#![macro_use] use lightning::util::ser::Writer; pub struct VecWriter(pub Vec); impl Writer for VecWriter { fn write_all(&mut self, buf: &[u8]) -> Result<(), ::std::io::Error> { assert!(self.0.capacity() >= self.0.len() + buf.len()); self.0.extend_from_slice(buf); Ok(()) } fn size_hint(&mut self, size: usize) { self.0.reserve_exact(size); } } #[macro_export] macro_rules! test_msg { ($MsgType: path, $data: ident) => { { use lightning::util::ser::{Writeable, Readable}; let mut r = ::std::io::Cursor::new($data); if let Ok(msg) = <$MsgType as Readable<::std::io::Cursor<&[u8]>>>::read(&mut r) { let p = r.position() as usize; let mut w = VecWriter(Vec::new()); msg.write(&mut w).unwrap(); assert_eq!(w.0.len(), p); assert_eq!(&r.into_inner()[..p], &w.0[..p]); } } } } #[macro_export] macro_rules! test_msg_simple { ($MsgType: path, $data: ident) => { { use lightning::util::ser::{Writeable, Readable}; let mut r = ::std::io::Cursor::new($data); if let Ok(msg) = <$MsgType as Readable<::std::io::Cursor<&[u8]>>>::read(&mut r) { let mut w = VecWriter(Vec::new()); msg.write(&mut w).unwrap(); } } } } #[macro_export] macro_rules! test_msg_exact { ($MsgType: path, $data: ident) => { { use lightning::util::ser::{Writeable, Readable}; let mut r = ::std::io::Cursor::new($data); if let Ok(msg) = <$MsgType as Readable<::std::io::Cursor<&[u8]>>>::read(&mut r) { let mut w = VecWriter(Vec::new()); msg.write(&mut w).unwrap(); assert_eq!(&r.into_inner()[..], &w.0[..]); } } } } #[macro_export] macro_rules! test_msg_hole { ($MsgType: path, $data: ident, $hole: expr, $hole_len: expr) => { { use lightning::util::ser::{Writeable, Readable}; let mut r = ::std::io::Cursor::new($data); if let Ok(msg) = <$MsgType as Readable<::std::io::Cursor<&[u8]>>>::read(&mut r) { let mut w = VecWriter(Vec::new()); msg.write(&mut w).unwrap(); let p = w.0.len() as usize; assert_eq!(w.0.len(), p); assert_eq!(&r.get_ref()[..$hole], &w.0[..$hole]); assert_eq!(&r.get_ref()[$hole+$hole_len..p], &w.0[$hole+$hole_len..]); } } } }