mirror of
https://github.com/lightningdevkit/rust-lightning.git
synced 2025-02-27 00:06:34 +01:00
369 lines
14 KiB
Rust
369 lines
14 KiB
Rust
macro_rules! encode_tlv {
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($stream: expr, {$(($type: expr, $field: expr)),*}) => { {
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use util::ser::{BigSize, LengthCalculatingWriter};
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$(
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BigSize($type).write($stream)?;
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let mut len_calc = LengthCalculatingWriter(0);
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$field.write(&mut len_calc)?;
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BigSize(len_calc.0 as u64).write($stream)?;
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$field.write($stream)?;
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)*
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} }
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}
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macro_rules! encode_varint_length_prefixed_tlv {
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($stream: expr, {$(($type: expr, $field: expr)),*}) => { {
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use util::ser::{BigSize, LengthCalculatingWriter};
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let mut len = LengthCalculatingWriter(0);
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{
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$(
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BigSize($type).write(&mut len)?;
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let mut field_len = LengthCalculatingWriter(0);
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$field.write(&mut field_len)?;
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BigSize(field_len.0 as u64).write(&mut len)?;
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len.0 += field_len.0;
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)*
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}
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BigSize(len.0 as u64).write($stream)?;
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encode_tlv!($stream, {
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$(($type, $field)),*
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});
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} }
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}
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macro_rules! decode_tlv {
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($stream: expr, {$(($reqtype: expr, $reqfield: ident)),*}, {$(($type: expr, $field: ident)),*}) => { {
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use ln::msgs::DecodeError;
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let mut last_seen_type: Option<u64> = None;
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'tlv_read: loop {
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use util::ser;
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// First decode the type of this TLV:
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let typ: ser::BigSize = {
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// We track whether any bytes were read during the consensus_decode call to
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// determine whether we should break or return ShortRead if we get an
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// UnexpectedEof. This should in every case be largely cosmetic, but its nice to
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// pass the TLV test vectors exactly, which requre this distinction.
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let mut tracking_reader = ser::ReadTrackingReader::new($stream);
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match ser::Readable::read(&mut tracking_reader) {
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Err(DecodeError::ShortRead) => {
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if !tracking_reader.have_read {
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break 'tlv_read
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} else {
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Err(DecodeError::ShortRead)?
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}
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},
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Err(e) => Err(e)?,
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Ok(t) => t,
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}
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};
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// Types must be unique and monotonically increasing:
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match last_seen_type {
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Some(t) if typ.0 <= t => {
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Err(DecodeError::InvalidValue)?
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},
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_ => {},
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}
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// As we read types, make sure we hit every required type:
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$(if (last_seen_type.is_none() || last_seen_type.unwrap() < $reqtype) && typ.0 > $reqtype {
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Err(DecodeError::InvalidValue)?
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})*
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last_seen_type = Some(typ.0);
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// Finally, read the length and value itself:
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let length: ser::BigSize = Readable::read($stream)?;
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let mut s = ser::FixedLengthReader::new($stream, length.0);
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match typ.0 {
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$($reqtype => {
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$reqfield = ser::Readable::read(&mut s)?;
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if s.bytes_remain() {
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s.eat_remaining()?; // Return ShortRead if there's actually not enough bytes
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Err(DecodeError::InvalidValue)?
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}
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},)*
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$($type => {
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$field = Some(ser::Readable::read(&mut s)?);
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if s.bytes_remain() {
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s.eat_remaining()?; // Return ShortRead if there's actually not enough bytes
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Err(DecodeError::InvalidValue)?
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}
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},)*
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x if x % 2 == 0 => {
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Err(DecodeError::UnknownRequiredFeature)?
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},
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_ => {},
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}
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s.eat_remaining()?;
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}
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// Make sure we got to each required type after we've read every TLV:
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$(if last_seen_type.is_none() || last_seen_type.unwrap() < $reqtype {
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Err(DecodeError::InvalidValue)?
