async_graphql/http/multipart.rs
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use std::{
collections::HashMap,
io,
pin::Pin,
task::{Context, Poll},
};
use futures_util::{io::AsyncRead, stream::Stream};
use multer::{Constraints, Multipart, SizeLimit};
use pin_project_lite::pin_project;
use crate::{BatchRequest, ParseRequestError, UploadValue};
/// Options for `receive_multipart`.
#[derive(Default, Clone, Copy)]
#[non_exhaustive]
pub struct MultipartOptions {
/// The maximum file size.
pub max_file_size: Option<usize>,
/// The maximum number of files.
pub max_num_files: Option<usize>,
}
impl MultipartOptions {
/// Set maximum file size.
#[must_use]
pub fn max_file_size(self, size: usize) -> Self {
MultipartOptions {
max_file_size: Some(size),
..self
}
}
/// Set maximum number of files.
#[must_use]
pub fn max_num_files(self, n: usize) -> Self {
MultipartOptions {
max_num_files: Some(n),
..self
}
}
}
pub(super) async fn receive_batch_multipart(
body: impl AsyncRead + Send,
boundary: impl Into<String>,
opts: MultipartOptions,
) -> Result<BatchRequest, ParseRequestError> {
let mut multipart = Multipart::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_num_files)
{
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(field) = multipart.next_field().await? {
// in multipart, each field / file can actually have a own Content-Type.
// We use this to determine the encoding of the graphql query
let content_type = field
.content_type()
// default to json
.unwrap_or(&mime::APPLICATION_JSON)
.clone();
match field.name() {
Some("operations") => {
let body = field.bytes().await?;
request = Some(
super::receive_batch_body_no_multipart(&content_type, body.as_ref()).await?,
)
}
Some("map") => {
let map_bytes = field.bytes().await?;
match (content_type.type_(), content_type.subtype()) {
// cbor is in application/octet-stream.
// TODO: wait for mime to add application/cbor and match against that too
// Note: we actually differ here from the inoffical spec for this:
// (https://github.com/jaydenseric/graphql-multipart-request-spec#multipart-form-field-structure)
// It says: "map: A JSON encoded map of where files occurred in the operations.
// For each file, the key is the file multipart form field name and the value is
// an array of operations paths." However, I think, that
// since we accept CBOR as operation, which is valid, we should also accept it
// as the mapping for the files.
#[cfg(feature = "cbor")]
(mime::OCTET_STREAM, _) | (mime::APPLICATION, mime::OCTET_STREAM) => {
map = Some(
serde_cbor::from_slice::<HashMap<String, Vec<String>>>(&map_bytes)
.map_err(|e| ParseRequestError::InvalidFilesMap(Box::new(e)))?,
);
}
// default to json
_ => {
map = Some(
serde_json::from_slice::<HashMap<String, Vec<String>>>(&map_bytes)
.map_err(|e| ParseRequestError::InvalidFilesMap(Box::new(e)))?,
);
}
}
}
_ => {
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(ToString::to_string);
#[cfg(feature = "tempfile")]
let content = {
let mut field = field;
#[cfg(feature = "unblock")]
{
use std::io::SeekFrom;
use blocking::Unblock;
use futures_util::{AsyncSeekExt, AsyncWriteExt};
let mut file = Unblock::new(
tempfile::tempfile().map_err(ParseRequestError::Io)?,
);
while let Some(chunk) = field.chunk().await? {
file.write_all(&chunk)
.await
.map_err(ParseRequestError::Io)?;
}
file.seek(SeekFrom::Start(0))
.await
.map_err(ParseRequestError::Io)?;
file.into_inner().await
}
#[cfg(not(feature = "unblock"))]
{
use std::io::{Seek, Write};
let mut file =
tempfile::tempfile().map_err(ParseRequestError::Io)?;
while let Some(chunk) = field.chunk().await? {
file.write_all(&chunk).map_err(ParseRequestError::Io)?;
}
file.rewind()?;
file
}
};
#[cfg(not(feature = "tempfile"))]
let content = field.bytes().await?;
files.push((name, filename, content_type, content));
}
}
}
}
}
let mut request: BatchRequest = 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) {
let upload = UploadValue {
filename,
content_type,
content: file,
};
for var_path in var_paths {
match &mut request {
BatchRequest::Single(request) => {
request.set_upload(&var_path, upload.try_clone()?);
}
BatchRequest::Batch(requests) => {
let mut s = var_path.splitn(2, '.');
let idx = s.next().and_then(|idx| idx.parse::<usize>().ok());
let path = s.next();
if let (Some(idx), Some(path)) = (idx, path) {
if let Some(request) = requests.get_mut(idx) {
request.set_upload(path, upload.try_clone()?);
}
}
}
}
}
}
}
if !map.is_empty() {
return Err(ParseRequestError::MissingFiles);
}
Ok(request)
}
pin_project! {
pub(crate) struct ReaderStream<T> {
buf: [u8; 2048],
#[pin]
reader: T,
}
}
impl<T> ReaderStream<T> {
pub(crate) fn new(reader: T) -> Self {
Self {
buf: [0; 2048],
reader,
}
}
}
impl<T: AsyncRead> Stream for ReaderStream<T> {
type Item = io::Result<Vec<u8>>;
fn poll_next(self: Pin<&mut Self>, cx: &mut Context) -> Poll<Option<Self::Item>> {
let this = self.project();
Poll::Ready(
match futures_util::ready!(this.reader.poll_read(cx, this.buf)?) {
0 => None,
size => Some(Ok(this.buf[..size].to_vec())),
},
)
}
}