src/dec.rs - platform/external/rust/crates/ciborium-ll - Git at Google

 use super::*;

 use ciborium_io::Read;

 /// An error that occurred while decoding
 #[derive(Debug)]
 pub enum Error<T> {
     /// An error occurred while reading bytes
     ///
     /// Contains the underlying error reaturned while reading.
     Io(T),

     /// An error occurred while parsing bytes
     ///
     /// Contains the offset into the stream where the syntax error occurred.
     Syntax(usize),
 }

 impl<T> From<T> for Error<T> {
     #[inline]
     fn from(value: T) -> Self {
         Self::Io(value)
     }
 }

 /// A decoder for deserializing CBOR items
 ///
 /// This decoder manages the low-level decoding of CBOR items into `Header`
 /// objects. It also contains utility functions for parsing segmented bytes
 /// and text inputs.
 pub struct Decoder<R: Read> {
     reader: R,
     offset: usize,
     buffer: Option<Title>,
 }

 impl<R: Read> From<R> for Decoder<R> {
     #[inline]
     fn from(value: R) -> Self {
         Self {
             reader: value,
             offset: 0,
             buffer: None,
         }
     }
 }

 impl<R: Read> Read for Decoder<R> {
     type Error = R::Error;

     #[inline]
     fn read_exact(&mut self, data: &mut [u8]) -> Result<(), Self::Error> {
         assert!(self.buffer.is_none());
         self.reader.read_exact(data)?;
         self.offset += data.len();
         Ok(())
     }
 }

 impl<R: Read> Decoder<R> {
     #[inline]
     fn pull_title(&mut self) -> Result<Title, Error<R::Error>> {
         if let Some(title) = self.buffer.take() {
             self.offset += title.1.as_ref().len() + 1;
             return Ok(title);
         }

         let mut prefix = [0u8; 1];
         self.read_exact(&mut prefix[..])?;

         let major = match prefix[0] >> 5 {
             0 => Major::Positive,
             1 => Major::Negative,
             2 => Major::Bytes,
             3 => Major::Text,
             4 => Major::Array,
             5 => Major::Map,
             6 => Major::Tag,
             7 => Major::Other,
             _ => unreachable!(),
         };

         let mut minor = match prefix[0] & 0b00011111 {
             x if x < 24 => Minor::This(x),
             24 => Minor::Next1([0; 1]),
             25 => Minor::Next2([0; 2]),
             26 => Minor::Next4([0; 4]),
             27 => Minor::Next8([0; 8]),
             31 => Minor::More,
             _ => return Err(Error::Syntax(self.offset - 1)),
         };

         self.read_exact(minor.as_mut())?;
         Ok(Title(major, minor))
     }

     #[inline]
     fn push_title(&mut self, item: Title) {
         assert!(self.buffer.is_none());
         self.buffer = Some(item);
         self.offset -= item.1.as_ref().len() + 1;
     }

     /// Pulls the next header from the input
     #[inline]
     pub fn pull(&mut self) -> Result<Header, Error<R::Error>> {
         let offset = self.offset;
         self.pull_title()?
             .try_into()
             .map_err(|_| Error::Syntax(offset))
     }

     /// Push a single header into the input buffer
     ///
     /// # Panics
     ///
     /// This function panics if called while there is already a header in the
     /// input buffer. You should take care to call this function only after
     /// pulling a header to ensure there is nothing in the input buffer.
     #[inline]
     pub fn push(&mut self, item: Header) {
         self.push_title(Title::from(item))
     }

     /// Gets the current byte offset into the stream
     ///
     /// The offset starts at zero when the decoder is created. Therefore, if
     /// bytes were already read from the reader before the decoder was created,
     /// you must account for this.
     #[inline]
     pub fn offset(&mut self) -> usize {
         self.offset
     }

     /// Process an incoming bytes item
     ///
     /// In CBOR, bytes can be segmented. The logic for this can be a bit tricky,
     /// so we encapsulate that logic using this function. This function **MUST**
     /// be called immediately after first pulling a `Header::Bytes(len)` from
     /// the wire and `len` must be provided to this function from that value.
     ///
     /// The `buf` parameter provides a buffer used when reading in the segmented
     /// bytes. A large buffer will result in fewer calls to read incoming bytes
     /// at the cost of memory usage. You should consider this trade off when
     /// deciding the size of your buffer.
     #[inline]
     pub fn bytes(&mut self, len: Option<usize>) -> Segments<R, crate::seg::Bytes> {
         self.push(Header::Bytes(len));
         Segments::new(self, |header| match header {
             Header::Bytes(len) => Ok(len),
             _ => Err(()),
         })
     }

     /// Process an incoming text item
     ///
     /// In CBOR, text can be segmented. The logic for this can be a bit tricky,
     /// so we encapsulate that logic using this function. This function **MUST**
     /// be called immediately after first pulling a `Header::Text(len)` from
     /// the wire and `len` must be provided to this function from that value.
     ///
     /// The `buf` parameter provides a buffer used when reading in the segmented
     /// text. A large buffer will result in fewer calls to read incoming bytes
     /// at the cost of memory usage. You should consider this trade off when
     /// deciding the size of your buffer.
     #[inline]
     pub fn text(&mut self, len: Option<usize>) -> Segments<R, crate::seg::Text> {
         self.push(Header::Text(len));
         Segments::new(self, |header| match header {
             Header::Text(len) => Ok(len),
             _ => Err(()),
         })
     }
 }
	use super::*;

	use ciborium_io::Read;

