use crate::{ParseRequestError, Request}; use bytes::Bytes; use futures::io::AsyncRead; use futures::stream::Stream; use multer::{Constraints, Multipart, SizeLimit}; use pin_project_lite::pin_project; use std::collections::HashMap; use std::io::{self, Seek, SeekFrom, Write}; use std::pin::Pin; use std::task::{Context, Poll}; /// Options for `receive_multipart`. #[derive(Default, Clone)] #[non_exhaustive] pub struct MultipartOptions { /// The maximum file size. pub max_file_size: Option, /// The maximum number of files. pub max_num_files: Option, } impl MultipartOptions { /// Set maximum file size. pub fn max_file_size(self, size: usize) -> Self { MultipartOptions { max_file_size: Some(size), ..self } } /// Set maximum number of files. pub fn max_num_files(self, n: usize) -> Self { MultipartOptions { max_num_files: Some(n), ..self } } } /// Receive a multipart request. pub async fn receive_multipart( body: impl AsyncRead + Send + 'static, boundary: impl Into, opts: MultipartOptions, ) -> Result { let mut multipart = Multipart::new_with_constraints( ReaderStream::new(body), boundary, Constraints::new().size_limit({ let mut limit = SizeLimit::new(); if let (Some(max_file_size), Some(max_num_files)) = (opts.max_file_size, opts.max_file_size) { limit = limit.whole_stream((max_file_size * max_num_files) as u64); } if let Some(max_file_size) = opts.max_file_size { limit = limit.per_field(max_file_size as u64); } limit }), ); let mut request = None; let mut map = None; let mut files = Vec::new(); while let Some(mut field) = multipart.next_field().await? { match field.name() { Some("operations") => { let request_str = field.text().await?; request = Some( serde_json::from_str::(&request_str) .map_err(ParseRequestError::InvalidRequest)?, ); } Some("map") => { let map_str = field.text().await?; map = Some( serde_json::from_str::>>(&map_str) .map_err(ParseRequestError::InvalidFilesMap)?, ); } _ => { if let Some(name) = field.name().map(ToString::to_string) { if let Some(filename) = field.file_name().map(ToString::to_string) { let content_type = field.content_type().map(|mime| mime.to_string()); let mut file = tempfile::tempfile().map_err(ParseRequestError::Io)?; while let Some(chunk) = field.chunk().await.unwrap() { file.write(&chunk).map_err(ParseRequestError::Io)?; } file.seek(SeekFrom::Start(0))?; files.push((name, filename, content_type, file)); } } } } } let mut request: Request = request.ok_or(ParseRequestError::MissingOperatorsPart)?; let map = map.as_mut().ok_or(ParseRequestError::MissingMapPart)?; for (name, filename, content_type, file) in files { if let Some(var_paths) = map.remove(&name) { for var_path in var_paths { request.set_upload( &var_path, filename.clone(), content_type.clone(), file.try_clone().unwrap(), ); } } } if !map.is_empty() { return Err(ParseRequestError::MissingFiles); } Ok(request) } pin_project! { struct ReaderStream { buf: [u8; 2048], #[pin] reader: T, } } impl ReaderStream { fn new(reader: T) -> Self { Self { buf: [0; 2048], reader, } } } impl Stream for ReaderStream { type Item = io::Result; fn poll_next(self: Pin<&mut Self>, cx: &mut Context) -> Poll> { let this = self.project(); Poll::Ready( match futures::ready!(this.reader.poll_read(cx, this.buf)?) { 0 => None, size => Some(Ok(Bytes::copy_from_slice(&this.buf[..size]))), }, ) } }