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3a6080b14abecc29c9aed77be6d60d34a12b368c
hyper/src/proto/h1/role.rs
Sean McArthur 3a6080b14a fix(client): coerce HTTP_2 requests to HTTP_11 
Closes #1770
2019-02-27 17:00:25 -08:00

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use std::fmt::{self, Write};
use std::mem;
use bytes::{BytesMut};
use http::header::{self, Entry, HeaderName, HeaderValue};
use http::{HeaderMap, Method, StatusCode, Version};
use httparse;
use error::Parse;
use headers;
use proto::{BodyLength, DecodedLength, MessageHead, RequestLine, RequestHead};
use proto::h1::{Encode, Encoder, Http1Transaction, ParseResult, ParseContext, ParsedMessage, date};
const MAX_HEADERS: usize = 100;
const AVERAGE_HEADER_SIZE: usize = 30; // totally scientific
macro_rules! header_name {
($bytes:expr) => ({
#[cfg(debug_assertions)]
{
match HeaderName::from_bytes($bytes) {
Ok(name) => name,
Err(_) => panic!("illegal header name from httparse: {:?}", ::bytes::Bytes::from($bytes)),
}
}
#[cfg(not(debug_assertions))]
{
HeaderName::from_bytes($bytes)
.expect("header name validated by httparse")
}
});
}
macro_rules! header_value {
($bytes:expr) => ({
#[cfg(debug_assertions)]
{
let __hvb: ::bytes::Bytes = $bytes;
match HeaderValue::from_shared(__hvb.clone()) {
Ok(name) => name,
Err(_) => panic!("illegal header value from httparse: {:?}", __hvb),
}
}
#[cfg(not(debug_assertions))]
{
// Unsafe: httparse already validated header value
unsafe {
HeaderValue::from_shared_unchecked($bytes)
}
}
});
}
// There are 2 main roles, Client and Server.
pub(crate) enum Client {}
pub(crate) enum Server {}
impl Http1Transaction for Server {
type Incoming = RequestLine;
type Outgoing = StatusCode;
const LOG: &'static str = "{role=server}";
fn parse(buf: &mut BytesMut, ctx: ParseContext) -> ParseResult<RequestLine> {
if buf.len() == 0 {
return Ok(None);
}
let mut keep_alive;
let is_http_11;
let subject;
let version;
let len;
let headers_len;
// Unsafe: both headers_indices and headers are using unitialized memory,
// but we *never* read any of it until after httparse has assigned
// values into it. By not zeroing out the stack memory, this saves
// a good ~5% on pipeline benchmarks.
let mut headers_indices: [HeaderIndices; MAX_HEADERS] = unsafe { mem::uninitialized() };
{
let mut headers: [httparse::Header; MAX_HEADERS] = unsafe { mem::uninitialized() };
trace!("Request.parse([Header; {}], [u8; {}])", headers.len(), buf.len());
let mut req = httparse::Request::new(&mut headers);
let bytes = buf.as_ref();
match req.parse(bytes)? {
httparse::Status::Complete(parsed_len) => {
trace!("Request.parse Complete({})", parsed_len);
len = parsed_len;
subject = RequestLine(
Method::from_bytes(req.method.unwrap().as_bytes())?,
req.path.unwrap().parse()?
);
version = if req.version.unwrap() == 1 {
keep_alive = true;
is_http_11 = true;
Version::HTTP_11
} else {
keep_alive = false;
is_http_11 = false;
Version::HTTP_10
};
record_header_indices(bytes, &req.headers, &mut headers_indices)?;
headers_len = req.headers.len();
//(len, subject, version, headers_len)
}
httparse::Status::Partial => return Ok(None),
}
};
let slice = buf.split_to(len).freeze();
// According to https://tools.ietf.org/html/rfc7230#section-3.3.3
// 1. (irrelevant to Request)
// 2. (irrelevant to Request)
// 3. Transfer-Encoding: chunked has a chunked body.
// 4. If multiple differing Content-Length headers or invalid, close connection.
// 5. Content-Length header has a sized body.
// 6. Length 0.
// 7. (irrelevant to Request)
let mut decoder = DecodedLength::ZERO;
let mut expect_continue = false;
let mut con_len = None;
let mut is_te = false;
let mut is_te_chunked = false;
let mut wants_upgrade = subject.0 == Method::CONNECT;
let mut headers = ctx.cached_headers
.take()
.unwrap_or_else(HeaderMap::new);
headers.reserve(headers_len);
for header in &headers_indices[..headers_len] {
let name = header_name!(&slice[header.name.0..header.name.1]);
let value = header_value!(slice.slice(header.value.0, header.value.1));
match name {
header::TRANSFER_ENCODING => {
// https://tools.ietf.org/html/rfc7230#section-3.3.3
// If Transfer-Encoding header is present, and 'chunked' is
// not the final encoding, and this is a Request, then it is
// mal-formed. A server should respond with 400 Bad Request.
