid_parse {
 | |
|                     debug!("parse error ({}) with bytes: {:?}", e, self.io.read_buf());
 | |
|                     Ok(Async::Ready(Some(Frame::Error { error: e })))
 | |
|                 } else if must_respond_with_error {
 | |
|                     trace!("parse error with 0 input, err = {:?}", e);
 | |
|                     Ok(Async::Ready(Some(Frame::Error { error: e })))
 | |
|                 } else {
 | |
|                     debug!("socket complete");
 | |
|                     Ok(Async::Ready(None))
 | |
|                 };
 | |
|             }
 | |
|         };
 | |
| 
 | |
|         match version {
 | |
|             HttpVersion::Http10 | HttpVersion::Http11 => {
 | |
|                 let decoder = match T::decoder(&head) {
 | |
|                     Ok(d) => d,
 | |
|                     Err(e) => {
 | |
|                         debug!("decoder error = {:?}", e);
 | |
|                         self.state.close_read();
 | |
|                         return Ok(Async::Ready(Some(Frame::Error { error: e })));
 | |
|                     }
 | |
|                 };
 | |
|                 self.state.busy();
 | |
|                 if head.expecting_continue() {
 | |
|                     let msg = b"HTTP/1.1 100 Continue\r\n\r\n";
 | |
|                     self.state.writing = Writing::Continue(Cursor::new(msg));
 | |
|                 }
 | |
|                 let wants_keep_alive = head.should_keep_alive();
 | |
|                 self.state.keep_alive &= wants_keep_alive;
 | |
|                 let (body, reading) = if decoder.is_eof() {
 | |
|                     (false, Reading::KeepAlive)
 | |
|                 } else {
 | |
|                     (true, Reading::Body(decoder))
 | |
|                 };
 | |
|                 self.state.reading = reading;
 | |
|                 Ok(Async::Ready(Some(Frame::Message { message: head, body: body })))
 | |
|             },
 | |
|             _ => {
 | |
|                 error!("unimplemented HTTP Version = {:?}", version);
 | |
|                 self.state.close_read();
 | |
|                 Ok(Async::Ready(Some(Frame::Error { error: ::Error::Version })))
 | |
|             }
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn read_body(&mut self) -> Poll<Option<http::Chunk>, io::Error> {
 | |
|         debug_assert!(self.can_read_body());
 | |
| 
 | |
|         trace!("Conn::read_body");
 | |
| 
 | |
|         let (reading, ret) = match self.state.reading {
 | |
|             Reading::Body(ref mut decoder) => {
 | |
|                 let slice = try_ready!(decoder.decode(&mut self.io));
 | |
|                 if !slice.is_empty() {
 | |
|                     return Ok(Async::Ready(Some(http::Chunk::from(slice))));
 | |
|                 } else if decoder.is_eof() {
 | |
|                     (Reading::KeepAlive, Ok(Async::Ready(None)))
 | |
|                 } else {
 | |
|                     (Reading::Closed, Ok(Async::Ready(None)))
 | |
|                 }
 | |
| 
 | |
|             },
 | |
|             Reading::Init | Reading::KeepAlive | Reading::Closed => unreachable!()
 | |
|         };
 | |
|         self.state.reading = reading;
 | |
|         ret
 | |
|     }
 | |
| 
 | |
|     fn maybe_park_read(&mut self) {
 | |
|         if !self.io.is_read_blocked() {
 | |
|             // the Io object is ready to read, which means it will never alert
 | |
|             // us that it is ready until we drain it. However, we're currently
 | |
|             // finished reading, so we need to park the task to be able to
 | |
|             // wake back up later when more reading should happen.
 | |
|             let park = self.state.read_task.as_ref()
 | |
|                 .map(|t| !t.will_notify_current())
 | |
|                 .unwrap_or(true);
 | |
|             if park {
 | |
|                 trace!("parking current task");
 | |
|                 self.state.read_task = Some(::futures::task::current());
 | |
|             }
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn maybe_notify(&mut self) {
 | |
|         // its possible that we returned NotReady from poll() without having
 | |
|         // exhausted the underlying Io. We would have done this when we
 | |
|         // determined we couldn't keep reading until we knew how writing
 | |
|         // would finish.
 | |
|         //
 | |
|         // When writing finishes, we need to wake the task up in case there
 | |
|         // is more reading that can be done, to start a new message.
