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|
#![warn(rust_2018_idioms)]
use tokio_util::codec::{AnyDelimiterCodec, BytesCodec, Decoder, Encoder, LinesCodec};
use bytes::{BufMut, Bytes, BytesMut};
#[test]
fn bytes_decoder() {
let mut codec = BytesCodec::new();
let buf = &mut BytesMut::new();
buf.put_slice(b"abc");
assert_eq!("abc", codec.decode(buf).unwrap().unwrap());
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"a");
assert_eq!("a", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn bytes_encoder() {
let mut codec = BytesCodec::new();
// Default capacity of BytesMut
#[cfg(target_pointer_width = "64")]
const INLINE_CAP: usize = 4 * 8 - 1;
#[cfg(target_pointer_width = "32")]
const INLINE_CAP: usize = 4 * 4 - 1;
let mut buf = BytesMut::new();
codec
.encode(Bytes::from_static(&[0; INLINE_CAP + 1]), &mut buf)
.unwrap();
// Default capacity of Framed Read
const INITIAL_CAPACITY: usize = 8 * 1024;
let mut buf = BytesMut::with_capacity(INITIAL_CAPACITY);
codec
.encode(Bytes::from_static(&[0; INITIAL_CAPACITY + 1]), &mut buf)
.unwrap();
codec
.encode(BytesMut::from(&b"hello"[..]), &mut buf)
.unwrap();
}
#[test]
fn lines_decoder() {
let mut codec = LinesCodec::new();
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line 1\nline 2\r\nline 3\n\r\n\r");
assert_eq!("line 1", codec.decode(buf).unwrap().unwrap());
assert_eq!("line 2", codec.decode(buf).unwrap().unwrap());
assert_eq!("line 3", codec.decode(buf).unwrap().unwrap());
assert_eq!("", codec.decode(buf).unwrap().unwrap());
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
buf.put_slice(b"k");
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!("\rk", codec.decode_eof(buf).unwrap().unwrap());
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
}
#[test]
fn lines_decoder_invalid_utf8() {
let mut codec = LinesCodec::new();
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line 1\xc3\x28");
assert_eq!(None, codec.decode(buf).unwrap());
assert!(codec.decode_eof(buf).is_err());
assert_eq!(None, codec.decode_eof(buf).unwrap());
buf.put_slice(b"line 22222222222222\n");
assert_eq!("line 22222222222222", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn lines_decoder_max_length() {
const MAX_LENGTH: usize = 6;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line 1 is too long\nline 2\nline 3\r\nline 4\n\r\n\r");
assert!(codec.decode(buf).is_err());
let line = codec.decode(buf).unwrap().unwrap();
assert!(line.len() <= MAX_LENGTH, "{line:?}.len() <= {MAX_LENGTH:?}");
assert_eq!("line 2", line);
assert!(codec.decode(buf).is_err());
let line = codec.decode(buf).unwrap().unwrap();
assert!(line.len() <= MAX_LENGTH, "{line:?}.len() <= {MAX_LENGTH:?}");
assert_eq!("line 4", line);
let line = codec.decode(buf).unwrap().unwrap();
assert!(line.len() <= MAX_LENGTH, "{line:?}.len() <= {MAX_LENGTH:?}");
assert_eq!("", line);
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
buf.put_slice(b"k");
assert_eq!(None, codec.decode(buf).unwrap());
let line = codec.decode_eof(buf).unwrap().unwrap();
assert!(line.len() <= MAX_LENGTH, "{line:?}.len() <= {MAX_LENGTH:?}");
assert_eq!("\rk", line);
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
// Line that's one character too long. This could cause an out of bounds
// error if we peek at the next characters using slice indexing.