if !is_http_11 {
debug!("HTTP/1.0 cannot have Transfer-Encoding header");
return Err(Parse::Header);
}
is_te = true;
if headers::is_chunked_(&value) {
is_te_chunked = true;
decoder = DecodedLength::CHUNKED;
}
},
header::CONTENT_LENGTH => {
if is_te {
continue;
}
let len = value.to_str()
.map_err(|_| Parse::Header)
.and_then(|s| s.parse().map_err(|_| Parse::Header))?;
if let Some(prev) = con_len {
if prev != len {
debug!(
"multiple Content-Length headers with different values: [{}, {}]",
prev,
len,
);
return Err(Parse::Header);
}
// we don't need to append this secondary length
continue;
}
decoder = DecodedLength::checked_new(len)?;
con_len = Some(len);
},
header::CONNECTION => {
// keep_alive was previously set to default for Version
if keep_alive {
// HTTP/1.1
keep_alive = !headers::connection_close(&value);
} else {
// HTTP/1.0
keep_alive = headers::connection_keep_alive(&value);
}
},
header::EXPECT => {
expect_continue = value.as_bytes() == b"100-continue";
},
header::UPGRADE => {
// Upgrades are only allowed with HTTP/1.1
wants_upgrade = is_http_11;
},
_ => (),
}
headers.append(name, value);
}
if is_te && !is_te_chunked {
debug!("request with transfer-encoding header, but not chunked, bad request");
return Err(Parse::Header);
}
*ctx.req_method = Some(subject.0.clone());
Ok(Some(ParsedMessage {
head: MessageHead {
version,
subject,
headers,
},
decode: decoder,
expect_continue,
keep_alive,
wants_upgrade,
}))
}
fn encode(mut msg: Encode<Self::Outgoing>, mut dst: &mut Vec<u8>) -> ::Result<Encoder> {
trace!(
"Server::encode status={:?}, body={:?}, req_method={:?}",
msg.head.subject,
msg.body,
msg.req_method
);
debug_assert!(!msg.title_case_headers, "no server config for title case headers");
// hyper currently doesn't support returning 1xx status codes as a Response
// This is because Service only allows returning a single Response, and
// so if you try to reply with a e.g. 100 Continue, you have no way of
// replying with the latter status code response.
let is_upgrade = msg.head.subject == StatusCode::SWITCHING_PROTOCOLS
|| (msg.req_method == &Some(Method::CONNECT) && msg.head.subject.is_success());
let (ret, mut is_last) = if is_upgrade {
(Ok(()), true)
} else if msg.head.subject.is_informational() {
warn!("response with 1xx status code not supported");
*msg.head = MessageHead::default();
msg.head.subject = StatusCode::INTERNAL_SERVER_ERROR;
msg.body = None;
(Err(::Error::new_user_unsupported_status_code()), true)
} else {
(Ok(()), !msg.keep_alive)
};
// In some error cases, we don't know about the invalid message until already
// pushing some bytes onto the `dst`. In those cases, we don't want to send
// the half-pushed message, so rewind to before.
let orig_len = dst.len();
let rewind = |dst: &mut Vec<u8>| {
dst.truncate(orig_len);
};
let init_cap = 30 + msg.head.headers.len() * AVERAGE_HEADER_SIZE;
dst.reserve(init_cap);
if msg.head.version == Version::HTTP_11 && msg.head.subject == StatusCode::OK {
extend(dst, b"HTTP/1.1 200 OK\r\n");
} else {
match msg.head.version {
Version::HTTP_10 => extend(dst, b"HTTP/1.0 "),
Version::HTTP_11 => extend(dst, b"HTTP/1.1 "),
Version::HTTP_2 => {
warn!("response with HTTP2 version coerced to HTTP/1.1");
extend(dst, b"HTTP/1.1 ");
},
other => panic!("unexpected response version: {:?}", other),
}
extend(dst, msg.head.subject.as_str().as_bytes());
extend(dst, b" ");
// a reason MUST be written, as many parsers will expect it.
extend(dst, msg.head.subject.canonical_reason().unwrap_or("<none>").as_bytes());
extend(dst, b"\r\n");
}
let mut encoder = Encoder::length(0);
let mut wrote_len = false;
let mut wrote_date = false;
'headers: for (name, mut values) in msg.head.headers.drain() {
match name {
header::CONTENT_LENGTH => {
if wrote_len {
warn!("transfer-encoding and content-length both found, canceling");
rewind(dst);
return Err(::Error::new_header());
}
match msg.body {
Some(BodyLength::Known(known_len)) => {
// The Payload claims to know a length, and
// the headers are already set. For performance
// reasons, we are just going to trust that
// the values match.
//
// In debug builds, we'll assert they are the
// same to help developers find bugs.
encoder = Encoder::length(known_len);
#[cfg(debug_assertions)]
{
let mut folded = None::<(u64, HeaderValue)>;
for value in values {
if let Some(len) = headers::content_length_parse(&value) {
if let Some(fold) = folded {
if fold.0 != len {
panic!("multiple Content-Length values found: [{}, {}]", fold.0, len);
}
folded = Some(fold);
} else {
folded = Some((len, value));
}
} else {
panic!("illegal Content-Length value: {:?}", value);
}
}
if let Some((len, value)) = folded {
assert!(
len == known_len,
"payload claims content-length of {}, custom content-length header claims {}",
known_len,
len,
);
extend(dst, b"content-length: ");
extend(dst, value.as_bytes());
extend(dst, b"\r\n");
wrote_len = true;
continue 'headers;
} else {
// No values in content-length... ignore?
continue 'headers;
}
}
},
Some(BodyLength::Unknown) => {
// The Payload impl didn't know how long the
// body is, but a length header was included.
// We have to parse the value to return our
// Encoder...
let mut folded = None::<(u64, HeaderValue)>;
for value in values {
if let Some(len) = headers::content_length_parse(&value) {
if let Some(fold) = folded {
if fold.0 != len {
warn!("multiple Content-Length values found: [{}, {}]", fold.0, len);
rewind(dst);
return Err(::Error::new_header());
}
folded = Some(fold);
} else {
folded = Some((len, value));
}
} else {
warn!("illegal Content-Length value: {:?}", value);
rewind(dst);
return Err(::Error::new_header());
}
}
if let Some((len, value)) = folded {
encoder = Encoder::length(len);
extend(dst, b"content-length: ");
extend(dst, value.as_bytes());
extend(dst, b"\r\n");
wrote_len = true;
continue 'headers;
} else {
// No values in content-length... ignore?
continue 'headers;
}
},
None => {
// We have no body to actually send,
// but the headers claim a content-length.
// There's only 2 ways this makes sense:
//
// - The header says the length is `0`.