 | |
|         match self.state.reading {
 | |
|             Reading::Body(..) |
 | |
|             Reading::KeepAlive => return,
 | |
|             Reading::Init |
 | |
|             Reading::Closed => (),
 | |
|         }
 | |
| 
 | |
|         match self.state.writing {
 | |
|             Writing::Continue(..) |
 | |
|             Writing::Body(..) |
 | |
|             Writing::Ending(..) => return,
 | |
|             Writing::Init |
 | |
|             Writing::KeepAlive |
 | |
|             Writing::Closed => (),
 | |
|         }
 | |
| 
 | |
|         if !self.io.is_read_blocked() {
 | |
|             if let Some(ref task) = self.state.read_task {
 | |
|                 task.notify();
 | |
|             }
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn try_keep_alive(&mut self) {
 | |
|         self.state.try_keep_alive();
 | |
|         self.maybe_notify();
 | |
|     }
 | |
| 
 | |
|     fn can_write_head(&self) -> bool {
 | |
|         match self.state.writing {
 | |
|             Writing::Continue(..) | Writing::Init => true,
 | |
|             _ => false
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn can_write_body(&self) -> bool {
 | |
|         match self.state.writing {
 | |
|             Writing::Body(..) => true,
 | |
|             Writing::Continue(..) |
 | |
|             Writing::Init |
 | |
|             Writing::Ending(..) |
 | |
|             Writing::KeepAlive |
 | |
|             Writing::Closed => false,
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn has_queued_body(&self) -> bool {
 | |
|         match self.state.writing {
 | |
|             Writing::Body(_, Some(_)) => true,
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|             _ => false,
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|         }
 | |
|     }
 | |
| 
 | |
|     fn write_head(&mut self, mut head: http::MessageHead<T::Outgoing>, body: bool) {
 | |
|         debug_assert!(self.can_write_head());
 | |
|         if !body {
 | |
|             head.headers.remove::<TransferEncoding>();
 | |
|             //TODO: check that this isn't a response to a HEAD
 | |
|             //request, which could include the content-length
 | |
|             //even if no body is to be written
 | |
|             if T::should_set_length(&head) {
 | |
|                 head.headers.set(ContentLength(0));
 | |
|             }
 | |
|         }
 | |
| 
 | |
|         let wants_keep_alive = head.should_keep_alive();
 | |
|         self.state.keep_alive &= wants_keep_alive;
 | |
|         let mut buf = self.io.write_buf_mut();
 | |
|         // if a 100-continue has started but not finished sending, tack the
 | |
|         // remainder on to the start of the buffer.
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|         if let Writing::Continue(ref pending) = self.state.writing {
 | |
|             if pending.has_started() {
 | |
|                 buf.extend_from_slice(pending.buf());
 | |
|             }
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|         }
 | |
|         let encoder = T::encode(head, buf);
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|         self.state.writing = if body {
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|             Writing::Body(encoder, None)
 | |
|         } else {
 | |
|             Writing::KeepAlive
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|         };
 | |
|     }
 | |
| 
 | |
|     fn write_body(&mut self, chunk: Option<B>) -> StartSend<Option<B>, io::Error> {
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|         debug_assert!(self.can_write_body());
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| 
 | |
|         if self.has_queued_body() {
 | |
|             try!(self.flush());
 | |
|         }
 | |
| 
 | |
|         let state = match self.state.writing {
 | |
|             Writing::Body(ref mut encoder, ref mut queued) => {
 | |
|                 if queued.is_some() {
 | |
|                     return Ok(AsyncSink::NotReady(chunk));
 | |
|                 }
 | |
|                 if let Some(chunk) = chunk {
 | |
|                     let mut cursor = Cursor::new(chunk);
 | |
|                     match encoder.encode(&mut self.io, cursor.buf()) {
 | |
|                         Ok(n) => {