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})*
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} }
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}
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macro_rules! impl_writeable {
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($st:ident, $len: expr, {$($field:ident),*}) => {
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impl ::util::ser::Writeable for $st {
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fn write<W: ::util::ser::Writer>(&self, w: &mut W) -> Result<(), ::std::io::Error> {
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if $len != 0 {
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w.size_hint($len);
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}
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$( self.$field.write(w)?; )*
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Ok(())
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}
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}
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impl ::util::ser::Readable for $st {
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fn read<R: ::std::io::Read>(r: &mut R) -> Result<Self, ::ln::msgs::DecodeError> {
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Ok(Self {
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$($field: ::util::ser::Readable::read(r)?),*
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})
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}
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}
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}
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}
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macro_rules! impl_writeable_len_match {
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($st:ident, {$({$m: pat, $l: expr}),*}, {$($field:ident),*}) => {
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impl Writeable for $st {
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fn write<W: Writer>(&self, w: &mut W) -> Result<(), ::std::io::Error> {
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w.size_hint(match *self {
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$($m => $l,)*
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});
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$( self.$field.write(w)?; )*
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Ok(())
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}
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}
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impl ::util::ser::Readable for $st {
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fn read<R: ::std::io::Read>(r: &mut R) -> Result<Self, DecodeError> {
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Ok(Self {
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$($field: Readable::read(r)?),*
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})
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}
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}
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}
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}
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#[cfg(test)]
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mod tests {
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use std::io::{Cursor, Read};
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use ln::msgs::DecodeError;
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use util::ser::{Readable, Writeable, HighZeroBytesDroppedVarInt, VecWriter};
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use bitcoin::secp256k1::PublicKey;
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// The BOLT TLV test cases don't include any tests which use our "required-value" logic since
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// the encoding layer in the BOLTs has no such concept, though it makes our macros easier to
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// work with so they're baked into the decoder. Thus, we have a few additional tests below
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fn tlv_reader(s: &[u8]) -> Result<(u64, u32, Option<u32>), DecodeError> {
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let mut s = Cursor::new(s);
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let mut a: u64 = 0;
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let mut b: u32 = 0;
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let mut c: Option<u32> = None;
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decode_tlv!(&mut s, {(2, a), (3, b)}, {(4, c)});
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Ok((a, b, c))
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}
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#[test]
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fn tlv_v_short_read() {
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// We only expect a u32 for type 3 (which we are given), but the L says its 8 bytes.
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if let Err(DecodeError::ShortRead) = tlv_reader(&::hex::decode(
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concat!("0100", "0208deadbeef1badbeef", "0308deadbeef")
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).unwrap()[..]) {
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} else { panic!(); }
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}
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#[test]
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fn tlv_types_out_of_order() {
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if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
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concat!("0100", "0304deadbeef", "0208deadbeef1badbeef")
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).unwrap()[..]) {
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} else { panic!(); }
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// ...even if its some field we don't understand
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if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
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concat!("0208deadbeef1badbeef", "0100", "0304deadbeef")
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).unwrap()[..]) {
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} else { panic!(); }
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}
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#[test]
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fn tlv_req_type_missing_or_extra() {
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// It's also bad if they included even fields we don't understand
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if let Err(DecodeError::UnknownRequiredFeature) = tlv_reader(&::hex::decode(
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concat!("0100", "0208deadbeef1badbeef", "0304deadbeef", "0600")
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).unwrap()[..]) {
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} else { panic!(); }
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// ... or if they're missing fields we need
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if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
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concat!("0100", "0208deadbeef1badbeef")
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).unwrap()[..]) {
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} else { panic!(); }
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// ... even if that field is even
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if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
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concat!("0304deadbeef", "0500")
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).unwrap()[..]) {
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} else { panic!(); }
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}
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#[test]
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fn tlv_simple_good_cases() {
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assert_eq!(tlv_reader(&::hex::decode(
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concat!("0208deadbeef1badbeef", "03041bad1dea")
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).unwrap()[..]).unwrap(),
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(0xdeadbeef1badbeef, 0x1bad1dea, None));
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assert_eq!(tlv_reader(&::hex::decode(
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concat!("0208deadbeef1badbeef", "03041bad1dea", "040401020304")
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).unwrap()[..]).unwrap(),
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(0xdeadbeef1badbeef, 0x1bad1dea, Some(0x01020304)));
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}
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impl Readable for (PublicKey, u64, u64) {
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#[inline]
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fn read<R: Read>(reader: &mut R) -> Result<(PublicKey, u64, u64), DecodeError> {
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Ok((Readable::read(reader)?, Readable::read(reader)?, Readable::read(reader)?))
