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actix-web/src/multipart.rs

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2017-10-19 08:43:50 +02:00
//! Multipart requests support.
use std::{cmp, fmt};
use std::rc::Rc;
use std::cell::RefCell;
use std::marker::PhantomData;
use mime;
use httparse;
use bytes::Bytes;
use http::HttpTryFrom;
use http::header::{self, HeaderMap, HeaderName, HeaderValue};
use futures::{Async, Stream, Poll};
use futures::task::{Task, current as current_task};
use payload::{Payload, PayloadError};
use httprequest::HttpRequest;
const MAX_HEADERS: usize = 32;
#[derive(Debug)]
pub struct MultipartError {
pub payload: Payload,
}
/// 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.
#[derive(Debug)]
pub struct Multipart {
safety: Safety,
payload: PayloadRef,
boundary: String,
eof: bool,
bof: bool,
item: InnerMultipartItem,
}
#[derive(Debug)]
pub enum MultipartItem {
// Multipart field
Field(Field),
// Nested multipart item
Multipart(Multipart),
}
#[derive(Debug)]
enum InnerMultipartItem {
None,
Field(Rc<RefCell<InnerField>>),
// Nested multipart item
// Multipart(Multipart),
}
impl Multipart {
pub fn new(req: &HttpRequest, payload: Payload) -> Result<Multipart, MultipartError> {
if let Some(content_type) = req.headers().get(header::CONTENT_TYPE) {
if let Ok(content_type) = content_type.to_str() {
if let Ok(ct) = content_type.parse::<mime::Mime>() {
if let Some(boundary) = ct.get_param(mime::BOUNDARY) {
return Ok(Multipart {
safety: Safety::new(),
payload: PayloadRef::new(payload),
boundary: boundary.as_str().to_owned(),
eof: false,
bof: true,
item: InnerMultipartItem::None,
})
}
}
}
}
Err(MultipartError{payload: payload})
}
fn read_headers(payload: &mut Payload) -> Poll<HeaderMap, PayloadError>
{
match payload.readuntil(b"\r\n\r\n")? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(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 {
if let Ok(name) = HeaderName::try_from(h.name) {
if let Ok(value) = HeaderValue::try_from(h.value) {
headers.append(name, value);
} else {
return Err(PayloadError::Incomplete)
}
} else {
return Err(PayloadError::Incomplete)
}
}
Ok(Async::Ready(headers))
}
Ok(httparse::Status::Partial) | Err(_) => Err(PayloadError::Incomplete),
}
}
}
}
fn read_boundary(payload: &mut Payload, boundary: &str) -> Poll<bool, PayloadError>
{
// TODO: need to read epilogue
match payload.readline()? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(chunk) => {
if chunk.len() == boundary.len() + 4 &&
&chunk[..2] == b"--" &&
&chunk[2..boundary.len()+2] == boundary.as_bytes()
{
Ok(Async::Ready(false))
} else if chunk.len() == boundary.len() + 6 &&
&chunk[..2] == b"--" &&
&chunk[2..boundary.len()+2] == boundary.as_bytes() &&
&chunk[boundary.len()+2..boundary.len()+4] == b"--"
{
Ok(Async::Ready(true))
} else {
Err(PayloadError::Incomplete)
}
}
}
}
fn skip_until_boundary(payload: &mut Payload, boundary: &str) -> Poll<bool, PayloadError>
{
let mut eof = false;
loop {
if let Async::Ready(chunk) = payload.readline()? {
if chunk.is_empty() {
//ValueError("Could not find starting boundary %r"
//% (self._boundary))
}
if &chunk[..2] == b"--" && &chunk[2..chunk.len()-2] == boundary.as_bytes() {
break;
} else {
let b: &[u8] = boundary.as_ref();
if chunk.len() <= boundary.len() + 2 &&
&chunk[..boundary.len()] == b &&
&chunk[boundary.len()..boundary.len()+2] == b"--" {
eof = true;
break;
}
}
} else {
return Ok(Async::NotReady)
}
}
Ok(Async::Ready(eof))
}
}
impl Drop for Multipart {
fn drop(&mut self) {
// InnerMultipartItem::Field has to be dropped first because of Safety.