 | |
|                             cursor.consume(n);
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| 
 | |
|                             if !cursor.is_written() {
 | |
|                                 trace!("Conn::start_send frame not written, queued");
 | |
|                                 *queued = Some(cursor);
 | |
|                             }
 | |
|                         },
 | |
|                         Err(e) => match e.kind() {
 | |
|                             io::ErrorKind::WouldBlock => {
 | |
|                                 trace!("Conn::start_send frame not written, queued");
 | |
|                                 *queued = Some(cursor);
 | |
|                             },
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|                             _ => return Err(e)
 | |
|                         }
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|                     }
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| 
 | |
|                     if encoder.is_eof() {
 | |
|                         Writing::KeepAlive
 | |
|                     } else {
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|                         return Ok(AsyncSink::Ready);
 | |
|                     }
 | |
|                 } else {
 | |
|                     // end of stream, that means we should try to eof
 | |
|                     match encoder.eof() {
 | |
|                         Ok(Some(end)) => Writing::Ending(Cursor::new(end)),
 | |
|                         Ok(None) => Writing::KeepAlive,
 | |
|                         Err(_not_eof) => Writing::Closed,
 | |
|                     }
 | |
|                 }
 | |
|             },
 | |
|             _ => unreachable!(),
 | |
|         };
 | |
|         self.state.writing = state;
 | |
|         Ok(AsyncSink::Ready)
 | |
|     }
 | |
| 
 | |
|     fn write_queued(&mut self) -> Poll<(), io::Error> {
 | |
|         trace!("Conn::write_queued()");
 | |
|         let state = match self.state.writing {
 | |
|             Writing::Continue(ref mut queued) => {
 | |
|                 let n = self.io.buffer(queued.buf());
 | |
|                 queued.consume(n);
 | |
|                 if queued.is_written() {
 | |
|                     Writing::Init
 | |
|                 } else {
 | |
|                     return Ok(Async::NotReady);
 | |
|                 }
 | |
|             }
 | |
|             Writing::Body(ref mut encoder, ref mut queued) => {
 | |
|                 let complete = if let Some(chunk) = queued.as_mut() {
 | |
|                     let n = try_nb!(encoder.encode(&mut self.io, chunk.buf()));
 | |
|                     chunk.consume(n);
 | |
|                     chunk.is_written()
 | |
|                 } else {
 | |
|                     true
 | |
|                 };
 | |
|                 trace!("Conn::write_queued complete = {}", complete);
 | |
|                 return if complete {
 | |
|                     *queued = None;
 | |
|                     Ok(Async::Ready(()))
 | |
|                 } else {
 | |
|                     Ok(Async::NotReady)
 | |
|                 };
 | |
|             },
 | |
|             Writing::Ending(ref mut ending) => {
 | |
|                 let n = self.io.buffer(ending.buf());
 | |
|                 ending.consume(n);
 | |
|                 if ending.is_written() {
 | |
|                     Writing::KeepAlive
 | |
|                 } else {
 | |
|                     return Ok(Async::NotReady);
 | |
|                 }
 | |
|             },
 | |
|             _ => return Ok(Async::Ready(())),
 | |
|         };
 | |
|         self.state.writing = state;
 | |
|         Ok(Async::Ready(()))
 | |
|     }
 | |
| 
 | |
|     fn flush(&mut self) -> Poll<(), io::Error> {
 | |
|         loop {
 | |
|             let queue_finished = try!(self.write_queued()).is_ready();
 | |
|             try_nb!(self.io.flush());
 | |
|             if queue_finished {
 | |
|                 break;
 | |
|             }
 | |
|         }
 | |
|         self.try_keep_alive();
 | |
|         trace!("flushed {:?}", self.state);
 | |
|         Ok(Async::Ready(()))
 | |
| 
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl<I, B, T, K> Stream for Conn<I, B, T, K>