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}
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}
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// BOLT TLV test cases
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fn tlv_reader_n1(s: &[u8]) -> Result<(Option<HighZeroBytesDroppedVarInt<u64>>, Option<u64>, Option<(PublicKey, u64, u64)>, Option<u16>), DecodeError> {
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let mut s = Cursor::new(s);
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let mut tlv1: Option<HighZeroBytesDroppedVarInt<u64>> = None;
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let mut tlv2: Option<u64> = None;
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let mut tlv3: Option<(PublicKey, u64, u64)> = None;
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let mut tlv4: Option<u16> = None;
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decode_tlv!(&mut s, {}, {(1, tlv1), (2, tlv2), (3, tlv3), (254, tlv4)});
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Ok((tlv1, tlv2, tlv3, tlv4))
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}
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#[test]
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fn bolt_tlv_bogus_stream() {
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macro_rules! do_test {
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($stream: expr, $reason: ident) => {
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if let Err(DecodeError::$reason) = tlv_reader_n1(&::hex::decode($stream).unwrap()[..]) {
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} else { panic!(); }
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}
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}
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// TLVs from the BOLT test cases which should not decode as either n1 or n2
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do_test!(concat!("fd01"), ShortRead);
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do_test!(concat!("fd0001", "00"), InvalidValue);
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do_test!(concat!("fd0101"), ShortRead);
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do_test!(concat!("0f", "fd"), ShortRead);
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do_test!(concat!("0f", "fd26"), ShortRead);
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do_test!(concat!("0f", "fd2602"), ShortRead);
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do_test!(concat!("0f", "fd0001", "00"), InvalidValue);
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do_test!(concat!("0f", "fd0201", "000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000"), ShortRead);
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do_test!(concat!("12", "00"), UnknownRequiredFeature);
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do_test!(concat!("fd0102", "00"), UnknownRequiredFeature);
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do_test!(concat!("fe01000002", "00"), UnknownRequiredFeature);
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do_test!(concat!("ff0100000000000002", "00"), UnknownRequiredFeature);
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}
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#[test]
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fn bolt_tlv_bogus_n1_stream() {
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macro_rules! do_test {
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($stream: expr, $reason: ident) => {
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if let Err(DecodeError::$reason) = tlv_reader_n1(&::hex::decode($stream).unwrap()[..]) {
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} else { panic!(); }
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}
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}
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// TLVs from the BOLT test cases which should not decode as n1
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do_test!(concat!("01", "09", "ffffffffffffffffff"), InvalidValue);
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do_test!(concat!("01", "01", "00"), InvalidValue);
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do_test!(concat!("01", "02", "0001"), InvalidValue);
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do_test!(concat!("01", "03", "000100"), InvalidValue);
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do_test!(concat!("01", "04", "00010000"), InvalidValue);
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do_test!(concat!("01", "05", "0001000000"), InvalidValue);
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do_test!(concat!("01", "06", "000100000000"), InvalidValue);
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do_test!(concat!("01", "07", "00010000000000"), InvalidValue);
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do_test!(concat!("01", "08", "0001000000000000"), InvalidValue);
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do_test!(concat!("02", "07", "01010101010101"), ShortRead);
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do_test!(concat!("02", "09", "010101010101010101"), InvalidValue);
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do_test!(concat!("03", "21", "023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb"), ShortRead);
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do_test!(concat!("03", "29", "023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb0000000000000001"), ShortRead);
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do_test!(concat!("03", "30", "023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb000000000000000100000000000001"), ShortRead);
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do_test!(concat!("03", "31", "043da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb00000000000000010000000000000002"), InvalidValue);
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do_test!(concat!("03", "32", "023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb0000000000000001000000000000000001"), InvalidValue);
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do_test!(concat!("fd00fe", "00"), ShortRead);
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do_test!(concat!("fd00fe", "01", "01"), ShortRead);
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do_test!(concat!("fd00fe", "03", "010101"), InvalidValue);
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do_test!(concat!("00", "00"), UnknownRequiredFeature);
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do_test!(concat!("02", "08", "0000000000000226", "01", "01", "2a"), InvalidValue);
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do_test!(concat!("02", "08", "0000000000000231", "02", "08", "0000000000000451"), InvalidValue);
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do_test!(concat!("1f", "00", "0f", "01", "2a"), InvalidValue);
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do_test!(concat!("1f", "00", "1f", "01", "2a"), InvalidValue);
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// The last BOLT test modified to not require creating a new decoder for one trivial test.
