macro_rules! encode_tlv {
($stream: expr, {$(($type: expr, $field: expr)),*}, {$(($optional_type: expr, $optional_field: expr)),*}) => { {
#[allow(unused_imports)]
- use util::ser::{BigSize, LengthCalculatingWriter};
+ use util::ser::BigSize;
// Fields must be serialized in order, so we have to potentially switch between optional
// fields and normal fields while serializing. Thus, we end up having to loop over the type
// counts.
$(
if i == $type {
BigSize($type).write($stream)?;
- let mut len_calc = LengthCalculatingWriter(0);
- $field.write(&mut len_calc)?;
- BigSize(len_calc.0 as u64).write($stream)?;
+ BigSize($field.serialized_length() as u64).write($stream)?;
$field.write($stream)?;
}
)*
if i == $optional_type {
if let Some(ref field) = $optional_field {
BigSize($optional_type).write($stream)?;
- let mut len_calc = LengthCalculatingWriter(0);
- field.write(&mut len_calc)?;
- BigSize(len_calc.0 as u64).write($stream)?;
+ BigSize(field.serialized_length() as u64).write($stream)?;
field.write($stream)?;
}
}
} }
}
-macro_rules! encode_varint_length_prefixed_tlv {
- ($stream: expr, {$(($type: expr, $field: expr)),*}, {$(($optional_type: expr, $optional_field: expr)),*}) => { {
- use util::ser::{BigSize, LengthCalculatingWriter};
+macro_rules! get_varint_length_prefixed_tlv_length {
+ ({$(($type: expr, $field: expr)),*}, {$(($optional_type: expr, $optional_field: expr)),* $(,)*}) => { {
+ use util::ser::LengthCalculatingWriter;
#[allow(unused_mut)]
let mut len = LengthCalculatingWriter(0);
{
$(
- BigSize($type).write(&mut len)?;
- let mut field_len = LengthCalculatingWriter(0);
- $field.write(&mut field_len)?;
- BigSize(field_len.0 as u64).write(&mut len)?;
- len.0 += field_len.0;
+ BigSize($type).write(&mut len).expect("No in-memory data may fail to serialize");
+ let field_len = $field.serialized_length();
+ BigSize(field_len as u64).write(&mut len).expect("No in-memory data may fail to serialize");
+ len.0 += field_len;
)*
$(
if let Some(ref field) = $optional_field {
- BigSize($optional_type).write(&mut len)?;
- let mut field_len = LengthCalculatingWriter(0);
- field.write(&mut field_len)?;
- BigSize(field_len.0 as u64).write(&mut len)?;
- len.0 += field_len.0;
+ BigSize($optional_type).write(&mut len).expect("No in-memory data may fail to serialize");
+ let field_len = field.serialized_length();
+ BigSize(field_len as u64).write(&mut len).expect("No in-memory data may fail to serialize");
+ len.0 += field_len;
}
)*
}
+ len.0
+ } }
+}
- BigSize(len.0 as u64).write($stream)?;
+macro_rules! encode_varint_length_prefixed_tlv {
+ ($stream: expr, {$(($type: expr, $field: expr)),*}, {$(($optional_type: expr, $optional_field: expr)),*}) => { {
+ use util::ser::BigSize;
+ let len = get_varint_length_prefixed_tlv_length!({ $(($type, $field)),* }, { $(($optional_type, $optional_field)),* });
+ BigSize(len as u64).write($stream)?;
encode_tlv!($stream, { $(($type, $field)),* }, { $(($optional_type, $optional_field)),* });
} }
}
_ => {},
}
// As we read types, make sure we hit every required type:
- $(if (last_seen_type.is_none() || last_seen_type.unwrap() < $reqtype) && typ.0 > $reqtype {
- Err(DecodeError::InvalidValue)?
