//! [`Readable`]: crate::util::ser::Readable
//! [`Writeable`]: crate::util::ser::Writeable
+// There are quite a few TLV serialization "types" which behave differently. We currently only
+// publicly document the `optional` and `required` types, not supporting anything else publicly and
+// changing them at will.
+//
+// Some of the other types include:
+// * (default_value, $default) - reads optionally, reading $default if no TLV is present
+// * (static_value, $value) - ignores any TLVs, always using $value
+// * required_vec - reads into a Vec without a length prefix, failing if no TLV is present.
+// * optional_vec - reads into an Option<Vec> without a length prefix, continuing if no TLV is
+// present. Writes from a Vec directly, only if any elements are present. Note
+// that the struct deserialization macros return a Vec, not an Option.
+// * upgradable_option - reads via MaybeReadable.
+// * upgradable_required - reads via MaybeReadable, requiring a TLV be present but may return None
+// if MaybeReadable::read() returns None.
+
/// Implements serialization for a single TLV record.
/// This is exported for use by other exported macros, do not use directly.
#[doc(hidden)]
BigSize($field.serialized_length() as u64).write($stream)?;
$field.write($stream)?;
};
- ($stream: expr, $type: expr, $field: expr, vec_type) => {
+ ($stream: expr, $type: expr, $field: expr, required_vec) => {
$crate::_encode_tlv!($stream, $type, $crate::util::ser::WithoutLength(&$field), required);
};
($stream: expr, $optional_type: expr, $optional_field: expr, option) => {
};
($stream: expr, $type: expr, $field: expr, optional_vec) => {
if !$field.is_empty() {
- $crate::_encode_tlv!($stream, $type, $field, vec_type);
+ $crate::_encode_tlv!($stream, $type, $field, required_vec);
}
};
($stream: expr, $type: expr, $field: expr, upgradable_required) => {
/// [`Writer`]: crate::util::ser::Writer
#[macro_export]
macro_rules! encode_tlv_stream {
+ ($stream: expr, {$(($type: expr, $field: expr, $fieldty: tt)),* $(,)*}) => {
+ $crate::_encode_tlv_stream!($stream, {$(($type, $field, $fieldty)),*})
+ }
+}
+
+/// Implementation of [`encode_tlv_stream`].
+/// This is exported for use by other exported macros, do not use directly.
+#[doc(hidden)]
+#[macro_export]
+macro_rules! _encode_tlv_stream {
($stream: expr, {$(($type: expr, $field: expr, $fieldty: tt)),* $(,)*}) => { {
+ $crate::_encode_tlv_stream!($stream, { $(($type, $field, $fieldty)),* }, &[])
+ } };
+ ($stream: expr, {$(($type: expr, $field: expr, $fieldty: tt)),* $(,)*}, $extra_tlvs: expr) => { {
#[allow(unused_imports)]
use $crate::{
ln::msgs::DecodeError,
$(
$crate::_encode_tlv!($stream, $type, $field, $fieldty);
)*
+ for tlv in $extra_tlvs {
+ let (typ, value): &(u64, Vec<u8>) = tlv;
+ $crate::_encode_tlv!($stream, *typ, *value, required_vec);
+ }
#[allow(unused_mut, unused_variables, unused_assignments)]
#[cfg(debug_assertions)]
$(
$crate::_check_encoded_tlv_order!(last_seen, $type, $fieldty);
)*
+ for tlv in $extra_tlvs {
+ let (typ, _): &(u64, Vec<u8>) = tlv;
+ $crate::_check_encoded_tlv_order!(last_seen, *typ, required_vec);
+ }
}
- } }
+ } };
}
/// Adds the length of the serialized field to a [`LengthCalculatingWriter`].
