//! Multipart response payload support. use std::{ cell::RefCell, pin::Pin, rc::Rc, task::{Context, Poll}, }; use actix_web::{ dev, error::{ParseError, PayloadError}, http::header::{self, ContentDisposition, HeaderMap, HeaderName, HeaderValue}, web::Bytes, HttpRequest, }; use futures_core::stream::Stream; use mime::Mime; use crate::{ error::MultipartError, field::InnerField, payload::{PayloadBuffer, PayloadRef}, safety::Safety, Field, }; const MAX_HEADERS: usize = 32; /// The server-side implementation of `multipart/form-data` requests. /// /// This will parse the incoming stream into `MultipartItem` instances via its `Stream` /// implementation. `MultipartItem::Field` contains multipart field. `MultipartItem::Multipart` is /// used for nested multipart streams. pub struct Multipart { safety: Safety, inner: Option, error: Option, } impl Multipart { /// Creates multipart instance from parts. pub fn new(headers: &HeaderMap, stream: S) -> Self where S: Stream> + 'static, { match Self::find_ct_and_boundary(headers) { Ok((ct, boundary)) => Self::from_ct_and_boundary(ct, boundary, stream), Err(err) => Self::from_error(err), } } /// Creates multipart instance from parts. pub(crate) fn from_req(req: &HttpRequest, payload: &mut dev::Payload) -> Self { match Self::find_ct_and_boundary(req.headers()) { Ok((ct, boundary)) => Self::from_ct_and_boundary(ct, boundary, payload.take()), Err(err) => Self::from_error(err), } } /// Extract Content-Type and boundary info from headers. pub(crate) fn find_ct_and_boundary( headers: &HeaderMap, ) -> Result<(Mime, String), MultipartError> { let content_type = headers .get(&header::CONTENT_TYPE) .ok_or(MultipartError::ContentTypeMissing)? .to_str() .ok() .and_then(|content_type| content_type.parse::().ok()) .ok_or(MultipartError::ContentTypeParse)?; if content_type.type_() != mime::MULTIPART { return Err(MultipartError::ContentTypeIncompatible); } let boundary = content_type .get_param(mime::BOUNDARY) .ok_or(MultipartError::BoundaryMissing)? .as_str() .to_owned(); Ok((content_type, boundary)) } /// Constructs a new multipart reader from given Content-Type, boundary, and stream. pub(crate) fn from_ct_and_boundary(ct: Mime, boundary: String, stream: S) -> Multipart where S: Stream> + 'static, { Multipart { safety: Safety::new(), inner: Some(InnerMultipart { payload: PayloadRef::new(PayloadBuffer::new(stream)), content_type: ct, boundary, state: InnerState::FirstBoundary, item: InnerMultipartItem::None, }), error: None, } } /// Constructs a new multipart reader from given `MultipartError`. pub(crate) fn from_error(err: MultipartError) -> Multipart { Multipart { error: Some(err), safety: Safety::new(), inner: None, } } /// Return requests parsed Content-Type or raise the stored error. pub(crate) fn content_type_or_bail(&mut self) -> Result { if let Some(err) = self.error.take() { return Err(err); } Ok(self .inner .as_ref() // TODO: look into using enum instead of two options .expect("multipart requests should have state") .content_type .clone()) } } impl Stream for Multipart { type Item = Result; fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { let this = self.get_mut(); match this.inner.as_mut() { Some(inner) => { if let Some(mut buffer) = inner.payload.get_mut(&this.safety) { // check safety and poll read payload to buffer. buffer.poll_stream(cx)?; } else if !this.safety.is_clean() { // safety violation return Poll::Ready(Some(Err(MultipartError::NotConsumed))); } else { return Poll::Pending; } inner.poll(&this.safety, cx) } None => Poll::Ready(Some(Err(this .error .take() .expect("Multipart polled after finish")))), } } } #[derive(PartialEq, Debug)] enum InnerState { /// Stream EOF. Eof, /// Skip data until first boundary. FirstBoundary, /// Reading boundary. Boundary, /// Reading Headers. Headers, } enum InnerMultipartItem { None, Field(Rc>), } struct InnerMultipart { /// Request's payload stream & buffer. payload: PayloadRef, /// Request's Content-Type. /// /// Guaranteed to have "multipart" top-level media type, i.e., `multipart/*`. content_type: Mime, /// Field boundary. boundary: String, state: InnerState, item: InnerMultipartItem, } impl InnerMultipart { fn read_field_headers( payload: &mut PayloadBuffer, ) -> Result, MultipartError> { match payload.read_until(b"\r\n\r\n")? { None => { if payload.eof { Err(MultipartError::Incomplete) } else { Ok(None) } } Some(bytes) => { let mut hdrs = [httparse::EMPTY_HEADER; MAX_HEADERS]; match httparse::parse_headers(&bytes, &mut hdrs) { Ok(httparse::Status::Complete((_, hdrs))) => { // convert headers let mut headers = HeaderMap::with_capacity(hdrs.len()); for h in hdrs { let name = HeaderName::try_from(h.name).map_err(|_| ParseError::Header)?; let value = HeaderValue::try_from(h.value).map_err(|_| ParseError::Header)?; headers.append(name, value); } Ok(Some(headers)) } Ok(httparse::Status::Partial) => Err(ParseError::Header.into()), Err(err) => Err(ParseError::from(err).into()), } } } } fn read_boundary( payload: &mut PayloadBuffer, boundary: &str, ) -> Result, MultipartError> { // TODO: need to read epilogue match payload.readline_or_eof()? { None => { if payload.eof { Ok(Some(true)) } else { Ok(None) } } Some(chunk) => { if chunk.len() < boundary.len() + 4 || &chunk[..2] != b"--" || &chunk[2..boundary.len() + 2] != boundary.as_bytes() { Err(MultipartError::BoundaryMissing) } else if &chunk[boundary.len() + 2..] == b"\r\n" { Ok(Some(false)) } else if &chunk[boundary.len() + 2..boundary.len() + 4] == b"--" && (chunk.len() == boundary.len() + 4 || &chunk[boundary.len() + 4..] == b"\r\n") { Ok(Some(true)) } else { Err(MultipartError::BoundaryMissing) } } } } fn skip_until_boundary( payload: &mut PayloadBuffer, boundary: &str, ) -> Result, MultipartError> { let mut eof = false; loop { match payload.readline()? { Some(chunk) => { if chunk.is_empty() { return Err(MultipartError::BoundaryMissing); } if chunk.len() < boundary.len() { continue; } if &chunk[..2] == b"--" && &chunk[2..chunk.len() - 2] == boundary.as_bytes() { break; } else { if chunk.len() < boundary.len() + 2 { continue; } let b: &[u8] = boundary.as_ref(); if &chunk[..boundary.len()] == b && &chunk[boundary.len()..boundary.len() + 2] == b"--" { eof = true; break; } } } None => { return if payload.eof { Err(MultipartError::Incomplete) } else { Ok(None) }; } } } Ok(Some(eof)) } fn poll( &mut self, safety: &Safety, cx: &Context<'_>, ) -> Poll>> { if self.state == InnerState::Eof { Poll::Ready(None) } else { // release field loop { // Nested multipart streams of fields has to be consumed // before switching to next if safety.current() { let stop = match self.item { InnerMultipartItem::Field(ref mut field) => { match field.borrow_mut().poll(safety) { Poll::Pending => return Poll::Pending, Poll::Ready(Some(Ok(_))) => continue, Poll::Ready(Some(Err(err))) => return Poll::Ready(Some(Err(err))), Poll::Ready(None) => true, } } InnerMultipartItem::None => false, }; if stop { self.item = InnerMultipartItem::None; } if let InnerMultipartItem::None = self.item { break; } } } let field_headers = if let Some(mut payload) = self.payload.get_mut(safety) { match self.state { // read until first boundary InnerState::FirstBoundary => { match InnerMultipart::skip_until_boundary(&mut payload, &self.boundary)? { Some(eof) => { if eof { self.state = InnerState::Eof; return Poll::Ready(None); } else { self.state = InnerState::Headers; } } None => return Poll::Pending, } } // read boundary InnerState::Boundary => { match InnerMultipart::read_boundary(&mut payload, &self.boundary)? { None => return Poll::Pending, Some(eof) => { if eof { self.state = InnerState::Eof; return Poll::Ready(None); } else { self.state = InnerState::Headers; } } } } _ => {} } // read field headers for next field if self.state == InnerState::Headers { if let Some(headers) = InnerMultipart::read_field_headers(&mut payload)? { self.state = InnerState::Boundary; headers } else { return Poll::Pending; } } else { unreachable!