// - This is a response to a `HEAD` request.
if msg.req_method == &Some(Method::HEAD) {
debug_assert_eq!(encoder, Encoder::length(0));
} else {
for value in values {
if value.as_bytes() != b"0" {
warn!("content-length value found, but empty body provided: {:?}", value);
}
}
continue 'headers;
}
}
}
wrote_len = true;
},
header::TRANSFER_ENCODING => {
if wrote_len {
warn!("transfer-encoding and content-length both found, canceling");
rewind(dst);
return Err(::Error::new_header());
}
// check that we actually can send a chunked body...
if msg.head.version == Version::HTTP_10 || !Server::can_chunked(msg.req_method, msg.head.subject) {
continue;
}
wrote_len = true;
encoder = Encoder::chunked();
extend(dst, b"transfer-encoding: ");
let mut saw_chunked;
if let Some(te) = values.next() {
extend(dst, te.as_bytes());
saw_chunked = headers::is_chunked_(&te);
for value in values {
extend(dst, b", ");
extend(dst, value.as_bytes());
saw_chunked = headers::is_chunked_(&value);
}
if !saw_chunked {
extend(dst, b", chunked\r\n");
} else {
extend(dst, b"\r\n");
}
} else {
// zero lines? add a chunked line then
extend(dst, b"chunked\r\n");
}
continue 'headers;
},
header::CONNECTION => {
if !is_last {
for value in values {
extend(dst, name.as_str().as_bytes());
extend(dst, b": ");
extend(dst, value.as_bytes());
extend(dst, b"\r\n");
if headers::connection_close(&value) {
is_last = true;
}
}
continue 'headers;
}
},
header::DATE => {
wrote_date = true;
},
_ => (),
}
//TODO: this should perhaps instead combine them into
//single lines, as RFC7230 suggests is preferable.
for value in values {
extend(dst, name.as_str().as_bytes());
extend(dst, b": ");
extend(dst, value.as_bytes());
extend(dst, b"\r\n");
}
}
if !wrote_len {
encoder = match msg.body {
Some(BodyLength::Unknown) => {
if msg.head.version == Version::HTTP_10 || !Server::can_chunked(msg.req_method, msg.head.subject) {
Encoder::close_delimited()
} else {
extend(dst, b"transfer-encoding: chunked\r\n");
Encoder::chunked()
}
},
None |
Some(BodyLength::Known(0)) => {
extend(dst, b"content-length: 0\r\n");
Encoder::length(0)
},
Some(BodyLength::Known(len)) => {
extend(dst, b"content-length: ");
let _ = ::itoa::write(&mut dst, len);
extend(dst, b"\r\n");
Encoder::length(len)
},
};
}
if !Server::can_have_body(msg.req_method, msg.head.subject) {
trace!(
"server body forced to 0; method={:?}, status={:?}",
msg.req_method,
msg.head.subject
);
encoder = Encoder::length(0);
}
// cached date is much faster than formatting every request
if !wrote_date {
dst.reserve(date::DATE_VALUE_LENGTH + 8);
extend(dst, b"date: ");
date::extend(dst);
extend(dst, b"\r\n\r\n");
} else {
extend(dst, b"\r\n");
}
ret.map(|()| encoder.set_last(is_last))
}
fn on_error(err: &::Error) -> Option<MessageHead<Self::Outgoing>> {
use ::error::{Kind, Parse};
let status = match *err.kind() {
Kind::Parse(Parse::Method) |
Kind::Parse(Parse::Header) |
Kind::Parse(Parse::Uri) |
Kind::Parse(Parse::Version) => {
StatusCode::BAD_REQUEST
},
Kind::Parse(Parse::TooLarge) => {
StatusCode::REQUEST_HEADER_FIELDS_TOO_LARGE
},
_ => return None,
};
debug!("sending automatic response ({}) for parse error", status);
let mut msg = MessageHead::default();
msg.subject = status;
Some(msg)
}
fn should_error_on_parse_eof() -> bool {
false
}
fn should_read_first() -> bool {
true
}
fn update_date() {
date::update();
}
}
impl Server {
fn can_have_body(method: &Option<Method>, status: StatusCode) -> bool {
Server::can_chunked(method, status)
}
fn can_chunked(method: &Option<Method>, status: StatusCode) -> bool {
if method == &Some(Method::HEAD) {
false
} else if method == &Some(Method::CONNECT) && status.is_success() {
false
} else {
match status {
// TODO: support for 1xx codes needs improvement everywhere
// would be 100...199 => false
StatusCode::SWITCHING_PROTOCOLS |
StatusCode::NO_CONTENT |
StatusCode::NOT_MODIFIED => false,
_ => true,
}
}
}
}
impl Http1Transaction for Client {
type Incoming = StatusCode;
type Outgoing = RequestLine;
const LOG: &'static str = "{role=client}";
fn parse(buf: &mut BytesMut, ctx: ParseContext) -> ParseResult<StatusCode> {
// Loop to skip information status code headers (100 Continue, etc).
loop {
if buf.len() == 0 {
return Ok(None);
}
// Unsafe: see comment in Server Http1Transaction, above.