+ $({
+ #[allow(unused_comparisons)] // Note that $reqtype may be 0 making the second comparison always true
+ let invalid_order = (last_seen_type.is_none() || last_seen_type.unwrap() < $reqtype) && typ.0 > $reqtype;
+ if invalid_order {
+ Err(DecodeError::InvalidValue)?
+ }
})*
last_seen_type = Some(typ.0);
s.eat_remaining()?;
}
// Make sure we got to each required type after we've read every TLV:
- $(if last_seen_type.is_none() || last_seen_type.unwrap() < $reqtype {
- Err(DecodeError::InvalidValue)?
+ $({
+ #[allow(unused_comparisons)] // Note that $reqtype may be 0 making the second comparison always true
+ let missing_req_type = last_seen_type.is_none() || last_seen_type.unwrap() < $reqtype;
+ if missing_req_type {
+ Err(DecodeError::InvalidValue)?
+ }
})*
} }
}
if $len != 0 {
use util::ser::LengthCalculatingWriter;
let mut len_calc = LengthCalculatingWriter(0);
- $( self.$field.write(&mut len_calc)?; )*
+ $( self.$field.write(&mut len_calc).expect("No in-memory data may fail to serialize"); )*
assert_eq!(len_calc.0, $len);
+ assert_eq!(self.serialized_length(), $len);
}
}
$( self.$field.write(w)?; )*
Ok(())
}
+
+ #[inline]
+ fn serialized_length(&self) -> usize {
+ if $len == 0 || cfg!(any(test, feature = "fuzztarget")) {
+ let mut len_calc = 0;
+ $( len_calc += self.$field.serialized_length(); )*
+ if $len != 0 {
+ // In tests, assert that the hard-coded length matches the actual one
+ assert_eq!(len_calc, $len);
+ } else {
+ return len_calc;
+ }
+ }
+ $len
+ }
}
impl ::util::ser::Readable for $st {
}
}
macro_rules! impl_writeable_len_match {
- ($struct: ident, $cmp: tt, {$({$match: pat, $length: expr}),*}, {$($field:ident),*}) => {
+ ($struct: ident, $cmp: tt, ($calc_len: expr), {$({$match: pat, $length: expr}),*}, {$($field:ident),*}) => {
impl Writeable for $struct {
fn write<W: Writer>(&self, w: &mut W) -> Result<(), ::std::io::Error> {
let len = match *self {
// In tests, assert that the hard-coded length matches the actual one
use util::ser::LengthCalculatingWriter;
let mut len_calc = LengthCalculatingWriter(0);
- $( self.$field.write(&mut len_calc)?; )*
+ $( self.$field.write(&mut len_calc).expect("No in-memory data may fail to serialize"); )*
assert!(len_calc.0 $cmp len);
+ assert_eq!(len_calc.0, self.serialized_length());
}
$( self.$field.write(w)?; )*
Ok(())
}
+
+ #[inline]
+ fn serialized_length(&self) -> usize {
+ if $calc_len || cfg!(any(test, feature = "fuzztarget")) {
+ let mut len_calc = 0;
+ $( len_calc += self.$field.serialized_length(); )*
+ if !$calc_len {
+ assert_eq!(len_calc, match *self {
+ $($match => $length,)*
+ });
+ }
+ return len_calc
+ }
+ match *self {
+ $($match => $length,)*
+ }
+ }
}
impl ::util::ser::Readable for $struct {
}
}
};
+ ($struct: ident, $cmp: tt, {$({$match: pat, $length: expr}),*}, {$($field:ident),*}) => {
+ impl_writeable_len_match!($struct, $cmp, (true), { $({ $match, $length }),* }, { $($field),* });
+ };
($struct: ident, {$({$match: pat, $length: expr}),*}, {$($field:ident),*}) => {
- impl_writeable_len_match!($struct, ==, { $({ $match, $length }),* }, { $($field),* });
+ impl_writeable_len_match!($struct, ==, (false), { $({ $match, $length }),* }, { $($field),* });
}
}
/// This is the preferred method of adding new fields that old nodes can ignore and still function
/// correctly.
