RustRepoTrans
/
Dataset_Construction
/projects
/libp2p
/rust
/misc
/quick-protobuf-codec
/src
/lib.rs
| use asynchronous_codec::{Decoder, Encoder}; | |
| use bytes::{Buf, BufMut, BytesMut}; | |
| use quick_protobuf::{BytesReader, MessageRead, MessageWrite, Writer, WriterBackend}; | |
| use std::io; | |
| use std::marker::PhantomData; | |
| mod generated; | |
| // NOT public API. Do not use. | |
| pub use generated::test as proto; | |
| /// [`Codec`] implements [`Encoder`] and [`Decoder`], uses [`unsigned_varint`] | |
| /// to prefix messages with their length and uses [`quick_protobuf`] and a provided | |
| /// `struct` implementing [`MessageRead`] and [`MessageWrite`] to do the encoding. | |
| pub struct Codec<In, Out = In> { | |
| max_message_len_bytes: usize, | |
| phantom: PhantomData<(In, Out)>, | |
| } | |
| impl<In, Out> Codec<In, Out> { | |
| /// Create new [`Codec`]. | |
| /// | |
| /// Parameter `max_message_len_bytes` determines the maximum length of the | |
| /// Protobuf message. The limit does not include the bytes needed for the | |
| /// [`unsigned_varint`]. | |
| pub fn new(max_message_len_bytes: usize) -> Self { | |
| Self { | |
| max_message_len_bytes, | |
| phantom: PhantomData, | |
| } | |
| } | |
| } | |
| impl<In: MessageWrite, Out> Encoder for Codec<In, Out> { | |
| type Item<'a> = In; | |
| type Error = Error; | |
| fn encode(&mut self, item: Self::Item<'_>, dst: &mut BytesMut) -> Result<(), Self::Error> { | |
| write_length(&item, dst); | |
| write_message(&item, dst)?; | |
| Ok(()) | |
| } | |
| } | |
| /// Write the message's length (i.e. `size`) to `dst` as a variable-length integer. | |
| fn write_length(message: &impl MessageWrite, dst: &mut BytesMut) { | |
| let message_length = message.get_size(); | |
| let mut uvi_buf = unsigned_varint::encode::usize_buffer(); | |
| let encoded_length = unsigned_varint::encode::usize(message_length, &mut uvi_buf); | |
| dst.extend_from_slice(encoded_length); | |
| } | |
| /// Write the message itself to `dst`. | |
| fn write_message(item: &impl MessageWrite, dst: &mut BytesMut) -> io::Result<()> { | |
| let mut writer = Writer::new(BytesMutWriterBackend::new(dst)); | |
| item.write_message(&mut writer) | |
| .map_err(|e| io::Error::new(io::ErrorKind::Other, e))?; | |
| Ok(()) | |
| } | |
| impl<In, Out> Decoder for Codec<In, Out> | |
| where | |
| Out: for<'a> MessageRead<'a>, | |
| { | |
| type Item = Out; | |
| type Error = Error; | |
| fn decode(&mut self, src: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> { | |
| let (message_length, remaining) = match unsigned_varint::decode::usize(src) { | |
| Ok((len, remaining)) => (len, remaining), | |
| Err(unsigned_varint::decode::Error::Insufficient) => return Ok(None), | |
| Err(e) => return Err(Error(io::Error::new(io::ErrorKind::InvalidData, e))), | |
| }; | |
| if message_length > self.max_message_len_bytes { | |
| return Err(Error(io::Error::new( | |
| io::ErrorKind::PermissionDenied, | |
| format!( | |
| "message with {message_length}b exceeds maximum of {}b", | |
| self.max_message_len_bytes | |
| ), | |
| ))); | |
| } | |
| // Compute how many bytes the varint itself consumed. | |
| let varint_length = src.len() - remaining.len(); | |
| // Ensure we can read an entire message. | |
| if src.len() < (message_length + varint_length) { | |
| return Ok(None); | |
| } | |
| // Safe to advance buffer now. | |
| src.advance(varint_length); | |
| let message = src.split_to(message_length); | |
| let mut reader = BytesReader::from_bytes(&message); | |
| let message = Self::Item::from_reader(&mut reader, &message) | |
| .map_err(|e| io::Error::new(io::ErrorKind::InvalidData, e))?; | |
| Ok(Some(message)) | |
| } | |
| } | |
| struct BytesMutWriterBackend<'a> { | |
| dst: &'a mut BytesMut, | |
| } | |