let mut headers_indices: [HeaderIndices; MAX_HEADERS] = unsafe { mem::uninitialized() };
let (len, status, version, headers_len) = {
let mut headers: [httparse::Header; MAX_HEADERS] = unsafe { mem::uninitialized() };
trace!("Response.parse([Header; {}], [u8; {}])", headers.len(), buf.len());
let mut res = httparse::Response::new(&mut headers);
let bytes = buf.as_ref();
match res.parse(bytes)? {
httparse::Status::Complete(len) => {
trace!("Response.parse Complete({})", len);
let status = StatusCode::from_u16(res.code.unwrap())?;
let version = if res.version.unwrap() == 1 {
Version::HTTP_11
} else {
Version::HTTP_10
};
record_header_indices(bytes, &res.headers, &mut headers_indices)?;
let headers_len = res.headers.len();
(len, status, version, headers_len)
},
httparse::Status::Partial => return Ok(None),
}
};
let slice = buf.split_to(len).freeze();
let mut headers = ctx.cached_headers
.take()
.unwrap_or_else(HeaderMap::new);
let mut keep_alive = version == Version::HTTP_11;
headers.reserve(headers_len);
for header in &headers_indices[..headers_len] {
let name = header_name!(&slice[header.name.0..header.name.1]);
let value = header_value!(slice.slice(header.value.0, header.value.1));
match name {
header::CONNECTION => {
// keep_alive was previously set to default for Version
if keep_alive {
// HTTP/1.1
keep_alive = !headers::connection_close(&value);
} else {
// HTTP/1.0
keep_alive = headers::connection_keep_alive(&value);
}
},
_ => (),
}
headers.append(name, value);
}
let head = MessageHead {
version,
subject: status,
headers,
};
if let Some((decode, is_upgrade)) = Client::decoder(&head, ctx.req_method)? {
return Ok(Some(ParsedMessage {
head,
decode,
expect_continue: false,
// a client upgrade means the connection can't be used
// again, as it is definitely upgrading.
keep_alive: keep_alive && !is_upgrade,
wants_upgrade: is_upgrade,
}));
}
}
}
fn encode(msg: Encode<Self::Outgoing>, dst: &mut Vec<u8>) -> ::Result<Encoder> {
trace!("Client::encode method={:?}, body={:?}", msg.head.subject.0, msg.body);
*msg.req_method = Some(msg.head.subject.0.clone());
let body = Client::set_length(msg.head, msg.body);
let init_cap = 30 + msg.head.headers.len() * AVERAGE_HEADER_SIZE;
dst.reserve(init_cap);
extend(dst, msg.head.subject.0.as_str().as_bytes());
extend(dst, b" ");
//TODO: add API to http::Uri to encode without std::fmt
let _ = write!(FastWrite(dst), "{} ", msg.head.subject.1);
match msg.head.version {
Version::HTTP_10 => extend(dst, b"HTTP/1.0"),
Version::HTTP_11 => extend(dst, b"HTTP/1.1"),
Version::HTTP_2 => {
warn!("request with HTTP2 version coerced to HTTP/1.1");
extend(dst, b"HTTP/1.1");
},
other => panic!("unexpected request version: {:?}", other),
}
extend(dst, b"\r\n");
if msg.title_case_headers {
write_headers_title_case(&msg.head.headers, dst);
} else {
write_headers(&msg.head.headers, dst);
}
extend(dst, b"\r\n");
msg.head.headers.clear(); //TODO: remove when switching to drain()
Ok(body)
}
fn on_error(_err: &::Error) -> Option<MessageHead<Self::Outgoing>> {
// we can't tell the server about any errors it creates
None
}
fn should_error_on_parse_eof() -> bool {
true
}
fn should_read_first() -> bool {
false
}
}
impl Client {
/// Returns Some(length, wants_upgrade) if successful.
///
/// Returns None if this message head should be skipped (like a 100 status).
fn decoder(inc: &MessageHead<StatusCode>, method: &mut Option<Method>) -> Result<Option<(DecodedLength, bool)>, Parse> {
// According to https://tools.ietf.org/html/rfc7230#section-3.3.3
// 1. HEAD responses, and Status 1xx, 204, and 304 cannot have a body.
// 2. Status 2xx to a CONNECT cannot have a body.
// 3. Transfer-Encoding: chunked has a chunked body.
// 4. If multiple differing Content-Length headers or invalid, close connection.
// 5. Content-Length header has a sized body.
// 6. (irrelevant to Response)
// 7. Read till EOF.
match inc.subject.as_u16() {
101 => {
return Ok(Some((DecodedLength::ZERO, true)));
},
100...199 => {
trace!("ignoring informational response: {}", inc.subject.as_u16());
return Ok(None);
},
204 |
304 => return Ok(Some((DecodedLength::ZERO, false))),
_ => (),
}
match *method {
Some(Method::HEAD) => {
return Ok(Some((DecodedLength::ZERO, false)));
}
Some(Method::CONNECT) => match inc.subject.as_u16() {
200...299 => {
return Ok(Some((DecodedLength::ZERO, true)));
},
_ => {},
},
Some(_) => {},
None => {
trace!("Client::decoder is missing the Method");
}
}
if inc.headers.contains_key(header::TRANSFER_ENCODING) {
// https://tools.ietf.org/html/rfc7230#section-3.3.3
// If Transfer-Encoding header is present, and 'chunked' is
// not the final encoding, and this is a Request, then it is
// mal-formed. A server should respond with 400 Bad Request.
if inc.version == Version::HTTP_10 {
debug!("HTTP/1.0 cannot have Transfer-Encoding header");
Err(Parse::Header)
} else if headers::transfer_encoding_is_chunked(&inc.headers) {
Ok(Some((DecodedLength::CHUNKED, false)))
} else {
trace!("not chunked, read till eof");
Ok(Some((DecodedLength::CHUNKED, false)))
}
} else if let Some(len) = headers::content_length_parse_all(&inc.headers) {
Ok(Some((DecodedLength::checked_new(len)?, false)))
} else if inc.headers.contains_key(header::CONTENT_LENGTH) {
debug!("illegal Content-Length header");
Err(Parse::Header)
} else {
trace!("neither Transfer-Encoding nor Content-Length");
Ok(Some((DecodedLength::CLOSE_DELIMITED, false)))
}
}
}
impl Client {
fn set_length(head: &mut RequestHead, body: Option<BodyLength>) -> Encoder {
if let Some(body) = body {
let can_chunked = head.version == Version::HTTP_11
&& (head.subject.0 != Method::HEAD)
&& (head.subject.0 != Method::GET)
&& (head.subject.0 != Method::CONNECT);
set_length(&mut head.headers, body, can_chunked)
} else {
head.headers.remove(header::TRANSFER_ENCODING);
Encoder::length(0)
}
}
}
fn set_length(headers: &mut HeaderMap, body: BodyLength, can_chunked: bool) -> Encoder {
// If the user already set specific headers, we should respect them, regardless
// of what the Payload knows about itself. They set them for a reason.