() } } else { log::debug!("NotReady: field is in flight"); return Poll::Pending; }; let field_content_disposition = field_headers .get(&header::CONTENT_DISPOSITION) .and_then(|cd| ContentDisposition::from_raw(cd).ok()) .filter(|content_disposition| { matches!( content_disposition.disposition, header::DispositionType::FormData, ) }); let form_field_name = if self.content_type.subtype() == mime::FORM_DATA { // According to RFC 7578 ยง4.2, which relates to "multipart/form-data" requests // specifically, fields must have a Content-Disposition header, its disposition // type must be set as "form-data", and it must have a name parameter. let Some(cd) = &field_content_disposition else { return Poll::Ready(Some(Err(MultipartError::ContentDispositionMissing))); }; let Some(field_name) = cd.get_name() else { return Poll::Ready(Some(Err(MultipartError::ContentDispositionNameMissing))); }; Some(field_name.to_owned()) } else { None }; // TODO: check out other multipart/* RFCs for specific requirements let field_content_type: Option = field_headers .get(&header::CONTENT_TYPE) .and_then(|ct| ct.to_str().ok()) .and_then(|ct| ct.parse().ok()); self.state = InnerState::Boundary; // nested multipart stream is not supported if let Some(mime) = &field_content_type { if mime.type_() == mime::MULTIPART { return Poll::Ready(Some(Err(MultipartError::Nested))); } } let field_inner = InnerField::new_in_rc(self.payload.clone(), self.boundary.clone(), &field_headers)?; self.item = InnerMultipartItem::Field(Rc::clone(&field_inner)); Poll::Ready(Some(Ok(Field::new( field_content_type, field_content_disposition, form_field_name, field_headers, safety.clone(cx), field_inner, )))) } } } impl Drop for InnerMultipart { fn drop(&mut self) { // InnerMultipartItem::Field has to be dropped first because of Safety. self.item = InnerMultipartItem::None; } } #[cfg(test)] mod tests { use std::time::Duration; use actix_http::h1; use actix_web::{ http::header::{DispositionParam, DispositionType}, rt, test::TestRequest, web::{BufMut as _, BytesMut}, FromRequest, }; use assert_matches::assert_matches; use futures_util::{future::lazy, StreamExt as _}; use tokio::sync::mpsc; use tokio_stream::wrappers::UnboundedReceiverStream; use super::*; const BOUNDARY: &str = "abbc761f78ff4d7cb7573b5a23f96ef0"; #[actix_rt::test] async fn test_boundary() { let headers = HeaderMap::new(); match Multipart::find_ct_and_boundary(&headers) { Err(MultipartError::ContentTypeMissing) => {} _ => unreachable!("should not happen"), } let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static("test"), ); match Multipart::find_ct_and_boundary(&headers) { Err(MultipartError::ContentTypeParse) => {} _ => unreachable!("should not happen"), } let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static("multipart/mixed"), ); match Multipart::find_ct_and_boundary(&headers) { Err(MultipartError::BoundaryMissing) => {} _ => unreachable!("should not happen"), } let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static( "multipart/mixed; boundary=\"5c02368e880e436dab70ed54e1c58209\"", ), ); assert_eq!( Multipart::find_ct_and_boundary(&headers).unwrap().1, "5c02368e880e436dab70ed54e1c58209", ); } fn create_stream() -> ( mpsc::UnboundedSender>, impl Stream>, ) { let (tx, rx) = mpsc::unbounded_channel(); ( tx, UnboundedReceiverStream::new(rx).map(|res| res.map_err(|_| panic!