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actix-web/src/encoding.rs

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use std::{io, cmp, mem};
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use std::io::{Read, Write};
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use std::fmt::Write as FmtWrite;
use std::str::FromStr;
use http::Version;
use http::header::{HeaderMap, HeaderValue,
ACCEPT_ENCODING, CONNECTION,
CONTENT_ENCODING, CONTENT_LENGTH, TRANSFER_ENCODING};
use flate2::Compression;
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use flate2::read::{GzDecoder};
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use flate2::write::{GzEncoder, DeflateDecoder, DeflateEncoder};
use brotli2::write::{BrotliDecoder, BrotliEncoder};
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use bytes::{Bytes, BytesMut, BufMut, Writer};
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use body::Body;
use httprequest::HttpRequest;
use httpresponse::HttpResponse;
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use payload::{PayloadSender, PayloadWriter, PayloadError};
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/// Represents supported types of content encodings
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#[derive(Copy, Clone, PartialEq, Debug)]
pub enum ContentEncoding {
/// Automatically select encoding based on encoding negotiation
Auto,
/// A format using the Brotli algorithm
Br,
/// A format using the zlib structure with deflate algorithm
Deflate,
/// Gzip algorithm
Gzip,
/// Indicates the identity function (i.e. no compression, nor modification)
Identity,
}
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impl ContentEncoding {
fn as_str(&self) -> &'static str {
match *self {
ContentEncoding::Br => "br",
ContentEncoding::Gzip => "gzip",
ContentEncoding::Deflate => "deflate",
ContentEncoding::Identity | ContentEncoding::Auto => "identity",
}
}
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// default quality
fn quality(&self) -> f64 {
match *self {
ContentEncoding::Br => 1.1,
ContentEncoding::Gzip => 1.0,
ContentEncoding::Deflate => 0.9,
ContentEncoding::Identity | ContentEncoding::Auto => 0.1,
}
}
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}
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impl<'a> From<&'a str> for ContentEncoding {
fn from(s: &'a str) -> ContentEncoding {
match s.trim().to_lowercase().as_ref() {
"br" => ContentEncoding::Br,
"gzip" => ContentEncoding::Gzip,
"deflate" => ContentEncoding::Deflate,
"identity" => ContentEncoding::Identity,
_ => ContentEncoding::Auto,
}
}
}
pub(crate) enum PayloadType {
Sender(PayloadSender),
Encoding(EncodedPayload),
}
impl PayloadType {
pub fn new(headers: &HeaderMap, sender: PayloadSender) -> PayloadType {
// check content-encoding
let enc = if let Some(enc) = headers.get(CONTENT_ENCODING) {
if let Ok(enc) = enc.to_str() {
ContentEncoding::from(enc)
} else {
ContentEncoding::Auto
}
} else {
ContentEncoding::Auto
};
match enc {
ContentEncoding::Auto | ContentEncoding::Identity =>
PayloadType::Sender(sender),
_ => PayloadType::Encoding(EncodedPayload::new(sender, enc)),
}
}
}
impl PayloadWriter for PayloadType {
fn set_error(&mut self, err: PayloadError) {
match *self {
PayloadType::Sender(ref mut sender) => sender.set_error(err),
PayloadType::Encoding(ref mut enc) => enc.set_error(err),
}
}
fn feed_eof(&mut self) {
match *self {
PayloadType::Sender(ref mut sender) => sender.feed_eof(),
PayloadType::Encoding(ref mut enc) => enc.feed_eof(),
}
}
fn feed_data(&mut self, data: Bytes) {
match *self {
PayloadType::Sender(ref mut sender) => sender.feed_data(data),
PayloadType::Encoding(ref mut enc) => enc.feed_data(data),
}
}
fn capacity(&self) -> usize {
match *self {
PayloadType::Sender(ref sender) => sender.capacity(),
PayloadType::Encoding(ref enc) => enc.capacity(),
}
}
}
enum Decoder {
use bytes::Writer
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Deflate(DeflateDecoder<Writer<BytesMut>>),
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Gzip(Option<GzDecoder<Wrapper>>),
use bytes::Writer
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Br(BrotliDecoder<Writer<BytesMut>>),
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Identity,
}
// should go after write::GzDecoder get implemented
