enc: de_singleton(), read_singleton()

Fortune for transfer's current commit: Future curse − 末凶
basic
Avril 3 years ago
parent 03eaddb7eb
commit bd2dab8bd3
Signed by: flanchan
GPG Key ID: 284488987C31F630

@ -117,10 +117,54 @@ where F: AsyncRead + Unpin + ?Sized,
Ok((written, read)) Ok((written, read))
} }
async fn de_singleton_inner<T: DeserializeOwned, S>(from: S, how: impl AsRef<RecvOpt>) -> Result<T, TransformErrorKind> async fn de_singleton_inner<T: DeserializeOwned>(mut from: &[u8], how: &RecvOpt) -> Result<T, TransformErrorKind>
where S: AsRef<[u8]> //TODO: Should we use bytes::Buf or something instead?
{ {
todo!("Deserialise from `from` using `how`.") // Decompressor
// The output is written to this (through writer)
let mut is_spec = false; //TODO: Determine this before allocating `buf`.
let mut buf = Vec::with_capacity(from.len()); // The `spec` output buffer. Used if there are transformations that need to be done to the data before deserialisation
from = {
let mut b;
let writer: &mut (dyn AsyncWrite + Unpin) =
if let Some(comp) = &how.comp {
is_spec = true;
match comp {
CompressionKind::Brotli => {
b = async_compression::tokio::write::BrotliDecoder::new(&mut buf);
&mut b
},
_ => unimplemented!(),
}
} else {
&mut buf
};
// Decrypt into `writer`.
if let Some(dec) = &how.handle_encrypted {
// There is decryption to be done, decrypt into `writer` (which will handle decompression if needed).
// Return its output buffer
match dec {
EncryptionKind::Chacha20((k, iv)) => {
self::cha_copy::<_, _, DEFAULT_BUFSIZE, true>(&mut &from[..], writer, k, iv).await?;
},
}
&buf[..]
} else if is_spec {
// There is decompression to be done through `writer`. Return its output buffer
writer.write_all(from).await?;
&buf[..]
} else {
// There is neither decompression nor decryption to be done, return the input reference itself
from
}
};
// Deserialise
let v = match how.format {
SerialFormat::Text => serde_json::from_slice(&from[..])?,
SerialFormat::Binary => serde_cbor::from_slice(&from[..])?,
};
Ok(v)
} }
async fn ser_singleton_inner<T: Serialize, V: AsyncWrite + Unpin, F>(to: F, value: &T, how: impl AsRef<SendOpt>) -> Result<(V, usize), TransformErrorKind> async fn ser_singleton_inner<T: Serialize, V: AsyncWrite + Unpin, F>(to: F, value: &T, how: impl AsRef<SendOpt>) -> Result<(V, usize), TransformErrorKind>
@ -160,6 +204,13 @@ where F: FnOnce(&Vec<u8>) -> V
// inner(value, how).map(|res| res.map_err(|k| SendError(Box::new((k, how.clone()))))) // inner(value, how).map(|res| res.map_err(|k| SendError(Box::new((k, how.clone())))))
} }
#[inline(always)] pub fn de_singleton<'a, T: DeserializeOwned + 'a, B: ?Sized + AsRef<[u8]> + 'a>(from: &'a B, how: &'a RecvOpt) -> impl Future<Output = Result<T, RecvError>> + 'a
{
use futures::prelude::*;
de_singleton_inner(from.as_ref(), how)
.map_err(|k| RecvError(Box::new((k, how.clone()))))
}
#[inline(always)] pub fn ser_singleton<'a, T: Serialize>(value: &'a T, how: &'a SendOpt) -> impl Future<Output = Result<Vec<u8>, SendError>> + 'a #[inline(always)] pub fn ser_singleton<'a, T: Serialize>(value: &'a T, how: &'a SendOpt) -> impl Future<Output = Result<Vec<u8>, SendError>> + 'a
{ {
use futures::prelude::*; use futures::prelude::*;
@ -169,6 +220,25 @@ where F: FnOnce(&Vec<u8>) -> V
.map_err(|k| SendError(Box::new((k, how.clone())))) .map_err(|k| SendError(Box::new((k, how.clone()))))
} }
/// Deserialise a single object from a stream with the method described by `how`.
///
/// # Returns
/// The deserialised value and the number of bytes read from the stream.
pub async fn read_singleton<T: DeserializeOwned, S: ?Sized + AsyncRead + Unpin>(from: &mut S, how: &RecvOpt) -> Result<(T, usize), RecvError>
{
let (r, v) = async move {
let mut ibuf = [0u8; std::mem::size_of::<u64>()];
from.read_exact(&mut ibuf[..]).await?;
let n = u64::from_be_bytes(ibuf);
let mut v = Vec::with_capacity(n as usize);
tokio::io::copy(&mut from.take(n), &mut v).await
.map(move |_| (v.len() + ibuf.len(), v))
}.await
.map_err(|err| RecvError(Box::new((err.into(), how.to_owned()))))?;
let v = de_singleton(&v[..], how).await?;
Ok((v, r))
}
/// Serialise a single object to a stream with the method described by `how`. /// Serialise a single object to a stream with the method described by `how`.
#[inline] pub async fn write_singleton<T: Serialize, S: ?Sized + AsyncWrite + Unpin>(to: &mut S, value: &T, how: &SendOpt) -> Result<usize, SendError> #[inline] pub async fn write_singleton<T: Serialize, S: ?Sized + AsyncWrite + Unpin>(to: &mut S, value: &T, how: &SendOpt) -> Result<usize, SendError>
{ {

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