use std::{io, cmp, mem}; use std::io::{Read, Write}; 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; use flate2::read::{GzDecoder}; use flate2::write::{GzEncoder, DeflateDecoder, DeflateEncoder}; use brotli2::write::{BrotliDecoder, BrotliEncoder}; use bytes::{Bytes, BytesMut, BufMut, Writer}; use body::{Body, Binary}; use error::PayloadError; use helpers::SharedBytes; use httprequest::HttpMessage; use httpresponse::HttpResponse; use payload::{PayloadSender, PayloadWriter}; /// Represents supported types of content encodings #[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, } impl ContentEncoding { fn is_compression(&self) -> bool { match *self { ContentEncoding::Identity | ContentEncoding::Auto => false, _ => true } } fn as_str(&self) -> &'static str { match *self { ContentEncoding::Br => "br", ContentEncoding::Gzip => "gzip", ContentEncoding::Deflate => "deflate", ContentEncoding::Identity | ContentEncoding::Auto => "identity", } } // 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, } } } 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(Box), } 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(Box::new(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 { Deflate(Box>>), Gzip(Box>>), Br(Box>>), 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 { let len = cmp::min(buf.len(), self.buf.len()); buf[..len].copy_from_slice(&self.buf[..len]); self.buf.split_to(len); Ok(len) } } /// Payload wrapper with content decompression support pub(crate) struct EncodedPayload { inner: PayloadSender, decoder: Decoder, dst: Writer, error: bool, } impl EncodedPayload { pub fn new(inner: PayloadSender, enc: ContentEncoding) -> EncodedPayload { let dec = match enc { ContentEncoding::Br => Decoder::Br( Box::new(BrotliDecoder::new(BytesMut::with_capacity(8192).writer()))), ContentEncoding::Deflate => Decoder::Deflate( Box::new(DeflateDecoder::new(BytesMut::with_capacity(8192).writer()))), ContentEncoding::Gzip => Decoder::Gzip(Box::new(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 { Decoder::Br(ref mut decoder) => { match decoder.finish() { Ok(mut writer) => { let b = writer.get_mut().take().freeze(); if !b.is_empty() { self.inner.feed_data(b); } self.inner.feed_eof(); return }, Err(err) => Some(err), } }, 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().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().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) } } }, Decoder::Deflate(ref mut decoder) => { match decoder.try_finish() { Ok(_) => { let b = decoder.get_mut().get_mut().take().freeze(); 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 { Decoder::Br(ref mut decoder) => { if decoder.write(&data).is_ok() && decoder.flush().is_ok() { let b = decoder.get_mut().get_mut().take().freeze(); if !b.is_empty() { self.inner.feed_data(b); } return } trace!("Error decoding br encoding"); } Decoder::Gzip(ref mut decoder) => { if decoder.is_none() { let mut buf = BytesMut::new(); buf.extend_from_slice(&data); *(decoder.as_mut()) = Some(GzDecoder::new(Wrapper{buf: buf}).unwrap()); } else { decoder.as_mut().as_mut().unwrap().get_mut().buf.extend_from_slice(&data); } loop { let len_buf = decoder.as_mut().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().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 } } } Decoder::Deflate(ref mut decoder) => { if decoder.write(&data).is_ok() && decoder.flush().is_ok() { let b = decoder.get_mut().get_mut().take().freeze(); if !b.is_empty() { self.inner.feed_data(b); } return } trace!("Error decoding deflate encoding"); } Decoder::Identity => { self.inner.feed_data(data); return } }; self.error = true; self.decoder = Decoder::Identity; self.set_error(PayloadError::EncodingCorrupted); } fn capacity(&self) -> usize { self.inner.capacity() } } pub(crate) struct PayloadEncoder(ContentEncoder); impl PayloadEncoder { pub fn empty(bytes: SharedBytes) -> PayloadEncoder { PayloadEncoder(ContentEncoder::Identity(TransferEncoding::eof(bytes))) } pub fn new(buf: SharedBytes, req: &HttpMessage, resp: &mut HttpResponse) -> PayloadEncoder { let version = resp.version().unwrap_or_else(|| req.version); let mut body = resp.replace_body(Body::Empty); let has_body = match body { Body::Empty => false, Body::Binary(ref bin) => bin.len() >= 1024, _ => true, }; // Enable content encoding only if response does not contain Content-Encoding header let mut 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, }; if encoding.is_compression() { resp.headers_mut().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_mut().remove(CONTENT_LENGTH); TransferEncoding::eof(buf) }, Body::Binary(ref mut bytes) => { if compression { let buf = SharedBytes::default(); let transfer = TransferEncoding::eof(buf.clone()); let mut enc = match encoding { ContentEncoding::Deflate => ContentEncoder::Deflate( DeflateEncoder::new(transfer, Compression::Default)), ContentEncoding::Gzip => ContentEncoder::Gzip( GzEncoder::new(transfer, Compression::Default)), ContentEncoding::Br => ContentEncoder::Br( BrotliEncoder::new(transfer, 5)), ContentEncoding::Identity => ContentEncoder::Identity(transfer), ContentEncoding::Auto => unreachable!() }; // TODO return error! let _ = enc.write(bytes.as_ref()); let _ = enc.write_eof(); *bytes = Binary::from(buf.get_mut().take()); encoding = ContentEncoding::Identity; } resp.headers_mut().remove(CONTENT_LENGTH); TransferEncoding::eof(buf) } Body::Streaming(_) | Body::Actor(_) => { if resp.upgrade() { if version == Version::HTTP_2 { error!