#[derive(Debug)]
struct Wrapper {
buf: BytesMut
}
impl io::Read for Wrapper {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
let len = cmp::min(buf.len(), self.buf.len());
buf[..len].copy_from_slice(&self.buf[..len]);
self.buf.split_to(len);
Ok(len)
}
}
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/// Payload wrapper with content decompression support
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pub(crate) struct EncodedPayload {
inner: PayloadSender,
decoder: Decoder,
dst: Writer<BytesMut>,
error: bool,
}
impl EncodedPayload {
pub fn new(inner: PayloadSender, enc: ContentEncoding) -> EncodedPayload {
let dec = match enc {
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ContentEncoding::Br => Decoder::Br(
use bytes::Writer
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BrotliDecoder::new(BytesMut::with_capacity(8192).writer())),
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ContentEncoding::Deflate => Decoder::Deflate(
use bytes::Writer
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DeflateDecoder::new(BytesMut::with_capacity(8192).writer())),
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ContentEncoding::Gzip => Decoder::Gzip(None),
_ => Decoder::Identity,
};
EncodedPayload {
inner: inner,
decoder: dec,
error: false,
dst: BytesMut::new().writer(),
}
}
}
impl PayloadWriter for EncodedPayload {
fn set_error(&mut self, err: PayloadError) {
self.inner.set_error(err)
}
fn feed_eof(&mut self) {
if self.error {
return
}
let err = match self.decoder {
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Decoder::Br(ref mut decoder) => {
match decoder.finish() {
Ok(mut writer) => {
use bytes::Writer
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let b = writer.get_mut().take().freeze();
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if !b.is_empty() {
self.inner.feed_data(b);
}
self.inner.feed_eof();
return
},
Err(err) => Some(err),
}
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},
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Decoder::Gzip(ref mut decoder) => {
if decoder.is_none() {
self.inner.feed_eof();
return
}
loop {
let len = self.dst.get_ref().len();
let len_buf = decoder.as_mut().unwrap().get_mut().buf.len();
if len < len_buf * 2 {
self.dst.get_mut().reserve(len_buf * 2 - len);
unsafe{self.dst.get_mut().set_len(len_buf * 2)};
}
match decoder.as_mut().unwrap().read(&mut self.dst.get_mut()) {
Ok(n) => {
if n == 0 {
self.inner.feed_eof();
return
} else {
self.inner.feed_data(self.dst.get_mut().split_to(n).freeze());
}
}
Err(err) => break Some(err)
}
}
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},
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Decoder::Deflate(ref mut decoder) => {
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match decoder.try_finish() {
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Ok(_) => {
use bytes::Writer
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let b = decoder.get_mut().get_mut().take().freeze();
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if !b.is_empty() {
self.inner.feed_data(b);
}
self.inner.feed_eof();
return
},
Err(err) => Some(err),
}
},
Decoder::Identity => {
self.inner.feed_eof();
return
}
};
self.error = true;
self.decoder = Decoder::Identity;
if let Some(err) = err {
self.set_error(PayloadError::ParseError(err));
} else {
self.set_error(PayloadError::Incomplete);
}
}
fn feed_data(&mut self, data: Bytes) {
if self.error {
return
}
match self.decoder {
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Decoder::Br(ref mut decoder) => {
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if decoder.write(&data).is_ok() && decoder.flush().is_ok() {
use bytes::Writer
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let b = decoder.get_mut().get_mut().take().freeze();
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if !b.is_empty() {
self.inner.feed_data(b);
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}
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return
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}
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trace!("Error decoding br encoding");
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}
Decoder::Gzip(ref mut decoder) => {
if decoder.is_none() {