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do_test!(concat!("ffffffffffffffffff", "00", "01", "00"), InvalidValue);
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}
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#[test]
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fn bolt_tlv_valid_n1_stream() {
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macro_rules! do_test {
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($stream: expr, $tlv1: expr, $tlv2: expr, $tlv3: expr, $tlv4: expr) => {
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if let Ok((tlv1, tlv2, tlv3, tlv4)) = tlv_reader_n1(&::hex::decode($stream).unwrap()[..]) {
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assert_eq!(tlv1.map(|v| v.0), $tlv1);
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assert_eq!(tlv2, $tlv2);
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assert_eq!(tlv3, $tlv3);
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assert_eq!(tlv4, $tlv4);
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} else { panic!(); }
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}
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}
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do_test!(concat!(""), None, None, None, None);
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do_test!(concat!("21", "00"), None, None, None, None);
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do_test!(concat!("fd0201", "00"), None, None, None, None);
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do_test!(concat!("fd00fd", "00"), None, None, None, None);
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do_test!(concat!("fd00ff", "00"), None, None, None, None);
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do_test!(concat!("fe02000001", "00"), None, None, None, None);
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do_test!(concat!("ff0200000000000001", "00"), None, None, None, None);
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do_test!(concat!("01", "00"), Some(0), None, None, None);
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do_test!(concat!("01", "01", "01"), Some(1), None, None, None);
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do_test!(concat!("01", "02", "0100"), Some(256), None, None, None);
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do_test!(concat!("01", "03", "010000"), Some(65536), None, None, None);
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do_test!(concat!("01", "04", "01000000"), Some(16777216), None, None, None);
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do_test!(concat!("01", "05", "0100000000"), Some(4294967296), None, None, None);
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do_test!(concat!("01", "06", "010000000000"), Some(1099511627776), None, None, None);
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do_test!(concat!("01", "07", "01000000000000"), Some(281474976710656), None, None, None);
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do_test!(concat!("01", "08", "0100000000000000"), Some(72057594037927936), None, None, None);
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do_test!(concat!("02", "08", "0000000000000226"), None, Some((0 << 30) | (0 << 5) | (550 << 0)), None, None);
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do_test!(concat!("03", "31", "023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb00000000000000010000000000000002"),
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None, None, Some((
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PublicKey::from_slice(&::hex::decode("023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb").unwrap()[..]).unwrap(), 1, 2)),
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None);
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do_test!(concat!("fd00fe", "02", "0226"), None, None, None, Some(550));
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}
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fn do_simple_test_tlv_write() -> Result<(), ::std::io::Error> {
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let mut stream = VecWriter(Vec::new());
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stream.0.clear();
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encode_varint_length_prefixed_tlv!(&mut stream, { (1, 1u8) });
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assert_eq!(stream.0, ::hex::decode("03010101").unwrap());
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stream.0.clear();
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encode_varint_length_prefixed_tlv!(&mut stream, { (4, 0xabcdu16) });
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assert_eq!(stream.0, ::hex::decode("040402abcd").unwrap());
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stream.0.clear();
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encode_varint_length_prefixed_tlv!(&mut stream, { (0xff, 0xabcdu16) });
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assert_eq!(stream.0, ::hex::decode("06fd00ff02abcd").unwrap());
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stream.0.clear();
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encode_varint_length_prefixed_tlv!(&mut stream, { (0, 1u64), (0xff, HighZeroBytesDroppedVarInt(0u64)) });
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assert_eq!(stream.0, ::hex::decode("0e00080000000000000001fd00ff00").unwrap());
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Ok(())
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}
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#[test]
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fn simple_test_tlv_write() {
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do_simple_test_tlv_write().unwrap();
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}
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}
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