#[cfg(feature = "http1")] use bytes::BytesMut; use http::header::CONTENT_LENGTH; use http::header::{HeaderValue, ValueIter}; use http::HeaderMap; #[cfg(all(feature = "http2", feature = "client"))] use http::Method; #[cfg(feature = "http1")] pub(super) fn connection_keep_alive(value: &HeaderValue) -> bool { connection_has(value, "keep-alive") } #[cfg(feature = "http1")] pub(super) fn connection_close(value: &HeaderValue) -> bool { connection_has(value, "close") } #[cfg(feature = "http1")] fn connection_has(value: &HeaderValue, needle: &str) -> bool { if let Ok(s) = value.to_str() { for val in s.split(',') { if val.trim().eq_ignore_ascii_case(needle) { return true; } } } false } #[cfg(all(feature = "http1", feature = "server"))] pub(super) fn content_length_parse(value: &HeaderValue) -> Option { from_digits(value.as_bytes()) } pub(super) fn content_length_parse_all(headers: &HeaderMap) -> Option { content_length_parse_all_values(headers.get_all(CONTENT_LENGTH).into_iter()) } pub(super) fn content_length_parse_all_values(values: ValueIter<'_, HeaderValue>) -> Option { // If multiple Content-Length headers were sent, everything can still // be alright if they all contain the same value, and all parse // correctly. If not, then it's an error. let mut content_length: Option = None; for h in values { if let Ok(line) = h.to_str() { for v in line.split(',') { if let Some(n) = from_digits(v.trim().as_bytes()) { if content_length.is_none() { content_length = Some(n) } else if content_length != Some(n) { return None; } } else { return None } } } else { return None } } return content_length } fn from_digits(bytes: &[u8]) -> Option { // cannot use FromStr for u64, since it allows a signed prefix let mut result = 0u64; const RADIX: u64 = 10; if bytes.is_empty() { return None; } for &b in bytes { // can't use char::to_digit, since we haven't verified these bytes // are utf-8. match b { b'0'..=b'9' => { result = result.checked_mul(RADIX)?; result = result.checked_add((b - b'0') as u64)?; }, _ => { // not a DIGIT, get outta here! return None; } } } Some(result) } #[cfg(all(feature = "http2", feature = "client"))] pub(super) fn method_has_defined_payload_semantics(method: &Method) -> bool { match *method { Method::GET | Method::HEAD | Method::DELETE | Method::CONNECT => false, _ => true, } } #[cfg(feature = "http2")] pub(super) fn set_content_length_if_missing(headers: &mut HeaderMap, len: u64) { headers .entry(CONTENT_LENGTH) .or_insert_with(|| HeaderValue::from(len)); } #[cfg(feature = "http1")] pub(super) fn transfer_encoding_is_chunked(headers: &HeaderMap) -> bool { is_chunked(headers.get_all(http::header::TRANSFER_ENCODING).into_iter()) } #[cfg(feature = "http1")] pub(super) fn is_chunked(mut encodings: ValueIter<'_, HeaderValue>) -> bool { // chunked must always be the last encoding, according to spec if let Some(line) = encodings.next_back() { return is_chunked_(line); } false } #[cfg(feature = "http1")] pub(super) fn is_chunked_(value: &HeaderValue) -> bool { // chunked must always be the last encoding, according to spec if let Ok(s) = value.to_str() { if let Some(encoding) = s.rsplit(',').next() { return encoding.trim().eq_ignore_ascii_case("chunked"); } } false } #[cfg(feature = "http1")] pub(super) fn add_chunked(mut entry: http::header::OccupiedEntry<'_, HeaderValue>) { const CHUNKED: &str = "chunked"; if let Some(line) = entry.iter_mut().next_back() { // + 2 for ", " let new_cap = line.as_bytes().len() + CHUNKED.len() + 2; let mut buf = BytesMut::with_capacity(new_cap); buf.extend_from_slice(line.as_bytes()); buf.extend_from_slice(b", "); buf.extend_from_slice(CHUNKED.as_bytes()); *line = HeaderValue::from_maybe_shared(buf.freeze()) .expect("original header value plus ascii is valid"); return; } entry.insert(HeaderValue::from_static(CHUNKED)); }