// Because of the borrow checker, we can't check the for an existing
// Content-Length header while holding an `Entry` for the Transfer-Encoding
// header, so unfortunately, we must do the check here, first.
let existing_con_len = headers::content_length_parse_all(headers);
let mut should_remove_con_len = false;
if can_chunked {
// If the user set a transfer-encoding, respect that. Let's just
// make sure `chunked` is the final encoding.
let encoder = match headers.entry(header::TRANSFER_ENCODING)
.expect("TRANSFER_ENCODING is valid HeaderName") {
Entry::Occupied(te) => {
should_remove_con_len = true;
if headers::is_chunked(te.iter()) {
Some(Encoder::chunked())
} else {
warn!("user provided transfer-encoding does not end in 'chunked'");
// There's a Transfer-Encoding, but it doesn't end in 'chunked'!
// An example that could trigger this:
//
// Transfer-Encoding: gzip
//
// This can be bad, depending on if this is a request or a
// response.
//
// - A request is illegal if there is a `Transfer-Encoding`
// but it doesn't end in `chunked`.
// - A response that has `Transfer-Encoding` but doesn't
// end in `chunked` isn't illegal, it just forces this
// to be close-delimited.
//
// We can try to repair this, by adding `chunked` ourselves.
headers::add_chunked(te);
Some(Encoder::chunked())
}
},
Entry::Vacant(te) => {
if let Some(len) = existing_con_len {
Some(Encoder::length(len))
} else if let BodyLength::Unknown = body {
should_remove_con_len = true;
te.insert(HeaderValue::from_static("chunked"));
Some(Encoder::chunked())
} else {
None
}
},
};
// This is because we need a second mutable borrow to remove
// content-length header.
if let Some(encoder) = encoder {
if should_remove_con_len && existing_con_len.is_some() {
headers.remove(header::CONTENT_LENGTH);
}
return encoder;
}
// User didn't set transfer-encoding, AND we know body length,
// so we can just set the Content-Length automatically.
let len = if let BodyLength::Known(len) = body {
len
} else {
unreachable!("BodyLength::Unknown would set chunked");
};
set_content_length(headers, len)
} else {
// Chunked isn't legal, so if it is set, we need to remove it.
// Also, if it *is* set, then we shouldn't replace with a length,
// since the user tried to imply there isn't a length.
let encoder = if headers.remove(header::TRANSFER_ENCODING).is_some() {
trace!("removing illegal transfer-encoding header");
should_remove_con_len = true;
Encoder::close_delimited()
} else if let Some(len) = existing_con_len {
Encoder::length(len)
} else if let BodyLength::Known(len) = body {
set_content_length(headers, len)
} else {
Encoder::close_delimited()
};
if should_remove_con_len && existing_con_len.is_some() {
headers.remove(header::CONTENT_LENGTH);
}
encoder
}
}
fn set_content_length(headers: &mut HeaderMap, len: u64) -> Encoder {
// At this point, there should not be a valid Content-Length
// header. However, since we'll be indexing in anyways, we can
// warn the user if there was an existing illegal header.
//
// Or at least, we can in theory. It's actually a little bit slower,
// so perhaps only do that while the user is developing/testing.
if cfg!(debug_assertions) {
match headers.entry(header::CONTENT_LENGTH)
.expect("CONTENT_LENGTH is valid HeaderName") {
Entry::Occupied(mut cl) => {
// Internal sanity check, we should have already determined
// that the header was illegal before calling this function.
debug_assert!(headers::content_length_parse_all_values(cl.iter()).is_none());
// Uh oh, the user set `Content-Length` headers, but set bad ones.
// This would be an illegal message anyways, so let's try to repair
// with our known good length.
error!("user provided content-length header was invalid");
cl.insert(HeaderValue::from(len));
Encoder::length(len)
},
Entry::Vacant(cl) => {
cl.insert(HeaderValue::from(len));
Encoder::length(len)
}
}
} else {
headers.insert(header::CONTENT_LENGTH, HeaderValue::from(len));
Encoder::length(len)
}
}
#[derive(Clone, Copy)]
struct HeaderIndices {
name: (usize, usize),
value: (usize, usize),
}
fn record_header_indices(
bytes: &[u8],
headers: &[httparse::Header],
indices: &mut [HeaderIndices]
) -> Result<(), ::error::Parse> {
let bytes_ptr = bytes.as_ptr() as usize;
// FIXME: This should be a single plain `for` loop.
// Splitting it is a work-around for https://github.com/rust-lang/rust/issues/55105
macro_rules! split_loops_if {
(
cfg($($cfg: tt)+)
for $i: pat in ($iter: expr) {
$body1: block
$body2: block
}
) => {
for $i in $iter {
$body1
#[cfg(not($($cfg)+))] $body2
}
#[cfg($($cfg)+)]
for $i in $iter {
$body2
}
}
}
split_loops_if! {
cfg(all(target_arch = "arm", target_feature = "v7", target_feature = "neon"))
for (header, indices) in (headers.iter().zip(indices.iter_mut())) {
{
if header.name.len() >= (1 << 16) {
debug!("header name larger than 64kb: {:?}", header.name);
return Err(::error::Parse::TooLarge);
}
let name_start = header.name.as_ptr() as usize - bytes_ptr;
let name_end = name_start + header.name.len();
indices.name = (name_start, name_end);
}
{
let value_start = header.value.as_ptr() as usize - bytes_ptr;
let value_end = value_start + header.value.len();
indices.value = (value_start, value_end);
}
}
}
Ok(())
}
// Write header names as title case. The header name is assumed to be ASCII,
// therefore it is trivial to convert an ASCII character from lowercase to
// uppercase. It is as simple as XORing the lowercase character byte with
// space.