let mut buf = BytesMut::new();
buf.extend(data);
*decoder = Some(GzDecoder::new(Wrapper{buf: buf}).unwrap());
} else {
decoder.as_mut().unwrap().get_mut().buf.extend(data);
}
loop {
let len_buf = decoder.as_mut().unwrap().get_mut().buf.len();
if len_buf == 0 {
return
}
let len = self.dst.get_ref().len();
if len < len_buf * 2 {
self.dst.get_mut().reserve(len_buf * 2 - len);
unsafe{self.dst.get_mut().set_len(len_buf * 2)};
}
match decoder.as_mut().unwrap().read(&mut self.dst.get_mut()) {
Ok(n) => {
if n == 0 {
return
} else {
self.inner.feed_data(self.dst.get_mut().split_to(n).freeze());
}
}
Err(_) => break
}
}
}
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Decoder::Deflate(ref mut decoder) => {
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if decoder.write(&data).is_ok() && decoder.flush().is_ok() {
use bytes::Writer
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let b = decoder.get_mut().get_mut().take().freeze();
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if !b.is_empty() {
self.inner.feed_data(b);
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}
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return
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}
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trace!("Error decoding deflate encoding");
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}
Decoder::Identity => {
self.inner.feed_data(data);
return
}
};
self.error = true;
self.decoder = Decoder::Identity;
self.set_error(PayloadError::EncodingCorrupted);
}
fn capacity(&self) -> usize {
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self.inner.capacity()
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}
}
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pub(crate) struct PayloadEncoder(ContentEncoder);
impl Default for PayloadEncoder {
fn default() -> PayloadEncoder {
PayloadEncoder(ContentEncoder::Identity(TransferEncoding::eof()))
}
}
impl PayloadEncoder {
pub fn new(req: &HttpRequest, resp: &mut HttpResponse) -> PayloadEncoder {
let version = resp.version().unwrap_or_else(|| req.version());
let body = resp.replace_body(Body::Empty);
let has_body = if let Body::Empty = body { false } else { true };
// Enable content encoding only if response does not contain Content-Encoding header
let encoding = if has_body && !resp.headers.contains_key(CONTENT_ENCODING) {
let encoding = match *resp.content_encoding() {
ContentEncoding::Auto => {
// negotiate content-encoding
if let Some(val) = req.headers().get(ACCEPT_ENCODING) {
if let Ok(enc) = val.to_str() {
AcceptEncoding::parse(enc)
} else {
ContentEncoding::Identity
}
} else {
ContentEncoding::Identity
}
}
encoding => encoding,
};
resp.headers.insert(CONTENT_ENCODING, HeaderValue::from_static(encoding.as_str()));
encoding
} else {
ContentEncoding::Identity
};
// in general case it is very expensive to get compressed payload length,
// just switch to chunked encoding
let compression = encoding != ContentEncoding::Identity;
let transfer = match body {
Body::Empty => {
if resp.chunked() {
error!("Chunked transfer is enabled but body is set to Empty");
}
resp.headers.insert(CONTENT_LENGTH, HeaderValue::from_static("0"));
resp.headers.remove(TRANSFER_ENCODING);
TransferEncoding::length(0)
},
Body::Length(n) => {
if resp.chunked() {
error!("Chunked transfer is enabled but body with specific length is specified");
}
if compression {
resp.headers.remove(CONTENT_LENGTH);
if version == Version::HTTP_2 {
resp.headers.remove(TRANSFER_ENCODING);
TransferEncoding::eof()
} else {
resp.headers.insert(
TRANSFER_ENCODING, HeaderValue::from_static("chunked"));
TransferEncoding::chunked()
}
} else {
resp.headers.insert(
CONTENT_LENGTH,
HeaderValue::from_str(format!("{}", n).as_str()).unwrap());
resp.headers.remove(TRANSFER_ENCODING);
TransferEncoding::length(n)
}
},
Body::Binary(ref bytes) => {
if compression {
resp.headers.remove(CONTENT_LENGTH);
if version == Version::HTTP_2 {
resp.headers.remove(TRANSFER_ENCODING);
TransferEncoding::eof()
} else {
resp.headers.insert(
TRANSFER_ENCODING, HeaderValue::from_static("chunked"));
TransferEncoding::chunked()
}
} else {
resp.headers.insert(
CONTENT_LENGTH,
HeaderValue::from_str(format!("{}", bytes.len()).as_str()).unwrap());
resp.headers.remove(TRANSFER_ENCODING);
TransferEncoding::length(bytes.len() as u64)