 | |
| where I: AsyncRead + AsyncWrite,
 | |
|       B: AsRef<[u8]>,
 | |
|       T: Http1Transaction,
 | |
|       K: KeepAlive,
 | |
|       T::Outgoing: fmt::Debug {
 | |
|     type Item = Frame<http::MessageHead<T::Incoming>, http::Chunk, ::Error>;
 | |
|     type Error = io::Error;
 | |
| 
 | |
|     fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
 | |
|         trace!("Conn::poll()");
 | |
| 
 | |
|         loop {
 | |
|             if self.is_read_closed() {
 | |
|                 trace!("Conn::poll when closed");
 | |
|                 return Ok(Async::Ready(None));
 | |
|             } else if self.can_read_head() {
 | |
|                 return self.read_head();
 | |
|             } else if self.can_write_continue() {
 | |
|                 try_nb!(self.flush());
 | |
|             } else if self.can_read_body() {
 | |
|                 return self.read_body()
 | |
|                     .map(|async| async.map(|chunk| Some(Frame::Body {
 | |
|                         chunk: chunk
 | |
|                     })))
 | |
|                     .or_else(|err| {
 | |
|                         self.state.close_read();
 | |
|                         Ok(Async::Ready(Some(Frame::Error { error: err.into() })))
 | |
|                     });
 | |
|             } else {
 | |
|                 trace!("poll when on keep-alive");
 | |
|                 self.maybe_park_read();
 | |
|                 return Ok(Async::NotReady);
 | |
|             }
 | |
|         }
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl<I, B, T, K> Sink for Conn<I, B, T, K>
 | |
| where I: AsyncRead + AsyncWrite,
 | |
|       B: AsRef<[u8]>,
 | |
|       T: Http1Transaction,
 | |
|       K: KeepAlive,
 | |
|       T::Outgoing: fmt::Debug {
 | |
|     type SinkItem = Frame<http::MessageHead<T::Outgoing>, B, ::Error>;
 | |
|     type SinkError = io::Error;
 | |
| 
 | |
|     #[inline]
 | |
|     fn start_send(&mut self, frame: Self::SinkItem) -> StartSend<Self::SinkItem, Self::SinkError> {
 | |
|         trace!("Conn::start_send( frame={:?} )", DebugFrame(&frame));
 | |
| 
 | |
|         let frame: Self::SinkItem = match frame {
 | |
|             Frame::Message { message: head, body } => {
 | |
|                 if self.can_write_head() {
 | |
|                     self.write_head(head, body);
 | |
|                     return Ok(AsyncSink::Ready);
 | |
|                 } else {
 | |
|                     Frame::Message { message: head, body: body }
 | |
|                 }
 | |
|             },
 | |
|             Frame::Body { chunk } => {
 | |
|                 if self.can_write_body() {
 | |
|                     return self.write_body(chunk)
 | |
|                         .map(|async| {
 | |
|                             match async {
 | |
|                                 AsyncSink::Ready => AsyncSink::Ready,
 | |
|                                 AsyncSink::NotReady(chunk) => AsyncSink::NotReady(Frame::Body {
 | |
|                                     chunk: chunk,
 | |
|                                 })
 | |
|                             }
 | |
|                         });
 | |
|                 } else if chunk.is_none() {
 | |
|                     return Ok(AsyncSink::Ready);
 | |
|                 } else {
 | |
|                     Frame::Body { chunk: chunk }
 | |
|                 }
 | |
|             },
 | |
|             Frame::Error { error } => {
 | |
|                 debug!("received error, closing: {:?}", error);
 | |
|                 self.state.close();
 | |
|                 return Ok(AsyncSink::Ready);
 | |
|             },
 | |
|         };
 | |
| 
 | |
|         error!("writing illegal frame; state={:?}, frame={:?}", self.state.writing, DebugFrame(&frame));
 | |
|         Err(io::Error::new(io::ErrorKind::InvalidInput, "illegal frame"))
 | |
| 
 | |
|     }
 | |
| 
 | |
|     fn poll_complete(&mut self) -> Poll<(), Self::SinkError> {
 | |
|         trace!("Conn::poll_complete()");
 | |
|         let ret = self.flush();
 | |
|         trace!("Conn::flush = {:?}", ret);
 | |
|         ret
 | |
|     }
 | |
| 
 | |
|     fn close(&mut self) -> Poll<(), Self::SinkError> {
 | |
|         try_ready!(self.poll_complete());
 | |
|         self.io.io_mut().shutdown()