self.item = InnerMultipartItem::None;
}
}
impl Stream for Multipart {
type Item = MultipartItem;
type Error = PayloadError;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
if self.eof {
Ok(Async::Ready(None))
} else {
// release field
loop {
let stop = match self.item {
InnerMultipartItem::Field(ref mut field) => {
match field.borrow_mut().poll(&self.safety)? {
Async::NotReady =>
return Ok(Async::NotReady),
Async::Ready(Some(_)) =>
continue,
Async::Ready(None) =>
true,
}
}
_ => false,
};
if stop {
self.item = InnerMultipartItem::None;
}
if let InnerMultipartItem::None = self.item {
break;
}
}
let headers = if let Some(payload) = self.payload.get_mut(&self.safety) {
// read until first boundary
if self.bof {
if let Async::Ready(eof) =
Multipart::skip_until_boundary(payload, &self.boundary)?
{
self.eof = eof;
} else {
return Ok(Async::NotReady)
}
self.bof = false;
} else {
// read boundary
match Multipart::read_boundary(payload, &self.boundary)? {
Async::NotReady => return Ok(Async::NotReady),
Async::Ready(eof) => self.eof = eof,
}
}
if self.eof {
return Ok(Async::Ready(None))
}
// read field headers
if let Async::Ready(headers) = Multipart::read_headers(payload)? {
headers
} else {
return Ok(Async::NotReady)
}
} else {
debug!("NotReady: field is in flight");
return Ok(Async::NotReady)
};
//
let field = Rc::new(RefCell::new(InnerField::new(
self.payload.clone(), self.boundary.clone(), &headers)?));
self.item = InnerMultipartItem::Field(Rc::clone(&field));
Ok(Async::Ready(Some(
MultipartItem::Field(Field::new(self.safety.clone(), headers, field)))))
}
}
}
/// A single field in a multipart stream
pub struct Field {
ct: mime::Mime,
headers: HeaderMap,
inner: Rc<RefCell<InnerField>>,
safety: Safety,
}
impl Field {
fn new(safety: Safety, headers: HeaderMap, inner: Rc<RefCell<InnerField>>) -> Self {
let mut mt = mime::APPLICATION_OCTET_STREAM;
if let Some(content_type) = headers.get(header::CONTENT_TYPE) {
if let Ok(content_type) = content_type.to_str() {
if let Ok(ct) = content_type.parse::<mime::Mime>() {
mt = ct;
}
}
}
Field {
ct: mt,
headers: headers,
inner: inner,
safety: safety,
}
}
pub fn headers(&self) -> &HeaderMap {
&self.headers
}
pub fn content_type(&self) -> &mime::Mime {
&self.ct
}
}
impl Stream for Field {
type Item = Bytes;
type Error = PayloadError;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
if self.safety.current() {
self.inner.borrow_mut().poll(&self.safety)
} else {
Ok(Async::NotReady)
}
}
}
impl fmt::Debug for Field {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let res = write!(f, "\nMultipartField: {}\n", self.ct);
let _ = write!(f, " boundary: {}\n", self.inner.borrow().boundary);
let _ = write!(f, " headers:\n");
for key in self.headers.keys() {
let vals: Vec<_> = self.headers.get_all(key).iter().collect();
if vals.len() > 1 {
let _ = write!(f, " {:?}: {:?}\n", key, vals);
} else {
let _ = write!(f, " {:?}: {:?}\n", key, vals[0]);
}
}
res
}
}
#[derive(Debug)]
struct InnerField {
payload: Option<PayloadRef>,
boundary: String,
eof: bool,
length: Option<u64>,
}
impl InnerField {
fn new(payload: PayloadRef, boundary: String, headers: &HeaderMap)
-> Result<InnerField, PayloadError>
{
let len = if let Some(len) = headers.get(header::CONTENT_LENGTH) {
if let Ok(s) = len.to_str() {
if let Ok(len) = s.parse::<u64>() {
Some(len)
} else {
return Err(PayloadError::Incomplete)
}
} else {
return Err(PayloadError::Incomplete)
}
} else {
None
};
Ok(InnerField {
payload: Some(payload),
boundary: boundary,
eof: false,
length: len })
}
/// Reads body part content chunk of the specified size.
/// The body part must has `Content-Length` header with proper value.
fn read_len(payload: &mut Payload, size: &mut u64) -> Poll<Option<Bytes>, PayloadError>
{
if *size == 0 {
Ok(Async::Ready(None))
} else {
match payload.readany() {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(None) => Ok(Async::Ready(None)),
Async::Ready(Some(Ok(mut chunk))) => {
let len = cmp::min(chunk.len() as u64, *size);
*size -= len;
let ch = chunk.split_to(len as usize);
if !chunk.is_empty() {
payload.unread_data(chunk);
}
Ok(Async::Ready(Some(ch)))
},
Async::Ready(Some(Err(err))) => Err(err)
}
}
}
/// Reads content chunk of body part with unknown length.
