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actix-web/src/client/writer.rs

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#![cfg_attr(feature = "cargo-clippy", allow(redundant_field_names))]
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use std::io::{self, Write};
use std::cell::RefCell;
use std::fmt::Write as FmtWrite;
use time::{self, Duration};
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use bytes::{BytesMut, BufMut};
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use futures::{Async, Poll};
use tokio_io::AsyncWrite;
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use http::{Version, HttpTryFrom};
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use http::header::{HeaderValue, DATE,
CONNECTION, CONTENT_ENCODING, CONTENT_LENGTH, TRANSFER_ENCODING};
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use flate2::Compression;
use flate2::write::{GzEncoder, DeflateEncoder};
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#[cfg(feature="brotli")]
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use brotli2::write::BrotliEncoder;
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use body::{Body, Binary};
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use header::ContentEncoding;
use server::WriterState;
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use server::shared::SharedBytes;
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use server::encoding::{ContentEncoder, TransferEncoding};
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use client::ClientRequest;
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const AVERAGE_HEADER_SIZE: usize = 30;
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bitflags! {
struct Flags: u8 {
const STARTED = 0b0000_0001;
const UPGRADE = 0b0000_0010;
const KEEPALIVE = 0b0000_0100;
const DISCONNECTED = 0b0000_1000;
}
}
pub(crate) struct HttpClientWriter {
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flags: Flags,
written: u64,
headers_size: u32,
buffer: SharedBytes,
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buffer_capacity: usize,
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encoder: ContentEncoder,
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}
impl HttpClientWriter {
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pub fn new(buffer: SharedBytes) -> HttpClientWriter {
let encoder = ContentEncoder::Identity(TransferEncoding::eof(buffer.clone()));
HttpClientWriter {
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flags: Flags::empty(),
written: 0,
headers_size: 0,
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buffer_capacity: 0,
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buffer,
encoder,
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}
}
pub fn disconnected(&mut self) {
self.buffer.take();
}
// pub fn keepalive(&self) -> bool {
// self.flags.contains(Flags::KEEPALIVE) && !self.flags.contains(Flags::UPGRADE)
// }
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fn write_to_stream<T: AsyncWrite>(&mut self, stream: &mut T) -> io::Result<WriterState> {
while !self.buffer.is_empty() {
match stream.write(self.buffer.as_ref()) {
Ok(0) => {
self.disconnected();
return Ok(WriterState::Done);
},
Ok(n) => {
let _ = self.buffer.split_to(n);
},
Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
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if self.buffer.len() > self.buffer_capacity {
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return Ok(WriterState::Pause)
} else {
return Ok(WriterState::Done)
}
}
Err(err) => return Err(err),
}
}
Ok(WriterState::Done)
}
}
impl HttpClientWriter {
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pub fn start(&mut self, msg: &mut ClientRequest) -> io::Result<()> {
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// prepare task
self.flags.insert(Flags::STARTED);
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self.encoder = content_encoder(self.buffer.clone(), msg);
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if msg.upgrade() {
self.flags.insert(Flags::UPGRADE);
}
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// render message
{
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// status line
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writeln!(self.buffer, "{} {} {:?}\r",
msg.method(),
msg.uri().path_and_query().map(|u| u.as_str()).unwrap_or("/"),
msg.version())?;
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// write headers
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let mut buffer = self.buffer.get_mut();
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if let Body::Binary(ref bytes) = *msg.body() {
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buffer.reserve(msg.headers().len() * AVERAGE_HEADER_SIZE + bytes.len());
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} else {
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buffer.reserve(msg.headers().len() * AVERAGE_HEADER_SIZE);
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}
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for (key, value) in msg.headers() {
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let v = value.as_ref();
let k = key.as_str().as_bytes();
buffer.reserve(k.len() + v.len() + 4);
buffer.put_slice(k);
buffer.put_slice(b": ");
buffer.put_slice(v);
buffer.put_slice(b"\r\n");
}
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// set date header
if !msg.headers().contains_key(DATE) {
buffer.extend_from_slice(b"date: ");
set_date(&mut buffer);
buffer.extend_from_slice(b"\r\n\r\n");
} else {
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buffer.extend_from_slice(b"\r\n");
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}
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self.headers_size = buffer.len() as u32;
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if msg.body().is_binary() {
if let Body::Binary(bytes) = msg.replace_body(Body::Empty) {
self.written += bytes.len() as u64;
self.encoder.write(bytes)?;
}
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} else {
self.buffer_capacity = msg.write_buffer_capacity();
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}
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}
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Ok(())
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}
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pub fn write(&mut self, payload: Binary) -> io::Result<WriterState> {
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self.written += payload.len() as u64;
if !self.flags.contains(Flags::DISCONNECTED) {
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if self.flags.contains(Flags::UPGRADE) {
self.buffer.extend(payload);
} else {
self.encoder.write(payload)?;
}
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}
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if self.buffer.len() > self.buffer_capacity {
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Ok(WriterState::Pause)
} else {
Ok(WriterState::Done)
}
}
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pub fn write_eof(&mut self) -> io::Result<()> {
self.encoder.write_eof()?;
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if self.encoder.is_eof() {
Ok(())
} else {
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Err(io::Error::new(io::ErrorKind::Other,
"Last payload item, but eof is not reached"))
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}
}
#[inline]
pub fn poll_completed<T: AsyncWrite>(&mut self, stream: &mut T, shutdown: bool)
-> Poll<(), io::Error>
{
match self.write_to_stream(stream) {
Ok(WriterState::Done) => {
if shutdown {
stream.shutdown()
} else {
Ok(Async::Ready(()))
}
},
Ok(WriterState::Pause) => Ok(Async::NotReady),
Err(err) => Err(err)
}
}
}
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fn content_encoder(buf: SharedBytes, req: &mut ClientRequest) -> ContentEncoder {
let version = req.version();
let mut body = req.replace_body(Body::Empty);
let mut encoding = req.content_encoding();
let transfer = match body {
Body::Empty => {
req.headers_mut().remove(CONTENT_LENGTH);
TransferEncoding::length(0, buf)
},
Body::Binary(ref mut bytes) => {
if encoding.is_compression() {
let tmp = SharedBytes::default();
let transfer = TransferEncoding::eof(tmp.clone());
let mut enc = match encoding {
ContentEncoding::Deflate => ContentEncoder::Deflate(
DeflateEncoder::new(transfer, Compression::default())),
ContentEncoding::Gzip => ContentEncoder::Gzip(
GzEncoder::new(transfer, Compression::default())),
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#[cfg(feature="brotli")]
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ContentEncoding::Br => ContentEncoder::Br(
BrotliEncoder::new(transfer, 5)),
ContentEncoding::Identity => ContentEncoder::Identity(transfer),
ContentEncoding::Auto => unreachable!()
};
// TODO return error!
