extern crate tokio_codec; extern crate tokio_io; extern crate bytes; extern crate futures; use futures::{Stream, Future}; use std::io::{self, Read}; use tokio_codec::{Framed, FramedParts, Decoder, Encoder}; use tokio_io::AsyncRead; use bytes::{BytesMut, Buf, BufMut, IntoBuf}; const INITIAL_CAPACITY: usize = 8 * 1024; /// Encode and decode u32 values. struct U32Codec; impl Decoder for U32Codec { type Item = u32; type Error = io::Error; fn decode(&mut self, buf: &mut BytesMut) -> io::Result> { if buf.len() < 4 { return Ok(None); } let n = buf.split_to(4).into_buf().get_u32_be(); Ok(Some(n)) } } impl Encoder for U32Codec { type Item = u32; type Error = io::Error; fn encode(&mut self, item: u32, dst: &mut BytesMut) -> io::Result<()> { // Reserve space dst.reserve(4); dst.put_u32_be(item); Ok(()) } } /// This value should never be used struct DontReadIntoThis; impl Read for DontReadIntoThis { fn read(&mut self, _: &mut [u8]) -> io::Result { Err(io::Error::new(io::ErrorKind::Other, "Read into something you weren't supposed to.")) } } impl AsyncRead for DontReadIntoThis {} #[test] fn can_read_from_existing_buf() { let mut parts = FramedParts::new(DontReadIntoThis, U32Codec); parts.read_buf = vec![0, 0, 0, 42].into(); let framed = Framed::from_parts(parts); let num = framed .into_future() .map(|(first_num, _)| { first_num.unwrap() }) .wait() .map_err(|e| e.0) .unwrap(); assert_eq!(num, 42); } #[test] fn external_buf_grows_to_init() { let mut parts = FramedParts::new(DontReadIntoThis, U32Codec); parts.read_buf = vec![0, 0, 0, 42].into(); let framed = Framed::from_parts(parts); let FramedParts { read_buf, .. } = framed.into_parts(); assert_eq!(read_buf.capacity(), INITIAL_CAPACITY); } #[test] fn external_buf_does_not_shrink() { let mut parts = FramedParts::new(DontReadIntoThis, U32Codec); parts.read_buf = vec![0; INITIAL_CAPACITY * 2].into(); let framed = Framed::from_parts(parts); let FramedParts { read_buf, .. } = framed.into_parts(); assert_eq!(read_buf.capacity(), INITIAL_CAPACITY * 2); }