}
}
Body::Streaming => {
if resp.chunked() {
resp.headers.remove(CONTENT_LENGTH);
if version != Version::HTTP_11 {
error!("Chunked transfer encoding is forbidden for {:?}", version);
}
if version == Version::HTTP_2 {
resp.headers.remove(TRANSFER_ENCODING);
TransferEncoding::eof()
} else {
resp.headers.insert(
TRANSFER_ENCODING, HeaderValue::from_static("chunked"));
TransferEncoding::chunked()
}
} else {
TransferEncoding::eof()
}
}
Body::Upgrade => {
if version == Version::HTTP_2 {
error!("Connection upgrade is forbidden for HTTP/2");
} else {
resp.headers.insert(CONNECTION, HeaderValue::from_static("upgrade"));
}
TransferEncoding::eof()
}
};
resp.replace_body(body);
PayloadEncoder(
match encoding {
ContentEncoding::Deflate => ContentEncoder::Deflate(
DeflateEncoder::new(transfer, Compression::Default)),
ContentEncoding::Gzip => ContentEncoder::Gzip(
GzEncoder::new(transfer, Compression::Default)),
ContentEncoding::Br => ContentEncoder::Br(
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BrotliEncoder::new(transfer, 5)),
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ContentEncoding::Identity => ContentEncoder::Identity(transfer),
ContentEncoding::Auto =>
unreachable!()
}
)
}
}
impl PayloadEncoder {
pub fn len(&self) -> usize {
self.0.get_ref().len()
}
pub fn get_mut(&mut self) -> &mut BytesMut {
self.0.get_mut()
}
pub fn is_eof(&self) -> bool {
self.0.is_eof()
}
pub fn write(&mut self, payload: &[u8]) -> Result<(), io::Error> {
self.0.write(payload)
}
pub fn write_eof(&mut self) -> Result<(), io::Error> {
self.0.write_eof()
}
}
enum ContentEncoder {
Deflate(DeflateEncoder<TransferEncoding>),
Gzip(GzEncoder<TransferEncoding>),
Br(BrotliEncoder<TransferEncoding>),
Identity(TransferEncoding),
}
impl ContentEncoder {
pub fn is_eof(&self) -> bool {
match *self {
ContentEncoder::Br(ref encoder) =>
encoder.get_ref().is_eof(),
ContentEncoder::Deflate(ref encoder) =>
encoder.get_ref().is_eof(),
ContentEncoder::Gzip(ref encoder) =>
encoder.get_ref().is_eof(),
ContentEncoder::Identity(ref encoder) =>
encoder.is_eof(),
}
}
pub fn get_ref(&self) -> &BytesMut {
match *self {
ContentEncoder::Br(ref encoder) =>
&encoder.get_ref().buffer,
ContentEncoder::Deflate(ref encoder) =>
&encoder.get_ref().buffer,
ContentEncoder::Gzip(ref encoder) =>
&encoder.get_ref().buffer,
ContentEncoder::Identity(ref encoder) =>
&encoder.buffer,
}
}
pub fn get_mut(&mut self) -> &mut BytesMut {
match *self {
ContentEncoder::Br(ref mut encoder) =>
&mut encoder.get_mut().buffer,
ContentEncoder::Deflate(ref mut encoder) =>
&mut encoder.get_mut().buffer,
ContentEncoder::Gzip(ref mut encoder) =>
&mut encoder.get_mut().buffer,
ContentEncoder::Identity(ref mut encoder) =>
&mut encoder.buffer,
}
}
pub fn write_eof(&mut self) -> Result<(), io::Error> {
let encoder = mem::replace(self, ContentEncoder::Identity(TransferEncoding::eof()));
match encoder {
ContentEncoder::Br(encoder) => {
match encoder.finish() {
Ok(mut writer) => {
writer.encode_eof();
*self = ContentEncoder::Identity(writer);
Ok(())
},
Err(err) => Err(err),
}
}
ContentEncoder::Gzip(encoder) => {
match encoder.finish() {
Ok(mut writer) => {
writer.encode_eof();
*self = ContentEncoder::Identity(writer);
Ok(())
},
Err(err) => Err(err),
}
},
ContentEncoder::Deflate(encoder) => {
match encoder.finish() {
Ok(mut writer) => {
writer.encode_eof();
*self = ContentEncoder::Identity(writer);
Ok(())
},
Err(err) => Err(err),
}
},
ContentEncoder::Identity(mut writer) => {
writer.encode_eof();
*self = ContentEncoder::Identity(writer);
Ok(())
}
}
}
pub fn write(&mut self, data: &[u8]) -> Result<(), io::Error> {
match *self {
ContentEncoder::Br(ref mut encoder) => {
match encoder.write(data) {
Ok(_) => {
encoder.flush()
},
Err(err) => {
trace!("Error decoding br encoding: {}", err);
Err(err)
},
}
},
ContentEncoder::Gzip(ref mut encoder) => {
match encoder.write(data) {
Ok(_) => {
encoder.flush()
},
Err(err) => {
trace!("Error decoding br encoding: {}", err);
Err(err)
},
}
}
ContentEncoder::Deflate(ref mut encoder) => {
match encoder.write(data) {
Ok(_) => {
encoder.flush()
},
Err(err) => {
trace!("Error decoding deflate encoding: {}", err);
Err(err)
},
}
}
ContentEncoder::Identity(ref mut encoder) => {
encoder.write_all(data)?;
Ok(())
}
}
}
}
/// Encoders to handle different Transfer-Encodings.