fn title_case(dst: &mut Vec<u8>, name: &[u8]) {
dst.reserve(name.len());
let mut iter = name.iter();
// Uppercase the first character
if let Some(c) = iter.next() {
if *c >= b'a' && *c <= b'z' {
dst.push(*c ^ b' ');
} else {
dst.push(*c);
}
}
while let Some(c) = iter.next() {
dst.push(*c);
if *c == b'-' {
if let Some(c) = iter.next() {
if *c >= b'a' && *c <= b'z' {
dst.push(*c ^ b' ');
} else {
dst.push(*c);
}
}
}
}
}
fn write_headers_title_case(headers: &HeaderMap, dst: &mut Vec<u8>) {
for (name, value) in headers {
title_case(dst, name.as_str().as_bytes());
extend(dst, b": ");
extend(dst, value.as_bytes());
extend(dst, b"\r\n");
}
}
fn write_headers(headers: &HeaderMap, dst: &mut Vec<u8>) {
for (name, value) in headers {
extend(dst, name.as_str().as_bytes());
extend(dst, b": ");
extend(dst, value.as_bytes());
extend(dst, b"\r\n");
}
}
struct FastWrite<'a>(&'a mut Vec<u8>);
impl<'a> fmt::Write for FastWrite<'a> {
#[inline]
fn write_str(&mut self, s: &str) -> fmt::Result {
extend(self.0, s.as_bytes());
Ok(())
}
#[inline]
fn write_fmt(&mut self, args: fmt::Arguments) -> fmt::Result {
fmt::write(self, args)
}
}
#[inline]
fn extend(dst: &mut Vec<u8>, data: &[u8]) {
dst.extend_from_slice(data);
}
#[cfg(test)]
mod tests {
use bytes::BytesMut;
use super::*;
#[test]
fn test_parse_request() {
extern crate pretty_env_logger;
let _ = pretty_env_logger::try_init();
let mut raw = BytesMut::from(b"GET /echo HTTP/1.1\r\nHost: hyper.rs\r\n\r\n".to_vec());
let mut method = None;
let msg = Server::parse(&mut raw, ParseContext {
cached_headers: &mut None,
req_method: &mut method,
}).unwrap().unwrap();
assert_eq!(raw.len(), 0);
assert_eq!(msg.head.subject.0, ::Method::GET);
assert_eq!(msg.head.subject.1, "/echo");
assert_eq!(msg.head.version, ::Version::HTTP_11);
assert_eq!(msg.head.headers.len(), 1);
assert_eq!(msg.head.headers["Host"], "hyper.rs");
assert_eq!(method, Some(::Method::GET));
}
#[test]
fn test_parse_response() {
extern crate pretty_env_logger;
let _ = pretty_env_logger::try_init();
let mut raw = BytesMut::from(b"HTTP/1.1 200 OK\r\nContent-Length: 0\r\n\r\n".to_vec());
let ctx = ParseContext {
cached_headers: &mut None,
req_method: &mut Some(::Method::GET),
};
let msg = Client::parse(&mut raw, ctx).unwrap().unwrap();
assert_eq!(raw.len(), 0);
assert_eq!(msg.head.subject, ::StatusCode::OK);
assert_eq!(msg.head.version, ::Version::HTTP_11);
assert_eq!(msg.head.headers.len(), 1);
assert_eq!(msg.head.headers["Content-Length"], "0");
}
#[test]
fn test_parse_request_errors() {
let mut raw = BytesMut::from(b"GET htt:p// HTTP/1.1\r\nHost: hyper.rs\r\n\r\n".to_vec());
let ctx = ParseContext {
cached_headers: &mut None,
req_method: &mut None,
};
Server::parse(&mut raw, ctx).unwrap_err();
}
#[test]
fn test_decoder_request() {
fn parse(s: &str) -> ParsedMessage<RequestLine> {
let mut bytes = BytesMut::from(s);
Server::parse(&mut bytes, ParseContext {
cached_headers: &mut None,
req_method: &mut None,
})
.expect("parse ok")
.expect("parse complete")
}
fn parse_err(s: &str, comment: &str) -> ::error::Parse {
let mut bytes = BytesMut::from(s);
Server::parse(&mut bytes, ParseContext {
cached_headers: &mut None,
req_method: &mut None,
})
.expect_err(comment)
}
// no length or transfer-encoding means 0-length body
assert_eq!(parse("\
GET / HTTP/1.1\r\n\
\r\n\
").decode, DecodedLength::ZERO);
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
\r\n\
").decode, DecodedLength::ZERO);
// transfer-encoding: chunked
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
transfer-encoding: chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
transfer-encoding: gzip, chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
transfer-encoding: gzip\r\n\
transfer-encoding: chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
// content-length
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
content-length: 10\r\n\
\r\n\
").decode, DecodedLength::new(10));
// transfer-encoding and content-length = chunked
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
content-length: 10\r\n\
transfer-encoding: chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
transfer-encoding: chunked\r\n\
content-length: 10\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
transfer-encoding: gzip\r\n\
content-length: 10\r\n\
transfer-encoding: chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
// multiple content-lengths of same value are fine
assert_eq!(parse("\
POST / HTTP/1.1\r\n\
content-length: 10\r\n\
content-length: 10\r\n\
\r\n\
").decode, DecodedLength::new(10));