/// The `Content-Length` header for body part is not necessary.
fn read_stream(payload: &mut Payload, boundary: &str) -> Poll<Option<Bytes>, PayloadError>
{
match payload.readuntil(b"\r")? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(mut chunk) => {
if chunk.len() == 1 {
payload.unread_data(chunk);
match payload.readexactly(boundary.len() + 4)? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(chunk) => {
if &chunk[..2] == b"\r\n" && &chunk[2..4] == b"--" &&
&chunk[4..] == boundary.as_bytes()
{
payload.unread_data(chunk);
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(chunk)))
}
}
}
} else {
let to = chunk.len() - 1;
let ch = chunk.split_to(to);
payload.unread_data(chunk);
Ok(Async::Ready(Some(ch)))
}
}
}
}
fn poll(&mut self, s: &Safety) -> Poll<Option<Bytes>, PayloadError> {
if self.payload.is_none() {
return Ok(Async::Ready(None))
}
if self.eof {
if let Some(payload) = self.payload.as_ref().unwrap().get_mut(s) {
match payload.readline()? {
Async::NotReady =>
return Ok(Async::NotReady),
Async::Ready(chunk) => {
assert_eq!(
chunk.as_ref(), b"\r\n",
"reader did not read all the data or it is malformed");
}
}
} else {
return Ok(Async::NotReady);
}
self.payload.take();
return Ok(Async::Ready(None))
}
let result = if let Some(payload) = self.payload.as_ref().unwrap().get_mut(s) {
let res = if let Some(ref mut len) = self.length {
InnerField::read_len(payload, len)?
} else {
InnerField::read_stream(payload, &self.boundary)?
};
match res {
Async::NotReady => Async::NotReady,
Async::Ready(Some(bytes)) => Async::Ready(Some(bytes)),
Async::Ready(None) => {
self.eof = true;
match payload.readline()? {
Async::NotReady => Async::NotReady,
Async::Ready(chunk) => {
assert_eq!(
chunk.as_ref(), b"\r\n",
"reader did not read all the data or it is malformed");
Async::Ready(None)
}
}
}
}
} else {
Async::NotReady
};
if Async::Ready(None) == result {
self.payload.take();
}
Ok(result)
}
}
#[derive(Debug)]
struct PayloadRef {
task: Option<Task>,
payload: Rc<Payload>,
}
impl PayloadRef {
fn new(payload: Payload) -> PayloadRef {
PayloadRef {
task: None,
payload: Rc::new(payload),
}
}
fn get_mut<'a, 'b>(&'a self, s: &'b Safety) -> Option<&'a mut Payload>
where 'a: 'b
{
if s.current() {
let payload: &mut Payload = unsafe {
&mut *(self.payload.as_ref() as *const _ as *mut _)};
Some(payload)
} else {
None
}
}
}
impl Clone for PayloadRef {
fn clone(&self) -> PayloadRef {
PayloadRef {
task: Some(current_task()),
payload: Rc::clone(&self.payload),
}
}
}
/// Counter. It tracks of number of clones of payloads and give access to payload only
/// to top most task panics if Safety get destroyed and it not top most task.
#[derive(Debug)]
struct Safety {
task: Option<Task>,
level: usize,
payload: Rc<PhantomData<bool>>,
}
impl Safety {
fn new() -> Safety {
let payload = Rc::new(PhantomData);
Safety {
task: None,
level: Rc::strong_count(&payload),
payload: payload,
}
}
fn current(&self) -> bool {
Rc::strong_count(&self.payload) == self.level
}
}
impl Clone for Safety {
fn clone(&self) -> Safety {
let payload = Rc::clone(&self.payload);
Safety {
task: Some(current_task()),
level: Rc::strong_count(&payload),
payload: payload,
}
}
}
impl Drop for Safety {
fn drop(&mut self) {
// parent task is dead
if Rc::strong_count(&self.payload) != self.level {
panic!("Safety get dropped but it is not from top-most task");
}
if let Some(task) = self.task.take() {
task.notify()
}
}
}