macro_rules! write_tlv_fields {
- ($stream: expr, {$(($type: expr, $field: expr)),*}, {$(($optional_type: expr, $optional_field: expr)),*}) => {
+ ($stream: expr, {$(($type: expr, $field: expr)),* $(,)*}, {$(($optional_type: expr, $optional_field: expr)),* $(,)*}) => {
encode_varint_length_prefixed_tlv!($stream, {$(($type, $field)),*} , {$(($optional_type, $optional_field)),*});
}
}
/// Reads a suffix added by write_tlv_fields.
macro_rules! read_tlv_fields {
- ($stream: expr, {$(($reqtype: expr, $reqfield: ident)),*}, {$(($type: expr, $field: ident)),*}) => { {
+ ($stream: expr, {$(($reqtype: expr, $reqfield: ident)),* $(,)*}, {$(($type: expr, $field: ident)),* $(,)*}) => { {
let tlv_len = ::util::ser::BigSize::read($stream)?;
let mut rd = ::util::ser::FixedLengthReader::new($stream, tlv_len.0);
decode_tlv!(&mut rd, {$(($reqtype, $reqfield)),*}, {$(($type, $field)),*});
} }
}
+// If we naively create a struct in impl_writeable_tlv_based below, we may end up returning
+// `Self { ,,vecfield: vecfield }` which is obviously incorrect. Instead, we have to match here to
+// detect at least one empty field set and skip the potentially-extra comma.
+macro_rules! _init_tlv_based_struct {
+ ({}, {$($field: ident),*}, {$($vecfield: ident),*}) => {
+ Ok(Self {
+ $($field),*,
+ $($vecfield: $vecfield.unwrap().0),*
+ })
+ };
+ ({$($reqfield: ident),*}, {}, {$($vecfield: ident),*}) => {
+ Ok(Self {
+ $($reqfield: $reqfield.0.unwrap()),*,
+ $($vecfield: $vecfield.unwrap().0),*
+ })
+ };
+ ({$($reqfield: ident),*}, {$($field: ident),*}, {}) => {
+ Ok(Self {
+ $($reqfield: $reqfield.0.unwrap()),*,
+ $($field),*
+ })
+ };
+ ({$($reqfield: ident),*}, {$($field: ident),*}, {$($vecfield: ident),*}) => {
+ Ok(Self {
+ $($reqfield: $reqfield.0.unwrap()),*,
+ $($field),*,
+ $($vecfield: $vecfield.unwrap().0),*
+ })
+ }
+}
+
+// If we don't have any optional types below, but do have some vec types, we end up calling
+// `write_tlv_field!($stream, {..}, {, (vec_ty, vec_val)})`, which is obviously broken.
+// Instead, for write and read we match the missing values and skip the extra comma.