// multiple content-lengths with different values is an error
parse_err("\
POST / HTTP/1.1\r\n\
content-length: 10\r\n\
content-length: 11\r\n\
\r\n\
", "multiple content-lengths");
// transfer-encoding that isn't chunked is an error
parse_err("\
POST / HTTP/1.1\r\n\
transfer-encoding: gzip\r\n\
\r\n\
", "transfer-encoding but not chunked");
parse_err("\
POST / HTTP/1.1\r\n\
transfer-encoding: chunked, gzip\r\n\
\r\n\
", "transfer-encoding doesn't end in chunked");
// http/1.0
assert_eq!(parse("\
POST / HTTP/1.0\r\n\
content-length: 10\r\n\
\r\n\
").decode, DecodedLength::new(10));
// 1.0 doesn't understand chunked, so its an error
parse_err("\
POST / HTTP/1.0\r\n\
transfer-encoding: chunked\r\n\
\r\n\
", "1.0 chunked");
}
#[test]
fn test_decoder_response() {
fn parse(s: &str) -> ParsedMessage<StatusCode> {
parse_with_method(s, Method::GET)
}
fn parse_ignores(s: &str) {
let mut bytes = BytesMut::from(s);
assert!(Client::parse(&mut bytes, ParseContext {
cached_headers: &mut None,
req_method: &mut Some(Method::GET),
})
.expect("parse ok")
.is_none())
}
fn parse_with_method(s: &str, m: Method) -> ParsedMessage<StatusCode> {
let mut bytes = BytesMut::from(s);
Client::parse(&mut bytes, ParseContext {
cached_headers: &mut None,
req_method: &mut Some(m),
})
.expect("parse ok")
.expect("parse complete")
}
fn parse_err(s: &str) -> ::error::Parse {
let mut bytes = BytesMut::from(s);
Client::parse(&mut bytes, ParseContext {
cached_headers: &mut None,
req_method: &mut Some(Method::GET),
})
.expect_err("parse should err")
}
// no content-length or transfer-encoding means close-delimited
assert_eq!(parse("\
HTTP/1.1 200 OK\r\n\
\r\n\
").decode, DecodedLength::CLOSE_DELIMITED);
// 204 and 304 never have a body
assert_eq!(parse("\
HTTP/1.1 204 No Content\r\n\
\r\n\
").decode, DecodedLength::ZERO);
assert_eq!(parse("\
HTTP/1.1 304 Not Modified\r\n\
\r\n\
").decode, DecodedLength::ZERO);
// content-length
assert_eq!(parse("\
HTTP/1.1 200 OK\r\n\
content-length: 8\r\n\
\r\n\
").decode, DecodedLength::new(8));
assert_eq!(parse("\
HTTP/1.1 200 OK\r\n\
content-length: 8\r\n\
content-length: 8\r\n\
\r\n\
").decode, DecodedLength::new(8));
parse_err("\
HTTP/1.1 200 OK\r\n\
content-length: 8\r\n\
content-length: 9\r\n\
\r\n\
");
// transfer-encoding
assert_eq!(parse("\
HTTP/1.1 200 OK\r\n\
transfer-encoding: chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
// transfer-encoding and content-length = chunked
assert_eq!(parse("\
HTTP/1.1 200 OK\r\n\
content-length: 10\r\n\
transfer-encoding: chunked\r\n\
\r\n\
").decode, DecodedLength::CHUNKED);
// HEAD can have content-length, but not body
assert_eq!(parse_with_method("\
HTTP/1.1 200 OK\r\n\
content-length: 8\r\n\
\r\n\
", Method::HEAD).decode, DecodedLength::ZERO);
// CONNECT with 200 never has body
{
let msg = parse_with_method("\
HTTP/1.1 200 OK\r\n\
\r\n\
", Method::CONNECT);
assert_eq!(msg.decode, DecodedLength::ZERO);
assert!(!msg.keep_alive, "should be upgrade");
assert!(msg.wants_upgrade, "should be upgrade");
}
// CONNECT receiving non 200 can have a body
assert_eq!(parse_with_method("\
HTTP/1.1 400 Bad Request\r\n\
\r\n\
", Method::CONNECT).decode, DecodedLength::CLOSE_DELIMITED);
// 1xx status codes
parse_ignores("\
HTTP/1.1 100 Continue\r\n\
\r\n\
");
parse_ignores("\
HTTP/1.1 103 Early Hints\r\n\
\r\n\
");
// 101 upgrade not supported yet
{
let msg = parse("\
HTTP/1.1 101 Switching Protocols\r\n\
\r\n\
");
assert_eq!(msg.decode, DecodedLength::ZERO);
assert!(!msg.keep_alive, "should be last");
assert!(msg.wants_upgrade, "should be upgrade");
}
// http/1.0
assert_eq!(parse("\
HTTP/1.0 200 OK\r\n\
\r\n\
").decode, DecodedLength::CLOSE_DELIMITED);
// 1.0 doesn't understand chunked
parse_err("\
HTTP/1.0 200 OK\r\n\
transfer-encoding: chunked\r\n\
\r\n\
");
// keep-alive
assert!(parse("\
HTTP/1.1 200 OK\r\n\
content-length: 0\r\n\
\r\n\
").keep_alive, "HTTP/1.1 keep-alive is default");
assert!(!parse("\
HTTP/1.1 200 OK\r\n\
content-length: 0\r\n\
connection: foo, close, bar\r\n\
\r\n\
").keep_alive, "connection close is always close");
assert!(!parse("\
HTTP/1.0 200 OK\r\n\
content-length: 0\r\n\
\r\n\
").keep_alive, "HTTP/1.0 close is default");
assert!(parse("\
HTTP/1.0 200 OK\r\n\
content-length: 0\r\n\
connection: foo, keep-alive, bar\r\n\
\r\n\
").keep_alive, "connection keep-alive is always keep-alive");
}
#[test]
fn test_client_request_encode_title_case() {
use http::header::HeaderValue;
use proto::BodyLength;
let mut head = MessageHead::default();
head.headers.insert("content-length", HeaderValue::from_static("10"));