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl<I, B, T, K> Transport for Conn<I, B, T, K>
 | |
| where I: AsyncRead + AsyncWrite + 'static,
 | |
|       B: AsRef<[u8]> + 'static,
 | |
|       T: Http1Transaction + 'static,
 | |
|       K: KeepAlive + 'static,
 | |
|       T::Outgoing: fmt::Debug {}
 | |
| 
 | |
| impl<I, B: AsRef<[u8]>, T, K: fmt::Debug> fmt::Debug for Conn<I, B, T, K> {
 | |
|     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
 | |
|         f.debug_struct("Conn")
 | |
|             .field("state", &self.state)
 | |
|             .field("io", &self.io)
 | |
|             .finish()
 | |
|     }
 | |
| }
 | |
| 
 | |
| struct State<B, K> {
 | |
|     reading: Reading,
 | |
|     writing: Writing<B>,
 | |
|     read_task: Option<Task>,
 | |
|     keep_alive: K,
 | |
| }
 | |
| 
 | |
| #[derive(Debug)]
 | |
| enum Reading {
 | |
|     Init,
 | |
|     Body(Decoder),
 | |
|     KeepAlive,
 | |
|     Closed,
 | |
| }
 | |
| 
 | |
| enum Writing<B> {
 | |
|     Continue(Cursor<&'static [u8]>),
 | |
|     Init,
 | |
|     Body(Encoder, Option<Cursor<B>>),
 | |
|     Ending(Cursor<&'static [u8]>),
 | |
|     KeepAlive,
 | |
|     Closed,
 | |
| }
 | |
| 
 | |
| impl<B: AsRef<[u8]>, K: fmt::Debug> fmt::Debug for State<B, K> {
 | |
|     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
 | |
|         f.debug_struct("State")
 | |
|             .field("reading", &self.reading)
 | |
|             .field("writing", &self.writing)
 | |
|             .field("keep_alive", &self.keep_alive)
 | |
|             .field("read_task", &self.read_task)
 | |
|             .finish()
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl<B: AsRef<[u8]>> fmt::Debug for Writing<B> {
 | |
|     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
 | |
|         match *self {
 | |
|             Writing::Continue(ref buf) => f.debug_tuple("Continue")
 | |
|                 .field(buf)
 | |
|                 .finish(),
 | |
|             Writing::Init => f.write_str("Init"),
 | |
|             Writing::Body(ref enc, ref queued) => f.debug_tuple("Body")
 | |
|                 .field(enc)
 | |
|                 .field(queued)
 | |
|                 .finish(),
 | |
|             Writing::Ending(ref ending) => f.debug_tuple("Ending")
 | |
|                 .field(ending)
 | |
|                 .finish(),
 | |
|             Writing::KeepAlive => f.write_str("KeepAlive"),
 | |
|             Writing::Closed => f.write_str("Closed"),
 | |
|         }
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl ::std::ops::BitAndAssign<bool> for KA {
 | |
|     fn bitand_assign(&mut self, enabled: bool) {
 | |
|         if !enabled {
 | |
|             *self = KA::Disabled;
 | |
|         }
 | |
|     }
 | |
| }
 | |
| 
 | |
| pub trait KeepAlive: fmt::Debug + ::std::ops::BitAndAssign<bool> {
 | |
|     fn busy(&mut self);
 | |
|     fn disable(&mut self);
 | |
|     fn idle(&mut self);
 | |
|     fn status(&self) -> KA;
 | |
| }
 | |
| 
 | |
| #[derive(Clone, Copy, Debug)]
 | |
| pub enum KA {
 | |
|     Idle,
 | |
|     Busy,
 | |
|     Disabled,
 | |
| }
 | |
| 
 | |
| impl Default for KA {
 | |
|     fn default() -> KA {
 | |
|         KA::Busy
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl KeepAlive for KA {
 | |
|     fn idle(&mut self) {
 | |
|         *self = KA::Idle;
 | |
|     }
 | |
| 
 | |
|     fn busy(&mut self) {
 | |
|         *self = KA::Busy;
 | |
|     }
 | |
| 
 | |
|     fn disable(&mut self) {
 | |
|         *self = KA::Disabled;
 | |
|     }
 | |
| 
 | |
|     fn status(&self) -> KA {
 | |
|         *self
 | |
|     }
 | |
| }
 | |
| 
 | |
| impl<B, K: KeepAlive> State<B, K> {
 | |
|     fn close(&mut self) {
 | |
|         trace!("State::close()");
 | |
|         self.reading = Reading::Closed;
 | |
|         self.writing = Writing::Closed;
 | |
|         self.keep_alive.disable();
 | |
|     }
 | |
| 
 | |
|     fn close_read(&mut self) {
 | |
|         trace!("State::close_read()");
 | |
|         self.reading = Reading::Closed;
 | |
|         self.read_task = None;
 | |
|         self.keep_alive.disable();
 | |
|     }
 | |
| 
 | |
|     fn try_keep_alive(&mut self) {
 | |
|         match (&self.reading, &self.writing) {
 | |
|             (&Reading::KeepAlive, &Writing::KeepAlive) => {