+macro_rules! _write_tlv_fields {
+ ($stream: expr, {$(($type: expr, $field: expr)),* $(,)*}, {}, {$(($optional_type: expr, $optional_field: expr)),* $(,)*}) => {
+ write_tlv_fields!($stream, {$(($type, $field)),*} , {$(($optional_type, $optional_field)),*});
+ };
+ ($stream: expr, {$(($type: expr, $field: expr)),* $(,)*}, {$(($optional_type: expr, $optional_field: expr)),* $(,)*}, {$(($optional_type_2: expr, $optional_field_2: expr)),* $(,)*}) => {
+ write_tlv_fields!($stream, {$(($type, $field)),*} , {$(($optional_type, $optional_field)),*, $(($optional_type_2, $optional_field_2)),*});
+ }
+}
+macro_rules! _get_tlv_len {
+ ({$(($type: expr, $field: expr)),* $(,)*}, {}, {$(($optional_type: expr, $optional_field: expr)),* $(,)*}) => {
+ get_varint_length_prefixed_tlv_length!({$(($type, $field)),*} , {$(($optional_type, $optional_field)),*})
+ };
+ ({$(($type: expr, $field: expr)),* $(,)*}, {$(($optional_type: expr, $optional_field: expr)),* $(,)*}, {$(($optional_type_2: expr, $optional_field_2: expr)),* $(,)*}) => {
+ get_varint_length_prefixed_tlv_length!({$(($type, $field)),*} , {$(($optional_type, $optional_field)),*, $(($optional_type_2, $optional_field_2)),*})
+ }
+}
+macro_rules! _read_tlv_fields {
+ ($stream: expr, {$(($reqtype: expr, $reqfield: ident)),* $(,)*}, {}, {$(($type: expr, $field: ident)),* $(,)*}) => {
+ read_tlv_fields!($stream, {$(($reqtype, $reqfield)),*}, {$(($type, $field)),*});
+ };
+ ($stream: expr, {$(($reqtype: expr, $reqfield: ident)),* $(,)*}, {$(($type: expr, $field: ident)),* $(,)*}, {$(($type_2: expr, $field_2: ident)),* $(,)*}) => {
+ read_tlv_fields!($stream, {$(($reqtype, $reqfield)),*}, {$(($type, $field)),*, $(($type_2, $field_2)),*});
+ }
+}
+
+/// Implements Readable/Writeable for a struct storing it as a set of TLVs
+/// First block includes all the required fields including a dummy value which is used during
+/// deserialization but which will never be exposed to other code.
+/// The second block includes optional fields.
+/// The third block includes any Vecs which need to have their individual elements serialized.
+macro_rules! impl_writeable_tlv_based {
+ ($st: ident, {$(($reqtype: expr, $reqfield: ident)),* $(,)*}, {$(($type: expr, $field: ident)),* $(,)*}, {$(($vectype: expr, $vecfield: ident)),* $(,)*}) => {
+ impl ::util::ser::Writeable for $st {
+ fn write<W: ::util::ser::Writer>(&self, writer: &mut W) -> Result<(), ::std::io::Error> {
+ _write_tlv_fields!(writer, {
+ $(($reqtype, self.$reqfield)),*
+ }, {
+ $(($type, self.$field)),*
+ }, {
+ $(($vectype, Some(::util::ser::VecWriteWrapper(&self.$vecfield)))),*
+ });
+ Ok(())
+ }
+
+ #[inline]
+ fn serialized_length(&self) -> usize {
+ let len = _get_tlv_len!({
+ $(($reqtype, self.$reqfield)),*
+ }, {
+ $(($type, self.$field)),*
+ }, {
+ $(($vectype, Some(::util::ser::VecWriteWrapper(&self.$vecfield)))),*
+ });
+ use util::ser::{BigSize, LengthCalculatingWriter};
+ let mut len_calc = LengthCalculatingWriter(0);
+ BigSize(len as u64).write(&mut len_calc).expect("No in-memory data may fail to serialize");
+ len + len_calc.0
+ }
+ }
+
+ impl ::util::ser::Readable for $st {
+ fn read<R: ::std::io::Read>(reader: &mut R) -> Result<Self, ::ln::msgs::DecodeError> {
+ $(
+ let mut $reqfield = ::util::ser::OptionDeserWrapper(None);
+ )*
+ $(
+ let mut $field = None;
+ )*
+ $(
+ let mut $vecfield = Some(::util::ser::VecReadWrapper(Vec::new()));
+ )*
+ _read_tlv_fields!(reader, {
+ $(($reqtype, $reqfield)),*
+ }, {
+ $(($type, $field)),*
+ }, {
+ $(($vectype, $vecfield)),*
+ });
+ _init_tlv_based_struct!({$($reqfield),*}, {$($field),*}, {$($vecfield),*})
+ }
+ }
+ }
+}
+
#[cfg(test)]
mod tests {
+ use prelude::*;
use std::io::{Cursor, Read};
use ln::msgs::DecodeError;
use util::ser::{Readable, Writeable, HighZeroBytesDroppedVarInt, VecWriter};