())), ) } // Stream that returns from a Bytes, one char at a time and Pending every other poll() struct SlowStream { bytes: Bytes, pos: usize, ready: bool, } impl SlowStream { fn new(bytes: Bytes) -> SlowStream { SlowStream { bytes, pos: 0, ready: false, } } } impl Stream for SlowStream { type Item = Result; fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { let this = self.get_mut(); if !this.ready { this.ready = true; cx.waker().wake_by_ref(); return Poll::Pending; } if this.pos == this.bytes.len() { return Poll::Ready(None); } let res = Poll::Ready(Some(Ok(this.bytes.slice(this.pos..(this.pos + 1))))); this.pos += 1; this.ready = false; res } } fn create_simple_request_with_header() -> (Bytes, HeaderMap) { let (body, headers) = crate::test::create_form_data_payload_and_headers_with_boundary( BOUNDARY, "file", Some("fn.txt".to_owned()), Some(mime::TEXT_PLAIN_UTF_8), Bytes::from_static(b"data"), ); let mut buf = BytesMut::with_capacity(body.len() + 14); // add junk before form to test pre-boundary data rejection buf.put("testasdadsad\r\n".as_bytes()); buf.put(body); (buf.freeze(), headers) } // TODO: use test utility when multi-file support is introduced fn create_double_request_with_header() -> (Bytes, HeaderMap) { let bytes = Bytes::from( "testasdadsad\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n\ Content-Disposition: form-data; name=\"file\"; filename=\"fn.txt\"\r\n\ Content-Type: text/plain; charset=utf-8\r\nContent-Length: 4\r\n\r\n\ test\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n\ Content-Disposition: form-data; name=\"file\"; filename=\"fn.txt\"\r\n\ Content-Type: text/plain; charset=utf-8\r\nContent-Length: 4\r\n\r\n\ data\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0--\r\n", ); let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static( "multipart/mixed; boundary=\"abbc761f78ff4d7cb7573b5a23f96ef0\"", ), ); (bytes, headers) } #[actix_rt::test] async fn test_multipart_no_end_crlf() { let (sender, payload) = create_stream(); let (mut bytes, headers) = create_double_request_with_header(); let bytes_stripped = bytes.split_to(bytes.len()); // strip crlf sender.send(Ok(bytes_stripped)).unwrap(); drop(sender); // eof let mut multipart = Multipart::new(&headers, payload); match multipart.next().await.unwrap() { Ok(_) => {} _ => unreachable!(), } match multipart.next().await.unwrap() { Ok(_) => {} _ => unreachable!(), } match multipart.next().await { None => {} _ => unreachable!(), } } #[actix_rt::test] async fn test_multipart() { let (sender, payload) = create_stream(); let (bytes, headers) = create_double_request_with_header(); sender.send(Ok(bytes)).unwrap(); let mut multipart = Multipart::new(&headers, payload); match multipart.next().await { Some(Ok(mut field)) => { let cd = field.content_disposition().unwrap(); assert_eq!(cd.disposition, DispositionType::FormData); assert_eq!(cd.parameters[0], DispositionParam::Name("file".into())); assert_eq!(field.content_type().unwrap().type_(), mime::TEXT); assert_eq!(field.content_type().unwrap().subtype(), mime::PLAIN); match field.next().await.unwrap() { Ok(chunk) => assert_eq!(chunk, "test"), _ => unreachable!(), } match field.next().await { None => {} _ => unreachable!(), } } _ => unreachable!(), } match multipart.next().await.unwrap() { Ok(mut field) => { assert_eq!(field.content_type().unwrap().type_(), mime::TEXT); assert_eq!(field.content_type().unwrap().subtype(), mime::PLAIN); match field.next().await { Some(Ok(chunk)) => assert_eq!(chunk, "data"), _ => unreachable!(), } match field.next().await { None => {} _ => unreachable!(), } } _ => unreachable!(), } match multipart.next().await { None => {} _ => unreachable!(), } } // Loops, collecting all bytes until end-of-field async fn get_whole_field(field: &mut Field) -> BytesMut { let mut b = BytesMut::new(); loop { match field.next().await { Some(Ok(chunk)) => b.extend_from_slice(&chunk), None => return b, _ => unreachable!(), } } } #[actix_rt::test] async fn test_stream() { let (bytes, headers) = create_double_request_with_header(); let payload = SlowStream::new(bytes); let mut multipart = Multipart::new(&headers, payload); match multipart.next().await.unwrap() { Ok(mut field) => { let cd = field.content_disposition().unwrap(); assert_eq!