 | |
|                 if let KA::Busy = self.keep_alive.status() {
 | |
|                     self.idle();
 | |
|                 } else {
 | |
|                     self.close();
 | |
|                 }
 | |
|             },
 | |
|             (&Reading::Closed, &Writing::KeepAlive) |
 | |
|             (&Reading::KeepAlive, &Writing::Closed) => {
 | |
|                 self.close()
 | |
|             }
 | |
|             _ => ()
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn is_idle(&self) -> bool {
 | |
|         if let KA::Idle = self.keep_alive.status() {
 | |
|             true
 | |
|         } else {
 | |
|             false
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     fn busy(&mut self) {
 | |
|         if let KA::Disabled = self.keep_alive.status() {
 | |
|             return;
 | |
|         }
 | |
|         self.keep_alive.busy();
 | |
|     }
 | |
| 
 | |
|     fn idle(&mut self) {
 | |
|         self.reading = Reading::Init;
 | |
|         self.writing = Writing::Init;
 | |
|         self.keep_alive.idle();
 | |
|     }
 | |
| 
 | |
|     fn is_read_closed(&self) -> bool {
 | |
|         match self.reading {
 | |
|             Reading::Closed => true,
 | |
|             _ => false
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[allow(unused)]
 | |
|     fn is_write_closed(&self) -> bool {
 | |
|         match self.writing {
 | |
|             Writing::Closed => true,
 | |
|             _ => false
 | |
|         }
 | |
|     }
 | |
| }
 | |
| 
 | |
| // The DebugFrame and DebugChunk are simple Debug implementations that allow
 | |
| // us to dump the frame into logs, without logging the entirety of the bytes.
 | |
| struct DebugFrame<'a, T: fmt::Debug + 'a, B: AsRef<[u8]> + 'a>(&'a Frame<http::MessageHead<T>, B, ::Error>);
 | |
| 
 | |
| impl<'a, T: fmt::Debug + 'a, B: AsRef<[u8]> + 'a> fmt::Debug for DebugFrame<'a, T, B> {
 | |
|     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
 | |
|         match *self.0 {
 | |
|             Frame::Message { ref message, ref body } => {
 | |
|                 f.debug_struct("Message")
 | |
|                     .field("message", message)
 | |
|                     .field("body", body)
 | |
|                     .finish()
 | |
|             },
 | |
|             Frame::Body { chunk: Some(ref chunk) } => {
 | |
|                 f.debug_struct("Body")
 | |
|                     .field("chunk", &DebugTruncate(chunk.as_ref()))
 | |
|                     .finish()
 | |
|             },
 | |
|             Frame::Body { chunk: None } => {
 | |
|                 f.debug_struct("Body")
 | |
|                     .field("chunk", &None::<()>)
 | |
|                     .finish()
 | |
|             },
 | |
|             Frame::Error { ref error } => {
 | |
|                 f.debug_struct("Error")
 | |
|                     .field("error", error)
 | |
|                     .finish()
 | |
|             }
 | |
|         }
 | |
|     }
 | |
| }
 | |
| 
 | |
| #[cfg(test)]
 | |
| mod tests {
 | |
|     use futures::{Async, Future, Stream, Sink};
 | |
|     use futures::future;
 | |
|     use tokio_proto::streaming::pipeline::Frame;
 | |
| 
 | |
|     use http::{self, MessageHead, ServerTransaction};
 | |
|     use http::h1::Encoder;
 | |
|     use mock::AsyncIo;
 | |
| 
 | |
|     use super::{Conn, Reading, Writing};
 | |
|     use ::uri::Uri;
 | |
| 
 | |
|     use std::str::FromStr;
 | |
| 
 | |
|     impl<T> Writing<T> {
 | |
|         fn is_queued(&self) -> bool {
 | |
|             match *self {
 | |
|                 Writing::Body(_, Some(_)) => true,
 | |
|                 _ => false,
 | |
|             }
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_init_read() {
 | |
|         let good_message = b"GET / HTTP/1.1\r\n\r\n".to_vec();
 | |
|         let len = good_message.len();
 | |
|         let io = AsyncIo::new_buf(good_message, len);
 | |
|         let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
| 
 | |
|         match conn.poll().unwrap() {
 | |
|             Async::Ready(Some(Frame::Message { message, body: false })) => {
 | |
|                 assert_eq!(message, MessageHead {
 | |
|                     subject: ::http::RequestLine(::Get, Uri::from_str("/").unwrap()),