| impl<'a> BytesMutWriterBackend<'a> { | |
| fn new(dst: &'a mut BytesMut) -> Self { | |
| Self { dst } | |
| } | |
| } | |
| impl<'a> WriterBackend for BytesMutWriterBackend<'a> { | |
| fn pb_write_u8(&mut self, x: u8) -> quick_protobuf::Result<()> { | |
| self.dst.put_u8(x); | |
| Ok(()) | |
| } | |
| fn pb_write_u32(&mut self, x: u32) -> quick_protobuf::Result<()> { | |
| self.dst.put_u32_le(x); | |
| Ok(()) | |
| } | |
| fn pb_write_i32(&mut self, x: i32) -> quick_protobuf::Result<()> { | |
| self.dst.put_i32_le(x); | |
| Ok(()) | |
| } | |
| fn pb_write_f32(&mut self, x: f32) -> quick_protobuf::Result<()> { | |
| self.dst.put_f32_le(x); | |
| Ok(()) | |
| } | |
| fn pb_write_u64(&mut self, x: u64) -> quick_protobuf::Result<()> { | |
| self.dst.put_u64_le(x); | |
| Ok(()) | |
| } | |
| fn pb_write_i64(&mut self, x: i64) -> quick_protobuf::Result<()> { | |
| self.dst.put_i64_le(x); | |
| Ok(()) | |
| } | |
| fn pb_write_f64(&mut self, x: f64) -> quick_protobuf::Result<()> { | |
| self.dst.put_f64_le(x); | |
| Ok(()) | |
| } | |
| fn pb_write_all(&mut self, buf: &[u8]) -> quick_protobuf::Result<()> { | |
| self.dst.put_slice(buf); | |
| Ok(()) | |
| } | |
| } | |
| pub struct Error( io::Error); | |
| impl From<Error> for io::Error { | |
| fn from(e: Error) -> Self { | |
| e.0 | |
| } | |
| } | |
| mod tests { | |
| use super::*; | |
| use asynchronous_codec::FramedRead; | |
| use futures::io::Cursor; | |
| use futures::{FutureExt, StreamExt}; | |
| use quickcheck::{Arbitrary, Gen, QuickCheck}; | |
| use std::error::Error; | |
| fn honors_max_message_length() { | |
| let codec = Codec::<Dummy>::new(1); | |
| let mut src = varint_zeroes(100); | |
| let mut read = FramedRead::new(Cursor::new(&mut src), codec); | |
| let err = read.next().now_or_never().unwrap().unwrap().unwrap_err(); | |
| assert_eq!( | |
| err.source().unwrap().to_string(), | |
| "message with 100b exceeds maximum of 1b" | |
| ) | |
| } | |
| fn empty_bytes_mut_does_not_panic() { | |
| let mut codec = Codec::<Dummy>::new(100); | |
| let mut src = varint_zeroes(100); | |
| src.truncate(50); | |
| let result = codec.decode(&mut src); | |
| assert!(result.unwrap().is_none()); | |
| assert_eq!( | |
| src.len(), | |
| 50, | |
| "to not modify `src` if we cannot read a full message" | |
| ) | |
| } | |
| fn only_partial_message_in_bytes_mut_does_not_panic() { | |
| let mut codec = Codec::<Dummy>::new(100); | |
| let result = codec.decode(&mut BytesMut::new()); | |
| assert!(result.unwrap().is_none()); | |
| } | |
| fn handles_arbitrary_initial_capacity() { | |
| fn prop(message: proto::Message, initial_capacity: u16) { | |
| let mut buffer = BytesMut::with_capacity(initial_capacity as usize); | |
| let mut codec = Codec::<proto::Message>::new(u32::MAX as usize); | |
| codec.encode(message.clone(), &mut buffer).unwrap(); | |
| let decoded = codec.decode(&mut buffer).unwrap().unwrap(); | |
| assert_eq!(message, decoded); | |
| } | |
| QuickCheck::new().quickcheck(prop as fn(_, _) -> _) | |
| } | |
| /// Constructs a [`BytesMut`] of the provided length where the message is all zeros. | |
| fn varint_zeroes(length: usize) -> BytesMut { | |
| let mut buf = unsigned_varint::encode::usize_buffer(); | |
| let encoded_length = unsigned_varint::encode::usize(length, &mut buf); | |
| let mut src = BytesMut::new(); | |
| src.extend_from_slice(encoded_length); | |
| src.extend(std::iter::repeat(0).take(length)); | |
| src | |
| } | |
| impl Arbitrary for proto::Message { | |
| fn arbitrary(g: &mut Gen) -> Self { | |
| Self { | |
| data: Vec::arbitrary(g), | |
| } | |
| } | |
| } | |
| struct Dummy; | |
| impl<'a> MessageRead<'a> for Dummy { | |
| fn from_reader(_: &mut BytesReader, _: &'a [u8]) -> quick_protobuf::Result<Self> { | |
| todo!() | |
| } | |
| } | |
| } | |