(cd.disposition, DispositionType::FormData); assert_eq!(cd.parameters[0], DispositionParam::Name("file".into())); assert_eq!(field.content_type().unwrap().type_(), mime::TEXT); assert_eq!(field.content_type().unwrap().subtype(), mime::PLAIN); assert_eq!(get_whole_field(&mut field).await, "test"); } _ => unreachable!(), } match multipart.next().await { Some(Ok(mut field)) => { assert_eq!(field.content_type().unwrap().type_(), mime::TEXT); assert_eq!(field.content_type().unwrap().subtype(), mime::PLAIN); assert_eq!(get_whole_field(&mut field).await, "data"); } _ => unreachable!(), } match multipart.next().await { None => {} _ => unreachable!(), } } #[actix_rt::test] async fn test_basic() { let (_, payload) = h1::Payload::create(false); let mut payload = PayloadBuffer::new(payload); assert_eq!(payload.buf.len(), 0); lazy(|cx| payload.poll_stream(cx)).await.unwrap(); assert_eq!(None, payload.read_max(1).unwrap()); } #[actix_rt::test] async fn test_eof() { let (mut sender, payload) = h1::Payload::create(false); let mut payload = PayloadBuffer::new(payload); assert_eq!(None, payload.read_max(4).unwrap()); sender.feed_data(Bytes::from("data")); sender.feed_eof(); lazy(|cx| payload.poll_stream(cx)).await.unwrap(); assert_eq!(Some(Bytes::from("data")), payload.read_max(4).unwrap()); assert_eq!(payload.buf.len(), 0); assert!(payload.read_max(1).is_err()); assert!(payload.eof); } #[actix_rt::test] async fn test_err() { let (mut sender, payload) = h1::Payload::create(false); let mut payload = PayloadBuffer::new(payload); assert_eq!(None, payload.read_max(1).unwrap()); sender.set_error(PayloadError::Incomplete(None)); lazy(|cx| payload.poll_stream(cx)).await.err().unwrap(); } #[actix_rt::test] async fn test_readmax() { let (mut sender, payload) = h1::Payload::create(false); let mut payload = PayloadBuffer::new(payload); sender.feed_data(Bytes::from("line1")); sender.feed_data(Bytes::from("line2")); lazy(|cx| payload.poll_stream(cx)).await.unwrap(); assert_eq!(payload.buf.len(), 10); assert_eq!(Some(Bytes::from("line1")), payload.read_max(5).unwrap()); assert_eq!(payload.buf.len(), 5); assert_eq!(Some(Bytes::from("line2")), payload.read_max(5).unwrap()); assert_eq!(payload.buf.len(), 0); } #[actix_rt::test] async fn test_readexactly() { let (mut sender, payload) = h1::Payload::create(false); let mut payload = PayloadBuffer::new(payload); assert_eq!(None, payload.read_exact(2)); sender.feed_data(Bytes::from("line1")); sender.feed_data(Bytes::from("line2")); lazy(|cx| payload.poll_stream(cx)).await.unwrap(); assert_eq!(Some(Bytes::from_static(b"li")), payload.read_exact(2)); assert_eq!(payload.buf.len(), 8); assert_eq!(Some(Bytes::from_static(b"ne1l")), payload.read_exact(4)); assert_eq!(payload.buf.len(), 4); } #[actix_rt::test] async fn test_readuntil() { let (mut sender, payload) = h1::Payload::create(false); let mut payload = PayloadBuffer::new(payload); assert_eq!(None, payload.read_until(b"ne").unwrap()); sender.feed_data(Bytes::from("line1")); sender.feed_data(Bytes::from("line2")); lazy(|cx| payload.poll_stream(cx)).await.unwrap(); assert_eq!( Some(Bytes::from("line")), payload.read_until(b"ne").unwrap() ); assert_eq!(payload.buf.len(), 6); assert_eq!( Some(Bytes::from("1line2")), payload.read_until(b"2").unwrap() ); assert_eq!(payload.buf.len(), 0); } #[actix_rt::test] async fn test_multipart_from_error() { let err = MultipartError::ContentTypeMissing; let mut multipart = Multipart::from_error(err); assert!