head.headers.insert("content-type", HeaderValue::from_static("application/json"));
head.headers.insert("*-*", HeaderValue::from_static("o_o"));
let mut vec = Vec::new();
Client::encode(Encode {
head: &mut head,
body: Some(BodyLength::Known(10)),
keep_alive: true,
req_method: &mut None,
title_case_headers: true,
}, &mut vec).unwrap();
assert_eq!(vec, b"GET / HTTP/1.1\r\nContent-Length: 10\r\nContent-Type: application/json\r\n*-*: o_o\r\n\r\n".to_vec());
}
#[test]
fn test_server_encode_connect_method() {
let mut head = MessageHead::default();
let mut vec = Vec::new();
let encoder = Server::encode(Encode {
head: &mut head,
body: None,
keep_alive: true,
req_method: &mut Some(Method::CONNECT),
title_case_headers: false,
}, &mut vec).unwrap();
assert!(encoder.is_last());
}
#[test]
fn parse_header_htabs() {
let mut bytes = BytesMut::from("HTTP/1.1 200 OK\r\nserver: hello\tworld\r\n\r\n");
let parsed = Client::parse(&mut bytes, ParseContext {
cached_headers: &mut None,
req_method: &mut Some(Method::GET),
})
.expect("parse ok")
.expect("parse complete");
assert_eq!(parsed.head.headers["server"], "hello\tworld");
}
#[cfg(feature = "nightly")]
use test::Bencher;
#[cfg(feature = "nightly")]
#[bench]
fn bench_parse_incoming(b: &mut Bencher) {
let mut raw = BytesMut::from(
b"GET /super_long_uri/and_whatever?what_should_we_talk_about/\
I_wonder/Hard_to_write_in_an_uri_after_all/you_have_to_make\
_up_the_punctuation_yourself/how_fun_is_that?test=foo&test1=\
foo1&test2=foo2&test3=foo3&test4=foo4 HTTP/1.1\r\nHost: \
hyper.rs\r\nAccept: a lot of things\r\nAccept-Charset: \
utf8\r\nAccept-Encoding: *\r\nAccess-Control-Allow-\
Credentials: None\r\nAccess-Control-Allow-Origin: None\r\n\
Access-Control-Allow-Methods: None\r\nAccess-Control-Allow-\
Headers: None\r\nContent-Encoding: utf8\r\nContent-Security-\
Policy: None\r\nContent-Type: text/html\r\nOrigin: hyper\
\r\nSec-Websocket-Extensions: It looks super important!\r\n\
Sec-Websocket-Origin: hyper\r\nSec-Websocket-Version: 4.3\r\
\nStrict-Transport-Security: None\r\nUser-Agent: hyper\r\n\
X-Content-Duration: None\r\nX-Content-Security-Policy: None\
\r\nX-DNSPrefetch-Control: None\r\nX-Frame-Options: \
Something important obviously\r\nX-Requested-With: Nothing\
\r\n\r\n".to_vec()
);
let len = raw.len();
let mut headers = Some(HeaderMap::new());
b.bytes = len as u64;
b.iter(|| {
let mut msg = Server::parse(&mut raw, ParseContext {
cached_headers: &mut headers,
req_method: &mut None,
}).unwrap().unwrap();
::test::black_box(&msg);
msg.head.headers.clear();
headers = Some(msg.head.headers);
restart(&mut raw, len);
});
fn restart(b: &mut BytesMut, len: usize) {
b.reserve(1);
unsafe {
b.set_len(len);
}
}
}
#[cfg(feature = "nightly")]
#[bench]
fn bench_parse_short(b: &mut Bencher) {
let s = &b"GET / HTTP/1.1\r\nHost: localhost:8080\r\n\r\n"[..];
let mut raw = BytesMut::from(s.to_vec());
let len = raw.len();
let mut headers = Some(HeaderMap::new());
b.bytes = len as u64;
b.iter(|| {
let mut msg = Server::parse(&mut raw, ParseContext {
cached_headers: &mut headers,
req_method: &mut None,
}).unwrap().unwrap();
::test::black_box(&msg);
msg.head.headers.clear();
headers = Some(msg.head.headers);
restart(&mut raw, len);
});
fn restart(b: &mut BytesMut, len: usize) {
b.reserve(1);
unsafe {
b.set_len(len);
}
}
}
#[cfg(feature = "nightly")]
#[bench]
fn bench_server_encode_headers_preset(b: &mut Bencher) {
use http::header::HeaderValue;
use proto::BodyLength;
let len = 108;
b.bytes = len as u64;
let mut head = MessageHead::default();
let mut headers = HeaderMap::new();
headers.insert("content-length", HeaderValue::from_static("10"));
headers.insert("content-type", HeaderValue::from_static("application/json"));
b.iter(|| {
let mut vec = Vec::new();
head.headers = headers.clone();
Server::encode(Encode {
head: &mut head,
body: Some(BodyLength::Known(10)),
keep_alive: true,
req_method: &mut Some(Method::GET),
title_case_headers: false,
}, &mut vec).unwrap();
assert_eq!(vec.len(), len);
::test::black_box(vec);
})
}
#[cfg(feature = "nightly")]
#[bench]
fn bench_server_encode_no_headers(b: &mut Bencher) {
use proto::BodyLength;
let len = 76;
b.bytes = len as u64;
let mut head = MessageHead::default();
let mut vec = Vec::with_capacity(128);
b.iter(|| {
Server::encode(Encode {
head: &mut head,
body: Some(BodyLength::Known(10)),
keep_alive: true,
req_method: &mut Some(Method::GET),
title_case_headers: false,
}, &mut vec).unwrap();
assert_eq!(vec.len(), len);
::test::black_box(&vec);
vec.clear();
})
}
}
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