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actix-web/src/h2.rs

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use std::{io, cmp, mem};
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use std::rc::Rc;
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use std::io::{Read, Write};
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use std::time::Duration;
use std::net::SocketAddr;
use std::collections::VecDeque;
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use actix::Arbiter;
use http::request::Parts;
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use http2::{Reason, RecvStream};
use http2::server::{Server, Handshake, Respond};
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use bytes::{Buf, Bytes};
use futures::{Async, Poll, Future, Stream};
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use tokio_io::{AsyncRead, AsyncWrite};
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use tokio_core::reactor::Timeout;
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use pipeline::Pipeline;
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use h2writer::H2Writer;
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use server::WorkerSettings;
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use channel::{HttpHandler, HttpHandlerTask};
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use error::PayloadError;
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use encoding::PayloadType;
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use httpcodes::HTTPNotFound;
use httprequest::HttpRequest;
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use payload::{Payload, PayloadWriter};
bitflags! {
struct Flags: u8 {
const DISCONNECTED = 0b0000_0010;
}
}
/// HTTP/2 Transport
pub(crate) struct Http2<T, H>
where T: AsyncRead + AsyncWrite + 'static, H: 'static
{
flags: Flags,
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settings: Rc<WorkerSettings<H>>,
addr: Option<SocketAddr>,
state: State<IoWrapper<T>>,
tasks: VecDeque<Entry>,
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keepalive_timer: Option<Timeout>,
}
enum State<T: AsyncRead + AsyncWrite> {
Handshake(Handshake<T, Bytes>),
Server(Server<T, Bytes>),
Empty,
}
impl<T, H> Http2<T, H>
where T: AsyncRead + AsyncWrite + 'static,
H: HttpHandler + 'static
{
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pub fn new(h: Rc<WorkerSettings<H>>, io: T, addr: Option<SocketAddr>, buf: Bytes) -> Self
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{
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Http2{ flags: Flags::empty(),
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settings: h,
addr: addr,
tasks: VecDeque::new(),
state: State::Handshake(
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Server::handshake(IoWrapper{unread: Some(buf), inner: io})),
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keepalive_timer: None,
}
}
pub fn poll(&mut self) -> Poll<(), ()> {
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// server
if let State::Server(ref mut server) = self.state {
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// keep-alive timer
if let Some(ref mut timeout) = self.keepalive_timer {
match timeout.poll() {
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Ok(Async::Ready(_)) => {
trace!("Keep-alive timeout, close connection");
return Ok(Async::Ready(()))
}
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Ok(Async::NotReady) => (),
Err(_) => unreachable!(),
}
}
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loop {
let mut not_ready = true;
// check in-flight connections
for item in &mut self.tasks {
// read payload
item.poll_payload();
if !item.flags.contains(EntryFlags::EOF) {
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match item.task.poll_io(&mut item.stream) {
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Ok(Async::Ready(ready)) => {
item.flags.insert(EntryFlags::EOF);
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if ready {
item.flags.insert(EntryFlags::FINISHED);
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}
not_ready = false;
},
Ok(Async::NotReady) => (),
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Err(err) => {
error!("Unhandled error: {}", err);
item.flags.insert(EntryFlags::EOF);
item.flags.insert(EntryFlags::ERROR);
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item.stream.reset(Reason::INTERNAL_ERROR);
}
}
} else if !item.flags.contains(EntryFlags::FINISHED) {
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match item.task.poll() {
Ok(Async::NotReady) => (),
Ok(Async::Ready(_)) => {
not_ready = false;
item.flags.insert(EntryFlags::FINISHED);
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},
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Err(err) => {
item.flags.insert(EntryFlags::ERROR);
item.flags.insert(EntryFlags::FINISHED);
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error!("Unhandled error: {}", err);
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}
}
}
}
// cleanup finished tasks
while !self.tasks.is_empty() {
if self.tasks[0].flags.contains(EntryFlags::EOF) &&
self.tasks[0].flags.contains(EntryFlags::FINISHED) ||
self.tasks[0].flags.contains(EntryFlags::ERROR)
{
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self.tasks.pop_front();
} else {
break
}
}
// get request
if !self.flags.contains(Flags::DISCONNECTED) {
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match server.poll() {
Ok(Async::Ready(None)) => {
not_ready = false;
self.flags.insert(Flags::DISCONNECTED);
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for entry in &mut self.tasks {
entry.task.disconnected()
}
},
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Ok(Async::Ready(Some((req, resp)))) => {
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not_ready = false;
let (parts, body) = req.into_parts();
// stop keepalive timer
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self.keepalive_timer.take();
self.tasks.push_back(
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Entry::new(parts, body, resp, self.addr, &self.settings));