 | |
|                     .. MessageHead::default()
 | |
|                 })
 | |
|             },
 | |
|             f => panic!("frame is not Frame::Message: {:?}", f)
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_parse_partial() {
 | |
|         let _: Result<(), ()> = future::lazy(|| {
 | |
|             let good_message = b"GET / HTTP/1.1\r\nHost: foo.bar\r\n\r\n".to_vec();
 | |
|             let io = AsyncIo::new_buf(good_message, 10);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             assert!(conn.poll().unwrap().is_not_ready());
 | |
|             conn.io.io_mut().block_in(50);
 | |
|             let async = conn.poll().unwrap();
 | |
|             assert!(async.is_ready());
 | |
|             match async {
 | |
|                 Async::Ready(Some(Frame::Message { .. })) => (),
 | |
|                 f => panic!("frame is not Message: {:?}", f),
 | |
|             }
 | |
|             Ok(())
 | |
|         }).wait();
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_init_read_eof_idle() {
 | |
|         let io = AsyncIo::new_buf(vec![], 1);
 | |
|         let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|         conn.state.idle();
 | |
| 
 | |
|         match conn.poll().unwrap() {
 | |
|             Async::Ready(None) => {},
 | |
|             other => panic!("frame is not None: {:?}", other)
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_init_read_eof_idle_partial_parse() {
 | |
|         let io = AsyncIo::new_buf(b"GET / HTTP/1.1".to_vec(), 100);
 | |
|         let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|         conn.state.idle();
 | |
| 
 | |
|         match conn.poll().unwrap() {
 | |
|             Async::Ready(Some(Frame::Error { .. })) => {},
 | |
|             other => panic!("frame is not Error: {:?}", other)
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_init_read_eof_busy() {
 | |
|         let io = AsyncIo::new_buf(vec![], 1);
 | |
|         let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|         conn.state.busy();
 | |
| 
 | |
|         match conn.poll().unwrap() {
 | |
|             Async::Ready(Some(Frame::Error { .. })) => {},
 | |
|             other => panic!("frame is not Error: {:?}", other)
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_closed_read() {
 | |
|         let io = AsyncIo::new_buf(vec![], 0);
 | |
|         let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|         conn.state.close();
 | |
| 
 | |
|         match conn.poll().unwrap() {
 | |
|             Async::Ready(None) => {},
 | |
|             other => panic!("frame is not None: {:?}", other)
 | |
|         }
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_body_write_length() {
 | |
|         let _: Result<(), ()> = future::lazy(|| {
 | |
|             let io = AsyncIo::new_buf(vec![], 0);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             let max = ::http::io::MAX_BUFFER_SIZE + 4096;
 | |
|             conn.state.writing = Writing::Body(Encoder::length((max * 2) as u64), None);
 | |
| 
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some(vec![b'a'; 1024 * 8].into()) }).unwrap().is_ready());
 | |
|             assert!(!conn.state.writing.is_queued());
 | |
| 
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some(vec![b'b'; max].into()) }).unwrap().is_ready());
 | |
|             assert!(conn.state.writing.is_queued());
 | |
| 
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some(vec![b'b'; 1024 * 8].into()) }).unwrap().is_not_ready());
 | |
| 
 | |
|             conn.io.io_mut().block_in(1024 * 3);
 | |
|             assert!(conn.poll_complete().unwrap().is_not_ready());
 | |
|             conn.io.io_mut().block_in(1024 * 3);
 | |
|             assert!(conn.poll_complete().unwrap().is_not_ready());
 | |
|             conn.io.io_mut().block_in(max * 2);
 | |
|             assert!(conn.poll_complete().unwrap().is_ready());
 | |
| 
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some(vec![b'c'; 1024 * 8].into()) }).unwrap().is_ready());
 | |
|             Ok(())
 | |
|         }).wait();
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_body_write_chunked() {
 | |
|         let _: Result<(), ()> = future::lazy(|| {
 | |