buf.put_slice(b"aaabbbc");
assert!(codec.decode(buf).is_err());
}
#[test]
fn lines_decoder_max_length_underrun() {
const MAX_LENGTH: usize = 6;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too l");
assert!(codec.decode(buf).is_err());
buf.put_slice(b"ong\n");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"line 2");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"\n");
assert_eq!("line 2", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn lines_decoder_max_length_bursts() {
const MAX_LENGTH: usize = 10;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too l");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"ong\n");
assert!(codec.decode(buf).is_err());
}
#[test]
fn lines_decoder_max_length_big_burst() {
const MAX_LENGTH: usize = 10;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too long!\n");
assert!(codec.decode(buf).is_err());
}
#[test]
fn lines_decoder_max_length_newline_between_decodes() {
const MAX_LENGTH: usize = 5;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"hello");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"\nworld");
assert_eq!("hello", codec.decode(buf).unwrap().unwrap());
}
// Regression test for [infinite loop bug](https://github.com/tokio-rs/tokio/issues/1483)
#[test]
fn lines_decoder_discard_repeat() {
const MAX_LENGTH: usize = 1;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"aa");
assert!(codec.decode(buf).is_err());
buf.put_slice(b"a");
assert_eq!(None, codec.decode(buf).unwrap());
}
// Regression test for [subsequent calls to LinesCodec decode does not return the desired results bug](https://github.com/tokio-rs/tokio/issues/3555)
#[test]
fn lines_decoder_max_length_underrun_twice() {
const MAX_LENGTH: usize = 11;
let mut codec = LinesCodec::new_with_max_length(MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"line ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too very l");
assert!(codec.decode(buf).is_err());
buf.put_slice(b"aaaaaaaaaaaaaaaaaaaaaaa");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"ong\nshort\n");
assert_eq!("short", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn lines_encoder() {
let mut codec = LinesCodec::new();
let mut buf = BytesMut::new();
codec.encode("line 1", &mut buf).unwrap();
assert_eq!("line 1\n", buf);
codec.encode("line 2", &mut buf).unwrap();
assert_eq!("line 1\nline 2\n", buf);
}
#[test]
fn any_delimiters_decoder_any_character() {
let mut codec = AnyDelimiterCodec::new(b",;\n\r".to_vec(), b",".to_vec());
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"chunk 1,chunk 2;chunk 3\n\r");
assert_eq!("chunk 1", codec.decode(buf).unwrap().unwrap());
assert_eq!("chunk 2", codec.decode(buf).unwrap().unwrap());
assert_eq!("chunk 3", codec.decode(buf).unwrap().unwrap());
assert_eq!("", codec.decode(buf).unwrap().unwrap());
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
buf.put_slice(b"k");
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!("k", codec.decode_eof(buf).unwrap().unwrap());
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
}
#[test]
fn any_delimiters_decoder_max_length() {
const MAX_LENGTH: usize = 7;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"chunk 1 is too long\nchunk 2\nchunk 3\r\nchunk 4\n\r\n");
assert!(codec.decode(buf).is_err());
let chunk = codec.decode(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("chunk 2", chunk);
let chunk = codec.decode(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("chunk 3", chunk);
// \r\n cause empty chunk
let chunk = codec.decode(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("", chunk);
let chunk = codec.decode(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("chunk 4", chunk);
let chunk = codec.decode(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("", chunk);
let chunk = codec.decode(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("", chunk);
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
buf.put_slice(b"k");
assert_eq!(None, codec.decode(buf).unwrap());
let chunk = codec.decode_eof(buf).unwrap().unwrap();
assert!(
chunk.len() <= MAX_LENGTH,
"{chunk:?}.len() <= {MAX_LENGTH:?}"
);
assert_eq!("k", chunk);
assert_eq!(None, codec.decode(buf).unwrap());
assert_eq!(None, codec.decode_eof(buf).unwrap());
// Delimiter that's one character too long. This could cause an out of bounds
// error if we peek at the next characters using slice indexing.
buf.put_slice(b"aaabbbcc");
assert!(codec.decode(buf).is_err());
}
#[test]
fn any_delimiter_decoder_max_length_underrun() {
const MAX_LENGTH: usize = 7;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"chunk ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too l");
assert!(codec.decode(buf).is_err());
buf.put_slice(b"ong\n");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"chunk 2");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b",");
assert_eq!("chunk 2", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn any_delimiter_decoder_max_length_underrun_twice() {
const MAX_LENGTH: usize = 11;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"chunk ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too very l");
assert!(codec.decode(buf).is_err());
buf.put_slice(b"aaaaaaaaaaaaaaaaaaaaaaa");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"ong\nshort\n");
assert_eq!("short", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn any_delimiter_decoder_max_length_bursts() {
const MAX_LENGTH: usize = 11;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"chunk ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too l");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"ong\n");
assert!(codec.decode(buf).is_err());
}
#[test]
fn any_delimiter_decoder_max_length_big_burst() {
const MAX_LENGTH: usize = 11;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"chunk ");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b"too long!\n");
assert!(codec.decode(buf).is_err());
}
#[test]
fn any_delimiter_decoder_max_length_delimiter_between_decodes() {
const MAX_LENGTH: usize = 5;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"hello");
assert_eq!(None, codec.decode(buf).unwrap());
buf.put_slice(b",world");
assert_eq!("hello", codec.decode(buf).unwrap().unwrap());
}
#[test]
fn any_delimiter_decoder_discard_repeat() {
const MAX_LENGTH: usize = 1;
let mut codec =
AnyDelimiterCodec::new_with_max_length(b",;\n\r".to_vec(), b",".to_vec(), MAX_LENGTH);
let buf = &mut BytesMut::new();
buf.reserve(200);
buf.put_slice(b"aa");
assert!(codec.decode(buf).is_err());
buf.put_slice(b"a");
assert_eq!(None, codec.decode(buf).unwrap());
}
#[test]
fn any_delimiter_encoder() {
let mut codec = AnyDelimiterCodec::new(b",".to_vec(), b";--;".to_vec());
let mut buf = BytesMut::new();
codec.encode("chunk 1", &mut buf).unwrap();
assert_eq!("chunk 1;--;", buf);
codec.encode("chunk 2", &mut buf).unwrap();
assert_eq!("chunk 1;--;chunk 2;--;", buf);
}
|
