#![allow(unused_imports, unused_variables, dead_code)] use std::fmt::Write as FmtWrite; use std::io::Write; use std::str::FromStr; use std::{cmp, fmt, io, mem}; #[cfg(feature = "brotli")] use brotli2::write::BrotliEncoder; use bytes::BytesMut; #[cfg(feature = "flate2")] use flate2::write::{GzEncoder, ZlibEncoder}; #[cfg(feature = "flate2")] use flate2::Compression; use http::header::{HeaderValue, ACCEPT_ENCODING, CONTENT_LENGTH}; use http::{StatusCode, Version}; use body::{Binary, Body}; use header::ContentEncoding; use httpresponse::HttpResponse; use request::InnerRequest; // #[derive(Debug)] // pub(crate) struct RequestInfo { // pub version: Version, // pub accept_encoding: Option, // } #[derive(Debug)] pub(crate) enum ResponseLength { Chunked, Zero, Length(usize), Length64(u64), None, } #[derive(Debug)] pub(crate) struct ResponseInfo { head: bool, pub length: ResponseLength, pub content_encoding: Option<&'static str>, } impl ResponseInfo { pub fn new(head: bool) -> Self { ResponseInfo { head, length: ResponseLength::None, content_encoding: None, } } } #[derive(Debug)] pub(crate) enum Output { Empty(BytesMut), Buffer(BytesMut), Encoder(ContentEncoder), TE(TransferEncoding), Done, } impl Output { pub fn take(&mut self) -> BytesMut { match mem::replace(self, Output::Done) { Output::Empty(bytes) => bytes, Output::Buffer(bytes) => bytes, Output::Encoder(mut enc) => enc.take_buf(), Output::TE(mut te) => te.take(), Output::Done => panic!(), } } pub fn take_option(&mut self) -> Option { match mem::replace(self, Output::Done) { Output::Empty(bytes) => Some(bytes), Output::Buffer(bytes) => Some(bytes), Output::Encoder(mut enc) => Some(enc.take_buf()), Output::TE(mut te) => Some(te.take()), Output::Done => None, } } pub fn as_ref(&mut self) -> &BytesMut { match self { Output::Empty(ref mut bytes) => bytes, Output::Buffer(ref mut bytes) => bytes, Output::Encoder(ref mut enc) => enc.buf_ref(), Output::TE(ref mut te) => te.buf_ref(), Output::Done => panic!(), } } pub fn as_mut(&mut self) -> &mut BytesMut { match self { Output::Empty(ref mut bytes) => bytes, Output::Buffer(ref mut bytes) => bytes, Output::Encoder(ref mut enc) => enc.buf_mut(), Output::TE(ref mut te) => te.buf_mut(), Output::Done => panic!(), } } pub fn split_to(&mut self, cap: usize) -> BytesMut { match self { Output::Empty(ref mut bytes) => bytes.split_to(cap), Output::Buffer(ref mut bytes) => bytes.split_to(cap), Output::Encoder(ref mut enc) => enc.buf_mut().split_to(cap), Output::TE(ref mut te) => te.buf_mut().split_to(cap), Output::Done => BytesMut::new(), } } pub fn len(&self) -> usize { match self { Output::Empty(ref bytes) => bytes.len(), Output::Buffer(ref bytes) => bytes.len(), Output::Encoder(ref enc) => enc.len(), Output::TE(ref te) => te.len(), Output::Done => 0, } } pub fn is_empty(&self) -> bool { match self { Output::Empty(ref bytes) => bytes.is_empty(), Output::Buffer(ref bytes) => bytes.is_empty(), Output::Encoder(ref enc) => enc.is_empty(), Output::TE(ref te) => te.is_empty(), Output::Done => true, } } pub fn write(&mut self, data: &[u8]) -> Result<(), io::Error> { match self { Output::Buffer(ref mut bytes) => { bytes.extend_from_slice(data); Ok(()) } Output::Encoder(ref mut enc) => enc.write(data), Output::TE(ref mut te) => te.encode(data).map(|_| ()), Output::Empty(_) | Output::Done => Ok(()), } } pub fn write_eof(&mut self) -> Result { match self { Output::Buffer(_) => Ok(true), Output::Encoder(ref mut enc) => enc.write_eof(), Output::TE(ref mut te) => Ok(te.encode_eof()), Output::Empty(_) | Output::Done => Ok(true), } } pub(crate) fn for_server( &mut self, info: &mut ResponseInfo, req: &InnerRequest, resp: &mut HttpResponse, response_encoding: ContentEncoding, ) { let buf = self.take(); let version = resp.version().unwrap_or_else(|| req.version); let mut len = 0; let has_body = match resp.body() { Body::Empty => false, Body::Binary(ref bin) => { len = bin.len(); !