(multipart.next().await.unwrap().is_err()) } #[actix_rt::test] async fn test_multipart_from_boundary() { let (_, payload) = create_stream(); let (_, headers) = create_simple_request_with_header(); let (ct, boundary) = Multipart::find_ct_and_boundary(&headers).unwrap(); let _ = Multipart::from_ct_and_boundary(ct, boundary, payload); } #[actix_rt::test] async fn test_multipart_payload_consumption() { // with sample payload and HttpRequest with no headers let (_, inner_payload) = h1::Payload::create(false); let mut payload = actix_web::dev::Payload::from(inner_payload); let req = TestRequest::default().to_http_request(); // multipart should generate an error let mut mp = Multipart::from_request(&req, &mut payload).await.unwrap(); assert!(mp.next().await.unwrap().is_err()); // and should not consume the payload match payload { actix_web::dev::Payload::H1 { .. } => {} //expected _ => unreachable!(), } } #[actix_rt::test] async fn no_content_disposition_form_data() { let bytes = Bytes::from( "testasdadsad\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n\ Content-Type: text/plain; charset=utf-8\r\n\ Content-Length: 4\r\n\ \r\n\ test\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n", ); let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static( "multipart/form-data; boundary=\"abbc761f78ff4d7cb7573b5a23f96ef0\"", ), ); let payload = SlowStream::new(bytes); let mut multipart = Multipart::new(&headers, payload); let res = multipart.next().await.unwrap(); assert_matches!( res.expect_err( "according to RFC 7578, form-data fields require a content-disposition header" ), MultipartError::ContentDispositionMissing ); } #[actix_rt::test] async fn no_content_disposition_non_form_data() { let bytes = Bytes::from( "testasdadsad\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n\ Content-Type: text/plain; charset=utf-8\r\n\ Content-Length: 4\r\n\ \r\n\ test\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n", ); let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static( "multipart/mixed; boundary=\"abbc761f78ff4d7cb7573b5a23f96ef0\"", ), ); let payload = SlowStream::new(bytes); let mut multipart = Multipart::new(&headers, payload); let res = multipart.next().await.unwrap(); res.unwrap(); } #[actix_rt::test] async fn no_name_in_form_data_content_disposition() { let bytes = Bytes::from( "testasdadsad\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n\ Content-Disposition: form-data; filename=\"fn.txt\"\r\n\ Content-Type: text/plain; charset=utf-8\r\n\ Content-Length: 4\r\n\ \r\n\ test\r\n\ --abbc761f78ff4d7cb7573b5a23f96ef0\r\n", ); let mut headers = HeaderMap::new(); headers.insert( header::CONTENT_TYPE, header::HeaderValue::from_static( "multipart/form-data; boundary=\"abbc761f78ff4d7cb7573b5a23f96ef0\"", ), ); let payload = SlowStream::new(bytes); let mut multipart = Multipart::new(&headers, payload); let res = multipart.next().await.unwrap(); assert_matches!( res.expect_err("according to RFC 7578, form-data fields require a name attribute"), MultipartError::ContentDispositionNameMissing ); } #[actix_rt::test] async fn test_drop_multipart_dont_hang() { let (sender, payload) = create_stream(); let (bytes, headers) = create_simple_request_with_header(); sender.send(Ok(bytes)).unwrap(); drop(sender); // eof let mut multipart = Multipart::new(&headers, payload); let mut field = multipart.next().await.unwrap().unwrap(); drop(multipart); // should fail immediately match field.next().await { Some(Err(MultipartError::NotConsumed)) => {} _ => panic!(), }; } #[actix_rt::test] async fn test_drop_field_awaken_multipart() { let (sender, payload) = create_stream(); let (bytes, headers) = create_double_request_with_header(); sender.send(Ok(bytes)).unwrap(); drop(sender); // eof let mut multipart = Multipart::new(&headers, payload); let mut field = multipart.next().await.unwrap().unwrap(); let task = rt::spawn(async move { rt::time::sleep(Duration::from_millis(500)).await; assert_eq!(field.next().await.unwrap().unwrap(), "test"); drop(field); }); // dropping field should awaken current task let _ = multipart.next().await.unwrap().unwrap(); task.await.unwrap(); } }