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actix-web/actix-http/src/h1/payload.rs

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//! Payload stream
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use std::cell::RefCell;
use std::cmp;
use std::collections::VecDeque;
use std::rc::{Rc, Weak};
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use bytes::{Bytes, BytesMut};
use futures::task::current as current_task;
use futures::task::Task;
use futures::{Async, Poll, Stream};
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use crate::error::PayloadError;
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/// max buffer size 32k
pub(crate) const MAX_BUFFER_SIZE: usize = 32_768;
#[derive(Debug, PartialEq)]
pub(crate) enum PayloadStatus {
Read,
Pause,
Dropped,
}
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/// Buffered stream of bytes chunks
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///
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/// Payload stores chunks in a vector. First chunk can be received with
/// `.readany()` method. Payload stream is not thread safe. Payload does not
/// notify current task when new data is available.
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///
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/// Payload stream can be used as `Response` body stream.
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#[derive(Debug)]
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pub struct Payload {
inner: Rc<RefCell<Inner>>,
}
impl Payload {
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/// Create payload stream.
///
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/// This method construct two objects responsible for bytes stream
/// generation.
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///
/// * `PayloadSender` - *Sender* side of the stream
///
/// * `Payload` - *Receiver* side of the stream
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pub fn create(eof: bool) -> (PayloadSender, Payload) {
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let shared = Rc::new(RefCell::new(Inner::new(eof)));
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(
PayloadSender {
inner: Rc::downgrade(&shared),
},
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Payload { inner: shared },
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)
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}
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/// Create empty payload
#[doc(hidden)]
pub fn empty() -> Payload {
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Payload {
inner: Rc::new(RefCell::new(Inner::new(true))),
}
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}
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/// Length of the data in this payload
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#[cfg(test)]
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pub fn len(&self) -> usize {
self.inner.borrow().len()
}
/// Is payload empty
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#[cfg(test)]
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pub fn is_empty(&self) -> bool {
self.inner.borrow().len() == 0
}
/// Put unused data back to payload
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#[inline]
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pub fn unread_data(&mut self, data: Bytes) {
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self.inner.borrow_mut().unread_data(data);
}
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#[inline]
/// Set read buffer capacity
///
/// Default buffer capacity is 32Kb.
pub fn set_read_buffer_capacity(&mut self, cap: usize) {
self.inner.borrow_mut().capacity = cap;
}
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}
impl Stream for Payload {
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type Item = Bytes;
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type Error = PayloadError;
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#[inline]
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fn poll(&mut self) -> Poll<Option<Bytes>, PayloadError> {
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self.inner.borrow_mut().readany()
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}
}
impl Clone for Payload {
fn clone(&self) -> Payload {
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Payload {
inner: Rc::clone(&self.inner),
}
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}
}
/// Payload writer interface.
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pub(crate) trait PayloadWriter {
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/// Set stream error.
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fn set_error(&mut self, err: PayloadError);
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/// Write eof into a stream which closes reading side of a stream.
