@ -117,12 +117,15 @@ where F: AsyncRead + Unpin + ?Sized,
Ok ( ( written , read ) )
Ok ( ( written , read ) )
}
}
async fn de_singleton_inner < T : DeserializeOwned > ( mut from : & [ u8 ] , how : & RecvOpt ) -> Result < T , TransformErrorKind >
async fn de_singleton_inner < T : DeserializeOwned , B , F > ( buf : F , mut from : & [ u8 ] , how : & RecvOpt ) -> Result < T , TransformErrorKind >
where B : AsRef < [ u8 ] > + AsyncWrite + Unpin ,
F : FnOnce ( & [ u8 ] ) -> B
{
{
// Decompressor
// Decompressor
// The output is written to this (through writer)
// The output is written to this (through writer)
let mut is_spec = false ; //TODO: Determine this before allocating `buf`.
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
let mut buf = buf ( from ) ;
//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 = {
from = {
let mut b ;
let mut b ;
let writer : & mut ( dyn AsyncWrite + Unpin ) =
let writer : & mut ( dyn AsyncWrite + Unpin ) =
@ -147,11 +150,11 @@ async fn de_singleton_inner<T: DeserializeOwned>(mut from: &[u8], how: &RecvOpt)
self ::cha_copy ::< _ , _ , DEFAULT_BUFSIZE , true > ( & mut & from [ .. ] , writer , k , iv ) . await ? ;
self ::cha_copy ::< _ , _ , DEFAULT_BUFSIZE , true > ( & mut & from [ .. ] , writer , k , iv ) . await ? ;
} ,
} ,
}
}
& buf [.. ]
& buf .as_ref ( ) [.. ]
} else if is_spec {
} else if is_spec {
// There is decompression to be done through `writer`. Return its output buffer
// There is decompression to be done through `writer`. Return its output buffer
writer . write_all ( from ) . await ? ;
writer . write_all ( from ) . await ? ;
& buf [.. ]
& buf .as_ref ( ) [.. ]
} else {
} else {
// There is neither decompression nor decryption to be done, return the input reference itself
// There is neither decompression nor decryption to be done, return the input reference itself
from
from
@ -207,7 +210,7 @@ where F: FnOnce(&Vec<u8>) -> V
#[ 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
#[ 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 ::* ;
use futures ::prelude ::* ;
de_singleton_inner ( from . as_ref ( ) , how )
de_singleton_inner ( | from | Vec ::with_capacity ( from . as_ref ( ) . len ( ) ) , from . as_ref ( ) , how )
. map_err ( | k | RecvError ( Box ::new ( ( k , how . clone ( ) ) ) ) )
. map_err ( | k | RecvError ( Box ::new ( ( k , how . clone ( ) ) ) ) )
}
}
@ -277,6 +280,30 @@ pub enum TransformErrorKind
#[ derive(Debug) ]
#[ derive(Debug) ]
pub struct RecvError ( Box < ( TransformErrorKind , RecvOpt ) > ) ;
pub struct RecvError ( Box < ( TransformErrorKind , RecvOpt ) > ) ;
impl error ::Error for RecvError
{
fn source ( & self ) -> Option < & ( dyn error ::Error + ' static ) > {
Some ( match & self . 0.0
{
TransformErrorKind ::IO ( io ) = > io ,
_ = > return None ,
} )
}
}
impl fmt ::Display for RecvError
{
fn fmt ( & self , f : & mut fmt ::Formatter < ' _ > ) -> fmt ::Result
{
write! ( f , "error when deserialising object with params {:?}: " , self . 0.1 ) ? ;
match self . 0.0 {
TransformErrorKind ::Format = > write! ( f , "failed to deserialise object to data" ) ,
TransformErrorKind ::Compress = > write! ( f , "failed to decompress data" ) ,
TransformErrorKind ::Encrypt = > write! ( f , "failed to decrypt data" ) ,
TransformErrorKind ::IO ( _ ) = > write! ( f , "i/o failure" ) ,
}
}
}
/// An error when sending / serialising an object.
/// An error when sending / serialising an object.
#[ derive(Debug) ]
#[ derive(Debug) ]