(response_encoding == ContentEncoding::Auto && len < 96) } _ => true, }; // Enable content encoding only if response does not contain Content-Encoding // header #[cfg(any(feature = "brotli", feature = "flate2"))] let mut encoding = if has_body { let encoding = match response_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() { info.content_encoding = Some(encoding.as_str()); } encoding } else { ContentEncoding::Identity }; #[cfg(not(any(feature = "brotli", feature = "flate2")))] let mut encoding = ContentEncoding::Identity; let transfer = match resp.body() { Body::Empty => { if !info.head { info.length = match resp.status() { StatusCode::NO_CONTENT | StatusCode::CONTINUE | StatusCode::SWITCHING_PROTOCOLS | StatusCode::PROCESSING => ResponseLength::None, _ => ResponseLength::Zero, }; } *self = Output::Empty(buf); return; } Body::Binary(_) => { #[cfg(any(feature = "brotli", feature = "flate2"))] { if !(encoding == ContentEncoding::Identity || encoding == ContentEncoding::Auto) { let mut tmp = BytesMut::new(); let mut transfer = TransferEncoding::eof(tmp); let mut enc = match encoding { #[cfg(feature = "flate2")] ContentEncoding::Deflate => ContentEncoder::Deflate( ZlibEncoder::new(transfer, Compression::fast()), ), #[cfg(feature = "flate2")] ContentEncoding::Gzip => ContentEncoder::Gzip( GzEncoder::new(transfer, Compression::fast()), ), #[cfg(feature = "brotli")] ContentEncoding::Br => { ContentEncoder::Br(BrotliEncoder::new(transfer, 3)) } ContentEncoding::Identity | ContentEncoding::Auto => { unreachable!() } }; let bin = resp.replace_body(Body::Empty).binary(); // TODO return error! let _ = enc.write(bin.as_ref()); let _ = enc.write_eof(); let body = enc.buf_mut().take(); len = body.len(); resp.replace_body(Binary::from(body)); } } info.length = ResponseLength::Length(len); if info.head { *self = Output::Empty(buf); } else { *self = Output::Buffer(buf); } return; } Body::Streaming(_) => { if resp.upgrade() { if version == Version::HTTP_2 { error!("Connection upgrade is forbidden for HTTP/2"); } if encoding != ContentEncoding::Identity { encoding = ContentEncoding::Identity; info.content_encoding.take(); } TransferEncoding::eof(buf) } else { if !(encoding == ContentEncoding::Identity || encoding == ContentEncoding::Auto) { resp.headers_mut().remove(CONTENT_LENGTH); } Output::streaming_encoding(info, buf, version, resp) } } }; // check for head response if info.head { resp.set_body(Body::Empty); *self = Output::Empty(transfer.buf.unwrap()); return; } let enc = match encoding { #[cfg(feature = "flate2")] ContentEncoding::Deflate => { ContentEncoder::Deflate(ZlibEncoder::new(transfer, Compression::fast())) } #[cfg(feature = "flate2")] ContentEncoding::Gzip => { ContentEncoder::Gzip(GzEncoder::new(transfer, Compression::fast())) } #[cfg(feature = "brotli")] ContentEncoding::Br => ContentEncoder::Br(BrotliEncoder::new(transfer, 3)), ContentEncoding::Identity | ContentEncoding::Auto => { *self = Output::TE(transfer); return; } }; *self = Output::Encoder(enc); } fn streaming_encoding( info: &mut ResponseInfo, buf: BytesMut, version: Version, resp: &mut HttpResponse, ) -> TransferEncoding { match resp.chunked() { Some(true) => { // Enable transfer encoding if version == Version::HTTP_2 { info.length = ResponseLength::None; TransferEncoding::eof(buf) } else { info.length = ResponseLength::Chunked; TransferEncoding::chunked(buf) } } Some(false) => TransferEncoding::eof(buf), None => { // if Content-Length is specified, then use it as length hint let (len, chunked) = if let Some(len) = resp.headers().get(CONTENT_LENGTH) { // Content-Length if let Ok(s) = len.to_str() { if let Ok(len) = s.parse::() { (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 { info.length = ResponseLength::Length64(len); TransferEncoding::length(len, buf) } else { TransferEncoding::eof(buf) } } else { // Enable transfer encoding match version { Version::HTTP_11 => { info.length = ResponseLength::Chunked; TransferEncoding::chunked(buf) } _ => { info.length = ResponseLength::None; TransferEncoding::eof(buf) } } } } } } } pub(crate) enum ContentEncoder { #[cfg(feature = "flate2")] Deflate(ZlibEncoder), #[cfg(feature = "flate2")] Gzip(GzEncoder), #[cfg(feature = "brotli")] Br(BrotliEncoder), Identity(TransferEncoding), } impl fmt::Debug for ContentEncoder { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(_) => writeln!(f, "ContentEncoder(Brotli)"), #[cfg(feature = "flate2")] ContentEncoder::Deflate(_) => writeln!(f, "ContentEncoder(Deflate)"), #[cfg(feature = "flate2")] ContentEncoder::Gzip(_) => writeln!(f, "ContentEncoder(Gzip)"), ContentEncoder::Identity(_) => writeln!(f, "ContentEncoder(Identity)"), } } } impl ContentEncoder { #[inline] pub fn len(&self) -> usize { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(ref encoder) => encoder.get_ref().len(), #[cfg(feature = "flate2")] ContentEncoder::Deflate(ref encoder) => encoder.get_ref().len(), #[cfg(feature = "flate2")] ContentEncoder::Gzip(ref encoder) => encoder.get_ref().len(), ContentEncoder::Identity(ref encoder) => encoder.len(), } } #[inline] pub fn is_empty(&self) -> bool { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(ref encoder) => encoder.get_ref().is_empty(), #[cfg(feature = "flate2")] ContentEncoder::Deflate(ref encoder) => encoder.get_ref().is_empty(), #[cfg(feature = "flate2")] ContentEncoder::Gzip(ref encoder) => encoder.get_ref().is_empty(), ContentEncoder::Identity(ref encoder) => encoder.is_empty(), } } #[inline] pub(crate) fn take_buf(&mut self) -> BytesMut { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(ref mut encoder) => encoder.get_mut().take(), #[cfg(feature = "flate2")] ContentEncoder::Deflate(ref mut encoder) => encoder.get_mut().take(), #[cfg(feature = "flate2")] ContentEncoder::Gzip(ref mut encoder) => encoder.get_mut().take(), ContentEncoder::Identity(ref mut encoder) => encoder.take(), } } #[inline] pub(crate) fn buf_mut(&mut self) -> &mut BytesMut { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(ref mut encoder) => encoder.get_mut().buf_mut(), #[cfg(feature = "flate2")] ContentEncoder::Deflate(ref mut encoder) => encoder.get_mut().buf_mut(), #[cfg(feature = "flate2")] ContentEncoder::Gzip(ref mut encoder) => encoder.get_mut().buf_mut(), ContentEncoder::Identity(ref mut encoder) => encoder.buf_mut(), } } #[inline] pub(crate) fn buf_ref(&mut self) -> &BytesMut { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(ref mut encoder) => encoder.get_mut().buf_ref(), #[cfg(feature = "flate2")] ContentEncoder::Deflate(ref mut encoder) => encoder.get_mut().buf_ref(), #[cfg(feature = "flate2")] ContentEncoder::Gzip(ref mut encoder) => encoder.get_mut().buf_ref(), ContentEncoder::Identity(ref mut encoder) => encoder.buf_ref(), } } #[cfg_attr(feature = "cargo-clippy", allow(clippy::inline_always))] #[inline(always)] pub fn write_eof(&mut self) -> Result { let encoder = mem::replace(self, ContentEncoder::Identity(TransferEncoding::empty())); match encoder { #[cfg(feature = "brotli")] ContentEncoder::Br(encoder) => match encoder.finish() { Ok(mut writer) => { writer.encode_eof(); *self = ContentEncoder::Identity(writer); Ok(true) } Err(err) => Err(err), }, #[cfg(feature = "flate2")] ContentEncoder::Gzip(encoder) => match encoder.finish() { Ok(mut writer) => { writer.encode_eof(); *self = ContentEncoder::Identity(writer); Ok(true) } Err(err) => Err(err), }, #[cfg(feature = "flate2")] ContentEncoder::Deflate(encoder) => match encoder.finish() { Ok(mut writer) => { writer.encode_eof(); *self = ContentEncoder::Identity(writer); Ok(true) } Err(err) => Err(err), }, ContentEncoder::Identity(mut writer) => { let res = writer.encode_eof(); *self = ContentEncoder::Identity(writer); Ok(res) } } } #[cfg_attr(feature = "cargo-clippy", allow(clippy::inline_always))] #[inline(always)] pub fn write(&mut self, data: &[u8]) -> Result<(), io::Error> { match *self { #[cfg(feature = "brotli")] ContentEncoder::Br(ref mut encoder) => match encoder.write_all(data) { Ok(_) => Ok(()), Err(err) => { trace!