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fn feed_eof(&mut self);
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/// Feed bytes into a payload stream
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fn feed_data(&mut self, data: Bytes);
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/// Need read data
fn need_read(&self) -> PayloadStatus;
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}
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/// Sender part of the payload stream
pub struct PayloadSender {
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inner: Weak<RefCell<Inner>>,
}
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impl PayloadWriter for PayloadSender {
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#[inline]
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fn set_error(&mut self, err: PayloadError) {
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if let Some(shared) = self.inner.upgrade() {
shared.borrow_mut().set_error(err)
}
}
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#[inline]
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fn feed_eof(&mut self) {
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if let Some(shared) = self.inner.upgrade() {
shared.borrow_mut().feed_eof()
}
}
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#[inline]
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fn feed_data(&mut self, data: Bytes) {
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if let Some(shared) = self.inner.upgrade() {
shared.borrow_mut().feed_data(data)
}
}
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#[inline]
fn need_read(&self) -> PayloadStatus {
// we check need_read only if Payload (other side) is alive,
// otherwise always return true (consume payload)
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if let Some(shared) = self.inner.upgrade() {
if shared.borrow().need_read {
PayloadStatus::Read
} else {
#[cfg(not(test))]
{
if shared.borrow_mut().io_task.is_none() {
shared.borrow_mut().io_task = Some(current_task());
}
}
PayloadStatus::Pause
}
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} else {
PayloadStatus::Dropped
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}
}
}
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#[derive(Debug)]
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struct Inner {
len: usize,
eof: bool,
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err: Option<PayloadError>,
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need_read: bool,
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items: VecDeque<Bytes>,
capacity: usize,
task: Option<Task>,
io_task: Option<Task>,
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}
impl Inner {
fn new(eof: bool) -> Self {
Inner {
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eof,
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len: 0,
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err: None,
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items: VecDeque::new(),
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need_read: true,
capacity: MAX_BUFFER_SIZE,
task: None,
io_task: None,
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}
}
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#[inline]
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fn set_error(&mut self, err: PayloadError) {
self.err = Some(err);
}
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#[inline]
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fn feed_eof(&mut self) {
self.eof = true;
}
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#[inline]
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fn feed_data(&mut self, data: Bytes) {
self.len += data.len();
self.items.push_back(data);
self.need_read = self.len < self.capacity;
if let Some(task) = self.task.take() {
task.notify()
}
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}
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#[cfg(test)]
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fn len(&self) -> usize {
self.len
}
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fn readany(&mut self) -> Poll<Option<Bytes>, PayloadError> {
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if let Some(data) = self.items.pop_front() {
self.len -= data.len();
self.need_read = self.len < self.capacity;
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if self.need_read && self.task.is_none() && !self.eof {
self.task = Some(current_task());
}
if let Some(task) = self.io_task.take() {
task.notify()
}
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Ok(Async::Ready(Some(data)))
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} else if let Some(err) = self.err.take() {
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Err(err)
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} else if self.eof {
Ok(Async::Ready(None))
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} else {
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self.need_read = true;
#[cfg(not(test))]
{
if self.task.is_none() {
self.task = Some(current_task());
}
if let Some(task) = self.io_task.take() {
task.notify()
}
}
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Ok(Async::NotReady)
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}
}
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fn unread_data(&mut self, data: Bytes) {
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self.len += data.len();
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self.items.push_front(data);
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}
}
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/// Payload buffer
pub struct PayloadBuffer<S> {
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len: usize,
items: VecDeque<Bytes>,
stream: S,
}
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impl<S> PayloadBuffer<S>
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where
S: Stream<Item = Bytes, Error = PayloadError>,
{
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/// Create new `PayloadBuffer` instance
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pub fn new(stream: S) -> Self {
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PayloadBuffer {
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len: 0,
items: VecDeque::new(),
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stream,
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}
}
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/// Get mutable reference to an inner stream.
pub fn get_mut(&mut self) -> &mut S {
&mut self.stream
}
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#[inline]
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fn poll_stream(&mut self) -> Poll<bool, PayloadError> {
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self.stream.poll().map(|res| match res {