let _ = enc.write(bytes.clone());
let _ = enc.write_eof();
*bytes = Binary::from(tmp.take());
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req.headers_mut().insert(
CONTENT_ENCODING, HeaderValue::from_static(encoding.as_str()));
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encoding = ContentEncoding::Identity;
}
let mut b = BytesMut::new();
let _ = write!(b, "{}", bytes.len());
req.headers_mut().insert(
CONTENT_LENGTH, HeaderValue::try_from(b.freeze()).unwrap());
TransferEncoding::eof(buf)
},
Body::Streaming(_) | Body::Actor(_) => {
if req.upgrade() {
if version == Version::HTTP_2 {
error!("Connection upgrade is forbidden for HTTP/2");
} else {
req.headers_mut().insert(CONNECTION, HeaderValue::from_static("upgrade"));
}
if encoding != ContentEncoding::Identity {
encoding = ContentEncoding::Identity;
req.headers_mut().remove(CONTENT_ENCODING);
}
TransferEncoding::eof(buf)
} else {
streaming_encoding(buf, version, req)
}
}
};
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if encoding.is_compression() {
req.headers_mut().insert(
CONTENT_ENCODING, HeaderValue::from_static(encoding.as_str()));
}
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req.replace_body(body);
match encoding {
ContentEncoding::Deflate => ContentEncoder::Deflate(
DeflateEncoder::new(transfer, Compression::default())),
ContentEncoding::Gzip => ContentEncoder::Gzip(
GzEncoder::new(transfer, Compression::default())),
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#[cfg(feature="brotli")]
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ContentEncoding::Br => ContentEncoder::Br(
BrotliEncoder::new(transfer, 5)),
ContentEncoding::Identity | ContentEncoding::Auto => ContentEncoder::Identity(transfer),
}
}
fn streaming_encoding(buf: SharedBytes, version: Version, req: &mut ClientRequest)
-> TransferEncoding {
if req.chunked() {
// Enable transfer encoding
req.headers_mut().remove(CONTENT_LENGTH);
if version == Version::HTTP_2 {
req.headers_mut().remove(TRANSFER_ENCODING);
TransferEncoding::eof(buf)
} else {
req.headers_mut().insert(
TRANSFER_ENCODING, HeaderValue::from_static("chunked"));
TransferEncoding::chunked(buf)
}
} else {
// if Content-Length is specified, then use it as length hint
let (len, chunked) =
if let Some(len) = req.headers().get(CONTENT_LENGTH) {
// Content-Length
if let Ok(s) = len.to_str() {
if let Ok(len) = s.parse::<u64>() {
(Some(len), false)
} else {
error!("illegal Content-Length: {:?}", len);
(None, false)
}
} else {
error!("illegal Content-Length: {:?}", len);
(None, false)
}
} else {
(None, true)
};
if !chunked {
if let Some(len) = len {
TransferEncoding::length(len, buf)
} else {
TransferEncoding::eof(buf)
}
} else {
// Enable transfer encoding
match version {
Version::HTTP_11 => {
req.headers_mut().insert(
TRANSFER_ENCODING, HeaderValue::from_static("chunked"));
TransferEncoding::chunked(buf)
},
_ => {
req.headers_mut().remove(TRANSFER_ENCODING);
TransferEncoding::eof(buf)
}
}
}
}
}
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// "Sun, 06 Nov 1994 08:49:37 GMT".len()
pub const DATE_VALUE_LENGTH: usize = 29;
fn set_date(dst: &mut BytesMut) {
CACHED.with(|cache| {
let mut cache = cache.borrow_mut();
let now = time::get_time();
if now > cache.next_update {
cache.update(now);
}
dst.extend_from_slice(cache.buffer());
})
}
struct CachedDate {
bytes: [u8; DATE_VALUE_LENGTH],
next_update: time::Timespec,
}
thread_local!(static CACHED: RefCell<CachedDate> = RefCell::new(CachedDate {
bytes: [0; DATE_VALUE_LENGTH],
next_update: time::Timespec::new(0, 0),
}));
impl CachedDate {
fn buffer(&self) -> &[u8] {
&self.bytes[..]
}
fn update(&mut self, now: time::Timespec) {
write!(&mut self.bytes[..], "{}", time::at_utc(now).rfc822()).unwrap();
self.next_update = now + Duration::seconds(1);
self.next_update.nsec = 0;
}
}