("Error decoding br encoding: {}", err); Err(err) } }, #[cfg(feature = "flate2")] ContentEncoder::Gzip(ref mut encoder) => match encoder.write_all(data) { Ok(_) => Ok(()), Err(err) => { trace!("Error decoding gzip encoding: {}", err); Err(err) } }, #[cfg(feature = "flate2")] ContentEncoder::Deflate(ref mut encoder) => match encoder.write_all(data) { Ok(_) => Ok(()), 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)] pub(crate) struct TransferEncoding { buf: Option, kind: TransferEncodingKind, } #[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. /// /// Application decides when to stop writing. Eof, } impl TransferEncoding { fn take(&mut self) -> BytesMut { self.buf.take().unwrap() } fn buf_ref(&mut self) -> &BytesMut { self.buf.as_ref().unwrap() } fn len(&self) -> usize { self.buf.as_ref().unwrap().len() } fn is_empty(&self) -> bool { self.buf.as_ref().unwrap().is_empty() } fn buf_mut(&mut self) -> &mut BytesMut { self.buf.as_mut().unwrap() } #[inline] pub fn empty() -> TransferEncoding { TransferEncoding { buf: None, kind: TransferEncodingKind::Eof, } } #[inline] pub fn eof(buf: BytesMut) -> TransferEncoding { TransferEncoding { buf: Some(buf), kind: TransferEncodingKind::Eof, } } #[inline] pub fn chunked(buf: BytesMut) -> TransferEncoding { TransferEncoding { buf: Some(buf), kind: TransferEncodingKind::Chunked(false), } } #[inline] pub fn length(len: u64, buf: BytesMut) -> TransferEncoding { TransferEncoding { buf: Some(buf), kind: TransferEncodingKind::Length(len), } } /// Encode message. Return `EOF` state of encoder #[inline] pub fn encode(&mut self, msg: &[u8]) -> io::Result { match self.kind { TransferEncodingKind::Eof => { let eof = msg.is_empty(); self.buf.as_mut().unwrap().extend_from_slice(msg); Ok(eof) } TransferEncodingKind::Chunked(ref mut eof) => { if *eof { return Ok(true); } if msg.is_empty() { *eof = true; self.buf.as_mut().unwrap().extend_from_slice(b"0\r\n\r\n"); } else { let mut buf = BytesMut::new(); writeln!(&mut buf, "{:X}\r", msg.len()) .map_err(|e| io::Error::new(io::ErrorKind::Other, e))?; let b = self.buf.as_mut().unwrap(); b.reserve(buf.len() + msg.len() + 2); b.extend_from_slice(buf.as_ref()); b.extend_from_slice(msg); b.extend_from_slice(b"\r\n"); } Ok(*eof) } TransferEncodingKind::Length(ref mut remaining) => { if *remaining > 0 { if msg.is_empty() { return Ok(*remaining == 0); } let len = cmp::min(*remaining, msg.len() as u64); self.buf .as_mut() .unwrap() .extend_from_slice(&msg[..len as usize]); *remaining -= len as u64; Ok(*remaining == 0) } else { Ok(true) } } } } /// Encode eof. Return `EOF` state of encoder #[inline] pub fn encode_eof(&mut self) -> bool { match self.kind { TransferEncodingKind::Eof => true, TransferEncodingKind::Length(rem) => rem == 0, TransferEncodingKind::Chunked(ref mut eof) => { if !*eof { *eof = true; self.buf.as_mut().unwrap().extend_from_slice(b"0\r\n\r\n"); } true } } } } impl io::Write for TransferEncoding { #[inline] fn write(&mut self, buf: &[u8]) -> io::Result { if self.buf.is_some() { 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, 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 } } #[cfg(test)] mod tests { use super::*; use bytes::Bytes; #[test] fn test_chunked_te() { let bytes = BytesMut::new(); let mut enc = TransferEncoding::chunked(bytes); { assert!(!enc.encode(b"test").ok().unwrap()); assert!(enc.encode(b"").ok().unwrap()); } assert_eq!( enc.buf_mut().take().freeze(), Bytes::from_static(b"4\r\ntest\r\n0\r\n\r\n") ); } }