#![warn(rust_2018_idioms)] use bytes::buf::UninitSlice; use bytes::{BufMut, BytesMut}; use core::fmt::Write; use core::mem::MaybeUninit; use core::usize; #[test] fn test_vec_as_mut_buf() { let mut buf = Vec::with_capacity(64); assert_eq!(buf.remaining_mut(), isize::MAX as usize); assert!(buf.chunk_mut().len() >= 64); buf.put(&b"zomg"[..]); assert_eq!(&buf, b"zomg"); assert_eq!(buf.remaining_mut(), isize::MAX as usize - 4); assert_eq!(buf.capacity(), 64); for _ in 0..16 { buf.put(&b"zomg"[..]); } assert_eq!(buf.len(), 68); } #[test] fn test_vec_put_bytes() { let mut buf = Vec::new(); buf.push(17); buf.put_bytes(19, 2); assert_eq!([17, 19, 19], &buf[..]); } #[test] fn test_put_u8() { let mut buf = Vec::with_capacity(8); buf.put_u8(33); assert_eq!(b"\x21", &buf[..]); } #[test] fn test_put_u16() { let mut buf = Vec::with_capacity(8); buf.put_u16(8532); assert_eq!(b"\x21\x54", &buf[..]); buf.clear(); buf.put_u16_le(8532); assert_eq!(b"\x54\x21", &buf[..]); } #[test] fn test_put_int() { let mut buf = Vec::with_capacity(8); buf.put_int(0x1020304050607080, 3); assert_eq!(b"\x60\x70\x80", &buf[..]); } #[test] #[should_panic] fn test_put_int_nbytes_overflow() { let mut buf = Vec::with_capacity(8); buf.put_int(0x1020304050607080, 9); } #[test] fn test_put_int_le() { let mut buf = Vec::with_capacity(8); buf.put_int_le(0x1020304050607080, 3); assert_eq!(b"\x80\x70\x60", &buf[..]); } #[test] #[should_panic] fn test_put_int_le_nbytes_overflow() { let mut buf = Vec::with_capacity(8); buf.put_int_le(0x1020304050607080, 9); } #[test] #[should_panic(expected = "advance out of bounds: the len is 8 but advancing by 12")] fn test_vec_advance_mut() { // Verify fix for #354 let mut buf = Vec::with_capacity(8); unsafe { buf.advance_mut(12); } } #[test] fn test_clone() { let mut buf = BytesMut::with_capacity(100); buf.write_str("this is a test").unwrap(); let buf2 = buf.clone(); buf.write_str(" of our emergency broadcast system").unwrap(); assert!(buf != buf2); } fn do_test_slice_small(make: impl Fn(&mut [u8]) -> &mut T) where for<'r> &'r mut T: BufMut, { let mut buf = [b'X'; 8]; let mut slice = make(&mut buf[..]); slice.put_bytes(b'A', 2); slice.put_u8(b'B'); slice.put_slice(b"BCC"); assert_eq!(2, slice.remaining_mut()); assert_eq!(b"AABBCCXX", &buf[..]); let mut slice = make(&mut buf[..]); slice.put_u32(0x61626364); assert_eq!(4, slice.remaining_mut()); assert_eq!(b"abcdCCXX", &buf[..]); let mut slice = make(&mut buf[..]); slice.put_u32_le(0x30313233); assert_eq!(4, slice.remaining_mut()); assert_eq!(b"3210CCXX", &buf[..]); } fn do_test_slice_large(make: impl Fn(&mut [u8]) -> &mut T) where for<'r> &'r mut T: BufMut, { const LEN: usize = 100; const FILL: [u8; LEN] = [b'Y'; LEN]; let test = |fill: &dyn Fn(&mut &mut T, usize)| { for buf_len in 0..LEN { let mut buf = [b'X'; LEN]; for fill_len in 0..=buf_len { let mut slice = make(&mut buf[..buf_len]); fill(&mut slice, fill_len); assert_eq!(buf_len - fill_len, slice.remaining_mut()); let (head, tail) = buf.split_at(fill_len); assert_eq!(&FILL[..fill_len], head); assert!(tail.iter().all(|b| *b == b'X')); } } }; test(&|slice, fill_len| slice.put_slice(&FILL[..fill_len])); test(&|slice, fill_len| slice.put_bytes(FILL[0], fill_len)); } fn do_test_slice_put_slice_panics(make: impl Fn(&mut [u8]) -> &mut T) where for<'r> &'r mut T: BufMut, { let mut buf = [b'X'; 4]; let mut slice = make(&mut buf[..]); slice.put_slice(b"12345"); } fn do_test_slice_put_bytes_panics(make: impl Fn(&mut [u8]) -> &mut T) where for<'r> &'r mut T: BufMut, { let mut buf = [b'X'; 4]; let mut slice = make(&mut buf[..]); slice.put_bytes(b'1', 5); } #[test] fn test_slice_buf_mut_small() { do_test_slice_small(|x| x); } #[test] fn test_slice_buf_mut_large() { do_test_slice_large(|x| x); } #[test] #[should_panic] fn test_slice_buf_mut_put_slice_overflow() { do_test_slice_put_slice_panics(|x| x); } #[test] #[should_panic] fn test_slice_buf_mut_put_bytes_overflow() { do_test_slice_put_bytes_panics(|x| x); } fn make_maybe_uninit_slice(slice: &mut [u8]) -> &mut [MaybeUninit] { // SAFETY: [u8] has the same layout as [MaybeUninit]. unsafe { core::mem::transmute(slice) } } #[test] fn test_maybe_uninit_buf_mut_small() { do_test_slice_small(make_maybe_uninit_slice); } #[test] fn test_maybe_uninit_buf_mut_large() { do_test_slice_large(make_maybe_uninit_slice); } #[test] #[should_panic] fn test_maybe_uninit_buf_mut_put_slice_overflow() { do_test_slice_put_slice_panics(make_maybe_uninit_slice); } #[test] #[should_panic] fn test_maybe_uninit_buf_mut_put_bytes_overflow() { do_test_slice_put_bytes_panics(make_maybe_uninit_slice); } #[allow(unused_allocation)] // This is intentional. #[test] fn test_deref_bufmut_forwards() { struct Special; unsafe impl BufMut for Special { fn remaining_mut(&self) -> usize { unreachable!("remaining_mut"); } fn chunk_mut(&mut self) -> &mut UninitSlice { unreachable!("chunk_mut"); } unsafe fn advance_mut(&mut self, _: usize) { unreachable!("advance"); } fn put_u8(&mut self, _: u8) { // specialized! } } // these should all use the specialized method Special.put_u8(b'x'); (&mut Special as &mut dyn BufMut).put_u8(b'x'); (Box::new(Special) as Box).put_u8(b'x'); Box::new(Special).put_u8(b'x'); } #[test] #[should_panic] fn write_byte_panics_if_out_of_bounds() { let mut data = [b'b', b'a', b'r']; let slice = unsafe { UninitSlice::from_raw_parts_mut(data.as_mut_ptr(), 3) }; slice.write_byte(4, b'f'); } #[test] #[should_panic] fn copy_from_slice_panics_if_different_length_1() { let mut data = [b'b', b'a', b'r']; let slice = unsafe { UninitSlice::from_raw_parts_mut(data.as_mut_ptr(), 3) }; slice.copy_from_slice(b"a"); } #[test] #[should_panic] fn copy_from_slice_panics_if_different_length_2() { let mut data = [b'b', b'a', b'r']; let slice = unsafe { UninitSlice::from_raw_parts_mut(data.as_mut_ptr(), 3) }; slice.copy_from_slice(b"abcd"); }