	/// An error that occurred while decoding
	#[derive(Debug)]
	pub enum Error<T> {
	/// An error occurred while reading bytes
	///
	/// Contains the underlying error reaturned while reading.
	Io(T),

	/// An error occurred while parsing bytes
	///
	/// Contains the offset into the stream where the syntax error occurred.
	Syntax(usize),
	}

	impl<T> From<T> for Error<T> {
	#[inline]
	fn from(value: T) -> Self {
	Self::Io(value)
	}
	}

	/// A decoder for deserializing CBOR items
	///
	/// This decoder manages the low-level decoding of CBOR items into `Header`
	/// objects. It also contains utility functions for parsing segmented bytes
	/// and text inputs.
	pub struct Decoder<R: Read> {
	reader: R,
	offset: usize,
	buffer: Option<Title>,
	}

	impl<R: Read> From<R> for Decoder<R> {
	#[inline]
	fn from(value: R) -> Self {
	Self {
	reader: value,
	offset: 0,
	buffer: None,
	}
	}
	}

	impl<R: Read> Read for Decoder<R> {
	type Error = R::Error;

	#[inline]
	fn read_exact(&mut self, data: &mut [u8]) -> Result<(), Self::Error> {
	assert!(self.buffer.is_none());
	self.reader.read_exact(data)?;
	self.offset += data.len();
	Ok(())
	}
	}

	impl<R: Read> Decoder<R> {
	#[inline]
	fn pull_title(&mut self) -> Result<Title, Error<R::Error>> {
	if let Some(title) = self.buffer.take() {
	self.offset += title.1.as_ref().len() + 1;
	return Ok(title);
	}

	let mut prefix = [0u8; 1];
	self.read_exact(&mut prefix[..])?;

	let major = match prefix[0] >> 5 {
	0 => Major::Positive,
	1 => Major::Negative,
	2 => Major::Bytes,
	3 => Major::Text,
	4 => Major::Array,
	5 => Major::Map,
	6 => Major::Tag,
	7 => Major::Other,
	_ => unreachable!(),
	};

	let mut minor = match prefix[0] & 0b00011111 {
	x if x < 24 => Minor::This(x),
	24 => Minor::Next1([0; 1]),
	25 => Minor::Next2([0; 2]),
	26 => Minor::Next4([0; 4]),
	27 => Minor::Next8([0; 8]),
	31 => Minor::More,
	_ => return Err(Error::Syntax(self.offset - 1)),
	};

	self.read_exact(minor.as_mut())?;
	Ok(Title(major, minor))
	}

	#[inline]
	fn push_title(&mut self, item: Title) {
	assert!(self.buffer.is_none());
	self.buffer = Some(item);
	self.offset -= item.1.as_ref().len() + 1;
	}

	/// Pulls the next header from the input
	#[inline]
	pub fn pull(&mut self) -> Result<Header, Error<R::Error>> {
	let offset = self.offset;
	self.pull_title()?
	.try_into()
	.map_err(\|_\| Error::Syntax(offset))
	}

	/// Push a single header into the input buffer
	///
	/// # Panics
	///
	/// This function panics if called while there is already a header in the
	/// input buffer. You should take care to call this function only after
	/// pulling a header to ensure there is nothing in the input buffer.
	#[inline]
	pub fn push(&mut self, item: Header) {
	self.push_title(Title::from(item))
	}

	/// Gets the current byte offset into the stream
	///
	/// The offset starts at zero when the decoder is created. Therefore, if
	/// bytes were already read from the reader before the decoder was created,
	/// you must account for this.
	#[inline]
	pub fn offset(&mut self) -> usize {
	self.offset
	}

	/// Process an incoming bytes item
	///
	/// In CBOR, bytes can be segmented. The logic for this can be a bit tricky,
	/// so we encapsulate that logic using this function. This function MUST
	/// be called immediately after first pulling a `Header::Bytes(len)` from
	/// the wire and `len` must be provided to this function from that value.
	///
	/// The `buf` parameter provides a buffer used when reading in the segmented
	/// bytes. A large buffer will result in fewer calls to read incoming bytes
	/// at the cost of memory usage. You should consider this trade off when
	/// deciding the size of your buffer.
	#[inline]
	pub fn bytes(&mut self, len: Option<usize>) -> Segments<R, crate::seg::Bytes> {
	self.push(Header::Bytes(len));
	Segments::new(self, \|header\| match header {
	Header::Bytes(len) => Ok(len),
	_ => Err(()),
	})
	}

	/// Process an incoming text item
	///
	/// In CBOR, text can be segmented. The logic for this can be a bit tricky,
	/// so we encapsulate that logic using this function. This function MUST
	/// be called immediately after first pulling a `Header::Text(len)` from
	/// the wire and `len` must be provided to this function from that value.
	///
	/// The `buf` parameter provides a buffer used when reading in the segmented
	/// text. A large buffer will result in fewer calls to read incoming bytes
	/// at the cost of memory usage. You should consider this trade off when
	/// deciding the size of your buffer.
	#[inline]
	pub fn text(&mut self, len: Option<usize>) -> Segments<R, crate::seg::Text> {
	self.push(Header::Text(len));
	Segments::new(self, \|header\| match header {
	Header::Text(len) => Ok(len),
	_ => Err(()),
	})
	}
	}