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}
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Ok(Async::NotReady) => {
// start keep-alive timer
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if self.tasks.is_empty() {
if self.settings.keep_alive_enabled() {
let keep_alive = self.settings.keep_alive();
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if keep_alive > 0 && self.keepalive_timer.is_none() {
trace!("Start keep-alive timer");
let mut timeout = Timeout::new(
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Duration::new(keep_alive, 0),
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Arbiter::handle()).unwrap();
// register timeout
let _ = timeout.poll();
self.keepalive_timer = Some(timeout);
}
} else {
// keep-alive disable, drop connection
return Ok(Async::Ready(()))
}
} else {
// keep-alive unset, rely on operating system
return Ok(Async::NotReady)
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}
}
Err(err) => {
trace!("Connection error: {}", err);
self.flags.insert(Flags::DISCONNECTED);
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for entry in &mut self.tasks {
entry.task.disconnected()
}
self.keepalive_timer.take();
},
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}
}
if not_ready {
if self.tasks.is_empty() && self.flags.contains(Flags::DISCONNECTED) {
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return Ok(Async::Ready(()))
} else {
return Ok(Async::NotReady)
}
}
}
}
// handshake
self.state = if let State::Handshake(ref mut handshake) = self.state {
match handshake.poll() {
Ok(Async::Ready(srv)) => {
State::Server(srv)
},
Ok(Async::NotReady) =>
return Ok(Async::NotReady),
Err(err) => {
trace!("Error handling connection: {}", err);
return Err(())
}
}
} else {
mem::replace(&mut self.state, State::Empty)
};
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self.poll()
}
}
bitflags! {
struct EntryFlags: u8 {
const EOF = 0b0000_0001;
const REOF = 0b0000_0010;
const ERROR = 0b0000_0100;
const FINISHED = 0b0000_1000;
}
}
struct Entry {
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task: Box<HttpHandlerTask>,
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payload: PayloadType,
recv: RecvStream,
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stream: H2Writer,
capacity: usize,
flags: EntryFlags,
}
impl Entry {
fn new<H>(parts: Parts,
recv: RecvStream,
resp: Respond<Bytes>,
addr: Option<SocketAddr>,
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settings: &Rc<WorkerSettings<H>>) -> Entry
where H: HttpHandler + 'static
{
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// Payload and Content-Encoding
let (psender, payload) = Payload::new(false);
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let msg = settings.get_http_message();
msg.get_mut().uri = parts.uri;
msg.get_mut().method = parts.method;
msg.get_mut().version = parts.version;
msg.get_mut().headers = parts.headers;
msg.get_mut().payload = Some(payload);
msg.get_mut().addr = addr;
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let mut req = HttpRequest::from_message(msg);
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// Payload sender
let psender = PayloadType::new(req.headers(), psender);
// start request processing
let mut task = None;
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for h in settings.handlers().iter() {
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req = match h.handle(req) {
Ok(t) => {
task = Some(t);
break
},
Err(req) => req,
}
}
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Entry {task: task.unwrap_or_else(|| Pipeline::error(HTTPNotFound)),
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payload: psender,
recv: recv,
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stream: H2Writer::new(resp, settings.get_shared_bytes()),
flags: EntryFlags::empty(),
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capacity: 0,
}
}
fn poll_payload(&mut self) {
if !self.flags.contains(EntryFlags::REOF) {
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match self.recv.poll() {
Ok(Async::Ready(Some(chunk))) => {
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self.payload.feed_data(chunk);
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},
Ok(Async::Ready(None)) => {
self.flags.insert(EntryFlags::REOF);
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},
Ok(Async::NotReady) => (),
Err(err) => {
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self.payload.set_error(PayloadError::Http2(err))
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}
}
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let capacity = self.payload.capacity();
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if self.capacity != capacity {
self.capacity = capacity;
if let Err(err) = self.recv.release_capacity().release_capacity(capacity) {
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self.payload.set_error(PayloadError::Http2(err))
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}
}
}
}
}
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struct IoWrapper<T> {
unread: Option<Bytes>,
inner: T,
}
impl<T: Read> Read for IoWrapper<T> {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
if let Some(mut bytes) = self.unread.take() {
let size = cmp::min(buf.len(), bytes.len());
buf[..size].copy_from_slice(&bytes[..size]);
if bytes.len() > size {
bytes.split_to(size);
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self.unread = Some(bytes);
}
Ok(size)
} else {
self.inner.read(buf)
}
}
}
impl<T: Write> Write for IoWrapper<T> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.inner.write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.inner.flush()
}
}
impl<T: AsyncRead + 'static> AsyncRead for IoWrapper<T> {
unsafe fn prepare_uninitialized_buffer(&self, buf: &mut [u8]) -> bool {
self.inner.prepare_uninitialized_buffer(buf)
}
}
impl<T: AsyncWrite + 'static> AsyncWrite for IoWrapper<T> {
fn shutdown(&mut self) -> Poll<(), io::Error> {
self.inner.shutdown()
}
fn write_buf<B: Buf>(&mut self, buf: &mut B) -> Poll<usize, io::Error> {
self.inner.write_buf(buf)
}
}