Async::Ready(Some(data)) => {
self.len += data.len();
self.items.push_back(data);
Async::Ready(true)
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}
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Async::Ready(None) => Async::Ready(false),
Async::NotReady => Async::NotReady,
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})
}
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/// Read first available chunk of bytes
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#[inline]
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pub fn readany(&mut self) -> Poll<Option<Bytes>, PayloadError> {
if let Some(data) = self.items.pop_front() {
self.len -= data.len();
Ok(Async::Ready(Some(data)))
} else {
match self.poll_stream()? {
Async::Ready(true) => self.readany(),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
}
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/// Check if buffer contains enough bytes
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#[inline]
pub fn can_read(&mut self, size: usize) -> Poll<Option<bool>, PayloadError> {
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if size <= self.len {
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Ok(Async::Ready(Some(true)))
} else {
match self.poll_stream()? {
Async::Ready(true) => self.can_read(size),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
}
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/// Return reference to the first chunk of data
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#[inline]
pub fn get_chunk(&mut self) -> Poll<Option<&[u8]>, PayloadError> {
if self.items.is_empty() {
match self.poll_stream()? {
Async::Ready(true) => (),
Async::Ready(false) => return Ok(Async::Ready(None)),
Async::NotReady => return Ok(Async::NotReady),
}
}
match self.items.front().map(|c| c.as_ref()) {
Some(chunk) => Ok(Async::Ready(Some(chunk))),
None => Ok(Async::NotReady),
}
}
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/// Read exact number of bytes
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#[inline]
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pub fn read_exact(&mut self, size: usize) -> Poll<Option<Bytes>, PayloadError> {
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if size <= self.len {
self.len -= size;
let mut chunk = self.items.pop_front().unwrap();
if size < chunk.len() {
let buf = chunk.split_to(size);
self.items.push_front(chunk);
Ok(Async::Ready(Some(buf)))
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} else if size == chunk.len() {
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Ok(Async::Ready(Some(chunk)))
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} else {
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let mut buf = BytesMut::with_capacity(size);
buf.extend_from_slice(&chunk);
while buf.len() < size {
let mut chunk = self.items.pop_front().unwrap();
let rem = cmp::min(size - buf.len(), chunk.len());
buf.extend_from_slice(&chunk.split_to(rem));
if !chunk.is_empty() {
self.items.push_front(chunk);
}
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}
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Ok(Async::Ready(Some(buf.freeze())))
}
} else {
match self.poll_stream()? {
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Async::Ready(true) => self.read_exact(size),
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Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
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}
}
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}
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/// Remove specified amount if bytes from buffer
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#[inline]
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pub fn drop_bytes(&mut self, size: usize) {
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if size <= self.len {
self.len -= size;
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let mut len = 0;
while len < size {
let mut chunk = self.items.pop_front().unwrap();
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let rem = cmp::min(size - len, chunk.len());
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len += rem;
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if rem < chunk.len() {
chunk.split_to(rem);
self.items.push_front(chunk);
}
}
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}
}
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/// Copy buffered data
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pub fn copy(&mut self, size: usize) -> Poll<Option<BytesMut>, PayloadError> {
if size <= self.len {
let mut buf = BytesMut::with_capacity(size);
for chunk in &self.items {
if buf.len() < size {
let rem = cmp::min(size - buf.len(), chunk.len());
buf.extend_from_slice(&chunk[..rem]);
}
if buf.len() == size {
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return Ok(Async::Ready(Some(buf)));
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}
}
}
match self.poll_stream()? {
Async::Ready(true) => self.copy(size),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
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/// Read until specified ending
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pub fn read_until(&mut self, line: &[u8]) -> Poll<Option<Bytes>, PayloadError> {
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let mut idx = 0;
let mut num = 0;
let mut offset = 0;
let mut found = false;
let mut length = 0;
for no in 0..self.items.len() {
{
let chunk = &self.items[no];
for (pos, ch) in chunk.iter().enumerate() {
if *ch == line[idx] {
idx += 1;
if idx == line.len() {
num = no;
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offset = pos + 1;
length += pos + 1;
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found = true;
break;
}
} else {
idx = 0
}
}
if !found {
length += chunk.len()
}
}
if found {
let mut buf = BytesMut::with_capacity(length);
if num > 0 {
for _ in 0..num {
buf.extend_from_slice(&self.items.pop_front().unwrap());
}
}
if offset > 0 {
let mut chunk = self.items.pop_front().unwrap();
buf.extend_from_slice(&chunk.split_to(offset));
if !chunk.is_empty() {
self.items.push_front(chunk)
}
}
self.len -= length;
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return Ok(Async::Ready(Some(buf.freeze())));
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}
}
match self.poll_stream()? {
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Async::Ready(true) => self.read_until(line),
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Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
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/// Read bytes until new line delimiter
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pub fn readline(&mut self) -> Poll<Option<Bytes>, PayloadError> {
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self.read_until(b"\n")