|             let io = AsyncIo::new_buf(vec![], 4096);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             conn.state.writing = Writing::Body(Encoder::chunked(), None);
 | |
| 
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some("headers".into()) }).unwrap().is_ready());
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some(vec![b'x'; 8192].into()) }).unwrap().is_ready());
 | |
|             Ok(())
 | |
|         }).wait();
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_body_flush() {
 | |
|         let _: Result<(), ()> = future::lazy(|| {
 | |
|             let io = AsyncIo::new_buf(vec![], 1024 * 1024 * 5);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             conn.state.writing = Writing::Body(Encoder::length(1024 * 1024), None);
 | |
|             assert!(conn.start_send(Frame::Body { chunk: Some(vec![b'a'; 1024 * 1024].into()) }).unwrap().is_ready());
 | |
|             assert!(conn.state.writing.is_queued());
 | |
|             assert!(conn.poll_complete().unwrap().is_ready());
 | |
|             assert!(!conn.state.writing.is_queued());
 | |
|             assert!(conn.io.io_mut().flushed());
 | |
| 
 | |
|             Ok(())
 | |
|         }).wait();
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_parking() {
 | |
|         use std::sync::Arc;
 | |
|         use futures::executor::Notify;
 | |
|         use futures::executor::NotifyHandle;
 | |
| 
 | |
|         struct Car {
 | |
|             permit: bool,
 | |
|         }
 | |
|         impl Notify for Car {
 | |
|             fn notify(&self, _id: usize) {
 | |
|                 assert!(self.permit, "unparked without permit");
 | |
|             }
 | |
|         }
 | |
| 
 | |
|         fn car(permit: bool) -> NotifyHandle {
 | |
|             Arc::new(Car {
 | |
|                 permit: permit,
 | |
|             }).into()
 | |
|         }
 | |
| 
 | |
|         // test that once writing is done, unparks
 | |
|         let f = future::lazy(|| {
 | |
|             let io = AsyncIo::new_buf(vec![], 4096);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             conn.state.reading = Reading::KeepAlive;
 | |
|             assert!(conn.poll().unwrap().is_not_ready());
 | |
| 
 | |
|             conn.state.writing = Writing::KeepAlive;
 | |
|             assert!(conn.poll_complete().unwrap().is_ready());
 | |
|             Ok::<(), ()>(())
 | |
|         });
 | |
|         ::futures::executor::spawn(f).poll_future_notify(&car(true), 0).unwrap();
 | |
| 
 | |
| 
 | |
|         // test that flushing when not waiting on read doesn't unpark
 | |
|         let f = future::lazy(|| {
 | |
|             let io = AsyncIo::new_buf(vec![], 4096);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             conn.state.writing = Writing::KeepAlive;
 | |
|             assert!(conn.poll_complete().unwrap().is_ready());
 | |
|             Ok::<(), ()>(())
 | |
|         });
 | |
|         ::futures::executor::spawn(f).poll_future_notify(&car(false), 0).unwrap();
 | |
| 
 | |
| 
 | |
|         // test that flushing and writing isn't done doesn't unpark
 | |
|         let f = future::lazy(|| {
 | |
|             let io = AsyncIo::new_buf(vec![], 4096);
 | |
|             let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|             conn.state.reading = Reading::KeepAlive;
 | |
|             assert!(conn.poll().unwrap().is_not_ready());
 | |
|             conn.state.writing = Writing::Body(Encoder::length(5_000), None);
 | |
|             assert!(conn.poll_complete().unwrap().is_ready());
 | |
|             Ok::<(), ()>(())
 | |
|         });
 | |
|         ::futures::executor::spawn(f).poll_future_notify(&car(false), 0).unwrap();
 | |
|     }
 | |
| 
 | |
|     #[test]
 | |
|     fn test_conn_closed_write() {
 | |
|         let io = AsyncIo::new_buf(vec![], 0);
 | |
|         let mut conn = Conn::<_, http::Chunk, ServerTransaction>::new(io, Default::default());
 | |
|         conn.state.close();
 | |
| 
 | |
|         match conn.start_send(Frame::Body { chunk: Some(b"foobar".to_vec().into()) }) {
 | |
|             Err(_e) => {},
 | |
|             other => panic!("did not return Err: {:?}", other)
 | |
|         }
 | |
| 
 | |
|         assert!(conn.state.is_write_closed());
 | |
|     }
 | |
| }
 |