("Connection upgrade is forbidden for HTTP/2"); } else { resp.headers_mut().insert( CONNECTION, HeaderValue::from_static("upgrade")); } if encoding != ContentEncoding::Identity { encoding = ContentEncoding::Identity; resp.headers_mut().remove(CONTENT_ENCODING); } TransferEncoding::eof(buf) } else if resp.chunked() { resp.headers_mut().remove(CONTENT_LENGTH); if version != Version::HTTP_11 { error!("Chunked transfer encoding is forbidden for {:?}", version); } if version == Version::HTTP_2 { resp.headers_mut().remove(TRANSFER_ENCODING); TransferEncoding::eof(buf) } else { resp.headers_mut().insert( TRANSFER_ENCODING, HeaderValue::from_static("chunked")); TransferEncoding::chunked(buf) } } else if let Some(len) = resp.headers().get(CONTENT_LENGTH) { // Content-Length if let Ok(s) = len.to_str() { if let Ok(len) = s.parse::() { TransferEncoding::length(len, buf) } else { debug!("illegal Content-Length: {:?}", len); TransferEncoding::eof(buf) } } else { TransferEncoding::eof(buf) } } else { TransferEncoding::eof(buf) } } }; 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( BrotliEncoder::new(transfer, 5)), ContentEncoding::Identity => ContentEncoder::Identity(transfer), ContentEncoding::Auto => unreachable!() } ) } } impl PayloadEncoder { #[inline] pub fn len(&self) -> usize { self.0.get_ref().len() } #[inline] pub fn get_mut(&mut self) -> &mut BytesMut { self.0.get_mut() } #[inline] pub fn is_eof(&self) -> bool { self.0.is_eof() } #[cfg_attr(feature = "cargo-clippy", allow(inline_always))] #[inline(always)] pub fn write(&mut self, payload: &[u8]) -> Result<(), io::Error> { self.0.write(payload) } #[cfg_attr(feature = "cargo-clippy", allow(inline_always))] #[inline(always)] pub fn write_eof(&mut self) -> Result<(), io::Error> { self.0.write_eof() } } enum ContentEncoder { Deflate(DeflateEncoder), Gzip(GzEncoder), Br(BrotliEncoder), Identity(TransferEncoding), } impl ContentEncoder { #[inline] 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(), } } #[inline] pub fn get_ref(&self) -> &BytesMut { match *self { ContentEncoder::Br(ref encoder) => encoder.get_ref().buffer.get_ref(), ContentEncoder::Deflate(ref encoder) => encoder.get_ref().buffer.get_ref(), ContentEncoder::Gzip(ref encoder) => encoder.get_ref().buffer.get_ref(), ContentEncoder::Identity(ref encoder) => encoder.buffer.get_ref(), } } #[inline] pub fn get_mut(&mut self) -> &mut BytesMut { match *self { ContentEncoder::Br(ref mut encoder) => encoder.get_mut().buffer.get_mut(), ContentEncoder::Deflate(ref mut encoder) => encoder.get_mut().buffer.get_mut(), ContentEncoder::Gzip(ref mut encoder) => encoder.get_mut().buffer.get_mut(), ContentEncoder::Identity(ref mut encoder) => encoder.buffer.get_mut(), } } #[cfg_attr(feature = "cargo-clippy", allow(inline_always))] #[inline(always)] pub fn write_eof(&mut self) -> Result<(), io::Error> { let encoder = mem::replace( self, ContentEncoder::Identity(TransferEncoding::eof(SharedBytes::empty()))); 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(()) } } } #[cfg_attr(feature = "cargo-clippy", allow(inline_always))] #[inline(always)] 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 gzip 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.encode(data); Ok(()) } } } } /// Encoders to handle different Transfer-Encodings. #[derive(Debug, Clone)] pub(crate) struct TransferEncoding { kind: TransferEncodingKind, buffer: SharedBytes, } #[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 { #[inline] pub fn eof(bytes: SharedBytes) -> TransferEncoding { TransferEncoding { kind: TransferEncodingKind::Eof, buffer: bytes, } } #[inline] pub fn chunked(bytes: SharedBytes) -> TransferEncoding { TransferEncoding { kind: TransferEncodingKind::Chunked(false), buffer: bytes, } } #[inline] pub fn length(len: u64, bytes: SharedBytes) -> TransferEncoding { TransferEncoding { kind: TransferEncodingKind::Length(len), buffer: bytes, } } #[inline] 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 #[inline] pub fn encode(&mut self, msg: &[u8]) -> bool { match self.kind { TransferEncodingKind::Eof => { self.buffer.get_mut().extend_from_slice(msg); msg.is_empty() }, TransferEncodingKind::Chunked(ref mut eof) => { if *eof { return true; } if msg.is_empty() { *eof = true; self.buffer.get_mut().extend_from_slice(b"0\r\n\r\n"); } else { write!(self.buffer.get_mut(), "{:X}\r\n", msg.len()).unwrap(); self.buffer.get_mut().extend_from_slice(msg); self.buffer.get_mut().extend_from_slice(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); self.buffer.get_mut().extend_from_slice(msg[..max as usize].as_ref()); *remaining -= max as u64; *remaining == 0 }, } } /// Encode eof. Return `EOF` state of encoder #[inline] pub fn encode_eof(&mut self) { match self.kind { TransferEncodingKind::Eof | TransferEncodingKind::Length(_) => (), TransferEncodingKind::Chunked(ref mut eof) => { if !*eof { *eof = true; self.buffer.get_mut().extend_from_slice(b"0\r\n\r\n"); } }, } } } impl io::Write for TransferEncoding { #[inline] fn write(&mut self, buf: &[u8]) -> io::Result { self.encode(buf); Ok(buf.len()) } #[inline] 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 { 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 { let parts: Vec<&str> = tag.split(';').collect(); let encoding = match parts.len() { 0 => return None, _ => ContentEncoding::from(parts[0]), }; let quality = match parts.len() { 1 => encoding.quality(), _ => 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 } }