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}
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/// Put unprocessed data back to the buffer
pub fn unprocessed(&mut self, data: Bytes) {
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self.len += data.len();
self.items.push_front(data);
}
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/// Get remaining data from the buffer
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pub fn remaining(&mut self) -> Bytes {
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self.items
.iter_mut()
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.fold(BytesMut::new(), |mut b, c| {
b.extend_from_slice(c);
b
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})
.freeze()
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}
}
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#[cfg(test)]
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mod tests {
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use super::*;
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use actix_rt::Runtime;
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use futures::future::{lazy, result};
#[test]
fn test_basic() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (_, payload) = Payload::create(false);
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let mut payload = PayloadBuffer::new(payload);
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assert_eq!(payload.len, 0);
assert_eq!(Async::NotReady, payload.readany().ok().unwrap());
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let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
#[test]
fn test_eof() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (mut sender, payload) = Payload::create(false);
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let mut payload = PayloadBuffer::new(payload);
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assert_eq!(Async::NotReady, payload.readany().ok().unwrap());
sender.feed_data(Bytes::from("data"));
sender.feed_eof();
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assert_eq!(
Async::Ready(Some(Bytes::from("data"))),
payload.readany().ok().unwrap()
);
assert_eq!(payload.len, 0);
assert_eq!(Async::Ready(None), payload.readany().ok().unwrap());
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let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
#[test]
fn test_err() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (mut sender, payload) = Payload::create(false);
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let mut payload = PayloadBuffer::new(payload);
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assert_eq!(Async::NotReady, payload.readany().ok().unwrap());
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sender.set_error(PayloadError::Incomplete(None));
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payload.readany().err().unwrap();
let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
#[test]
fn test_readany() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (mut sender, payload) = Payload::create(false);
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let mut payload = PayloadBuffer::new(payload);
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sender.feed_data(Bytes::from("line1"));
sender.feed_data(Bytes::from("line2"));
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assert_eq!(
Async::Ready(Some(Bytes::from("line1"))),
payload.readany().ok().unwrap()
);
assert_eq!(payload.len, 0);
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assert_eq!(
Async::Ready(Some(Bytes::from("line2"))),
payload.readany().ok().unwrap()
);
assert_eq!(payload.len, 0);
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let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
#[test]
fn test_readexactly() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (mut sender, payload) = Payload::create(false);
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let mut payload = PayloadBuffer::new(payload);
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assert_eq!(Async::NotReady, payload.read_exact(2).ok().unwrap());
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sender.feed_data(Bytes::from("line1"));
sender.feed_data(Bytes::from("line2"));
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assert_eq!(
Async::Ready(Some(Bytes::from_static(b"li"))),
payload.read_exact(2).ok().unwrap()
);
assert_eq!(payload.len, 3);
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assert_eq!(
Async::Ready(Some(Bytes::from_static(b"ne1l"))),
payload.read_exact(4).ok().unwrap()
);
assert_eq!(payload.len, 4);
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sender.set_error(PayloadError::Incomplete(None));
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payload.read_exact(10).err().unwrap();
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let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
#[test]
fn test_readuntil() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (mut sender, payload) = Payload::create(false);
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let mut payload = PayloadBuffer::new(payload);
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assert_eq!(Async::NotReady, payload.read_until(b"ne").ok().unwrap());
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sender.feed_data(Bytes::from("line1"));
sender.feed_data(Bytes::from("line2"));
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assert_eq!(
Async::Ready(Some(Bytes::from("line"))),
payload.read_until(b"ne").ok().unwrap()
);
assert_eq!(payload.len, 1);
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assert_eq!(
Async::Ready(Some(Bytes::from("1line2"))),
payload.read_until(b"2").ok().unwrap()
);
assert_eq!(payload.len, 0);
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sender.set_error(PayloadError::Incomplete(None));
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payload.read_until(b"b").err().unwrap();
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let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
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#[test]
fn test_unread_data() {
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Runtime::new()
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.unwrap()
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.block_on(lazy(|| {
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let (_, mut payload) = Payload::create(false);
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payload.unread_data(Bytes::from("data"));
assert!(!payload.is_empty());
assert_eq!(payload.len(), 4);
assert_eq!(
Async::Ready(Some(Bytes::from("data"))),
payload.poll().ok().unwrap()
);
let res: Result<(), ()> = Ok(());
result(res)
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}))
.unwrap();
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}
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}