#[derive(Debug, Clone)]
pub(crate) struct TransferEncoding {
kind: TransferEncodingKind,
buffer: BytesMut,
}
#[derive(Debug, PartialEq, Clone)]
enum TransferEncodingKind {
/// An Encoder for when Transfer-Encoding includes `chunked`.
Chunked(bool),
/// An Encoder for when Content-Length is set.
///
/// Enforces that the body is not longer than the Content-Length header.
Length(u64),
/// An Encoder for when Content-Length is not known.
///
/// Appliction decides when to stop writing.
Eof,
}
impl TransferEncoding {
pub fn eof() -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Eof,
buffer: BytesMut::new(),
}
}
pub fn chunked() -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Chunked(false),
buffer: BytesMut::new(),
}
}
pub fn length(len: u64) -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Length(len),
buffer: BytesMut::new(),
}
}
pub fn is_eof(&self) -> bool {
match self.kind {
TransferEncodingKind::Eof => true,
TransferEncodingKind::Chunked(ref eof) =>
*eof,
TransferEncodingKind::Length(ref remaining) =>
*remaining == 0,
}
}
/// Encode message. Return `EOF` state of encoder
pub fn encode(&mut self, msg: &[u8]) -> bool {
match self.kind {
TransferEncodingKind::Eof => {
self.buffer.extend(msg);
msg.is_empty()
},
TransferEncodingKind::Chunked(ref mut eof) => {
if *eof {
return true;
}
if msg.is_empty() {
*eof = true;
self.buffer.extend(b"0\r\n\r\n");
} else {
write!(self.buffer, "{:X}\r\n", msg.len()).unwrap();
self.buffer.extend(msg);
self.buffer.extend(b"\r\n");
}
*eof
},
TransferEncodingKind::Length(ref mut remaining) => {
if msg.is_empty() {
return *remaining == 0
}
let max = cmp::min(*remaining, msg.len() as u64);
trace!("sized write = {}", max);
self.buffer.extend(msg[..max as usize].as_ref());
*remaining -= max as u64;
trace!("encoded {} bytes, remaining = {}", max, remaining);
*remaining == 0
},
}
}
/// Encode eof. Return `EOF` state of encoder
pub fn encode_eof(&mut self) {
match self.kind {
TransferEncodingKind::Eof | TransferEncodingKind::Length(_) => (),
TransferEncodingKind::Chunked(ref mut eof) => {
if !*eof {
*eof = true;
self.buffer.extend(b"0\r\n\r\n");
}
},
}
}
}
impl io::Write for TransferEncoding {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.encode(buf);
Ok(buf.len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}
struct AcceptEncoding {
encoding: ContentEncoding,
quality: f64,
}
impl Eq for AcceptEncoding {}
impl Ord for AcceptEncoding {
fn cmp(&self, other: &AcceptEncoding) -> cmp::Ordering {
if self.quality > other.quality {
cmp::Ordering::Less
} else if self.quality < other.quality {
cmp::Ordering::Greater
} else {
cmp::Ordering::Equal
}
}
}
impl PartialOrd for AcceptEncoding {
fn partial_cmp(&self, other: &AcceptEncoding) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
impl PartialEq for AcceptEncoding {
fn eq(&self, other: &AcceptEncoding) -> bool {
self.quality == other.quality
}
}
impl AcceptEncoding {
fn new(tag: &str) -> Option<AcceptEncoding> {
let parts: Vec<&str> = tag.split(';').collect();
let encoding = match parts.len() {
0 => return None,
_ => ContentEncoding::from(parts[0]),
};
let quality = match parts.len() {
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1 => encoding.quality(),
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_ => match f64::from_str(parts[1]) {
Ok(q) => q,
Err(_) => 0.0,
}
};
Some(AcceptEncoding {
encoding: encoding,
quality: quality,
})
}
/// Parse a raw Accept-Encoding header value into an ordered list.
pub fn parse(raw: &str) -> ContentEncoding {
let mut encodings: Vec<_> =
raw.replace(' ', "").split(',').map(|l| AcceptEncoding::new(l)).collect();
encodings.sort();
for enc in encodings {
if let Some(enc) = enc {
return enc.encoding
}
}
ContentEncoding::Identity
}
}
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