BigSize(field_len as u64).write(&mut $len).expect("No in-memory data may fail to serialize");
$len.0 += field_len;
};
- ($len: expr, $type: expr, $field: expr, vec_type) => {
+ ($len: expr, $type: expr, $field: expr, required_vec) => {
$crate::_get_varint_length_prefixed_tlv_length!($len, $type, $crate::util::ser::WithoutLength(&$field), required);
};
($len: expr, $optional_type: expr, $optional_field: expr, option) => {
};
($len: expr, $type: expr, $field: expr, optional_vec) => {
if !$field.is_empty() {
- $crate::_get_varint_length_prefixed_tlv_length!($len, $type, $field, vec_type);
+ $crate::_get_varint_length_prefixed_tlv_length!($len, $type, $field, required_vec);
}
};
($len: expr, $type: expr, $field: expr, (option: $trait: ident $(, $read_arg: expr)?)) => {
#[macro_export]
macro_rules! _encode_varint_length_prefixed_tlv {
($stream: expr, {$(($type: expr, $field: expr, $fieldty: tt)),*}) => { {
+ $crate::_encode_varint_length_prefixed_tlv!($stream, {$(($type, $field, $fieldty)),*}, &[])
+ } };
+ ($stream: expr, {$(($type: expr, $field: expr, $fieldty: tt)),*}, $extra_tlvs: expr) => { {
+ extern crate alloc;
use $crate::util::ser::BigSize;
+ use alloc::vec::Vec;
let len = {
#[allow(unused_mut)]
let mut len = $crate::util::ser::LengthCalculatingWriter(0);
$(
$crate::_get_varint_length_prefixed_tlv_length!(len, $type, $field, $fieldty);
)*
+ for tlv in $extra_tlvs {
+ let (typ, value): &(u64, Vec<u8>) = tlv;
+ $crate::_get_varint_length_prefixed_tlv_length!(len, *typ, *value, required_vec);
+ }
len.0
};
BigSize(len as u64).write($stream)?;
- $crate::encode_tlv_stream!($stream, { $(($type, $field, $fieldty)),* });
- } }
+ $crate::_encode_tlv_stream!($stream, { $(($type, $field, $fieldty)),* }, $extra_tlvs);
+ } };
}
/// Errors if there are missing required TLV types between the last seen type and the type currently being processed.
($last_seen_type: expr, $typ: expr, $type: expr, $field: ident, option) => {{
// no-op
}};
- ($last_seen_type: expr, $typ: expr, $type: expr, $field: ident, vec_type) => {{
- // no-op
+ ($last_seen_type: expr, $typ: expr, $type: expr, $field: ident, required_vec) => {{
+ $crate::_check_decoded_tlv_order!($last_seen_type, $typ, $type, $field, required);
}};
($last_seen_type: expr, $typ: expr, $type: expr, $field: ident, optional_vec) => {{
// no-op
($last_seen_type: expr, $type: expr, $field: ident, (required: $trait: ident $(, $read_arg: expr)?)) => {{
$crate::_check_missing_tlv!($last_seen_type, $type, $field, required);
}};
- ($last_seen_type: expr, $type: expr, $field: ident, vec_type) => {{
- // no-op
+ ($last_seen_type: expr, $type: expr, $field: ident, required_vec) => {{
+ $crate::_check_missing_tlv!($last_seen_type, $type, $field, required);
}};
($last_seen_type: expr, $type: expr, $field: ident, option) => {{
// no-op
($reader: expr, $field: ident, (required: $trait: ident $(, $read_arg: expr)?)) => {{
$field = $trait::read(&mut $reader $(, $read_arg)*)?;
}};
- ($reader: expr, $field: ident, vec_type) => {{
+ ($reader: expr, $field: ident, required_vec) => {{
let f: $crate::util::ser::WithoutLength<Vec<_>> = $crate::util::ser::Readable::read(&mut $reader)?;
- $field = Some(f.0);
+ $field = f.0;
}};
($reader: expr, $field: ident, option) => {{
$field = Some($crate::util::ser::Readable::read(&mut $reader)?);
}};
($reader: expr, $field: ident, optional_vec) => {{
- $crate::_decode_tlv!($reader, $field, vec_type);
+ let f: $crate::util::ser::WithoutLength<Vec<_>> = $crate::util::ser::Readable::read(&mut $reader)?;
+ $field = Some(f.0);
}};
// `upgradable_required` indicates we're reading a required TLV that may have been upgraded
// without backwards compat. We'll error if the field is missing, and return `Ok(None)` if the
($field: ident, required) => {
$field.0.unwrap()
};
- ($field: ident, vec_type) => {
- $field.unwrap()
+ ($field: ident, required_vec) => {
+ $field
};
($field: ident, optional_vec) => {
$field.unwrap()
($field: ident, (required: $trait: ident $(, $read_arg: expr)?)) => {
$crate::_init_tlv_field_var!($field, required);
};
- ($field: ident, vec_type) => {
- let mut $field = Some(Vec::new());
+ ($field: ident, required_vec) => {
+ let mut $field = Vec::new();
};
($field: ident, option) => {
let mut $field = None;
/// Equivalent to running [`_init_tlv_field_var`] then [`read_tlv_fields`].
///
+/// If any unused values are read, their type MUST be specified or else `rustc` will read them as an
+/// `i64`.
+///
/// This is exported for use by other exported macros, do not use directly.
#[doc(hidden)]
#[macro_export]
-macro_rules! _init_and_read_tlv_fields {
+macro_rules! _init_and_read_len_prefixed_tlv_fields {
($reader: ident, {$(($type: expr, $field: ident, $fieldty: tt)),* $(,)*}) => {
$(
$crate::_init_tlv_field_var!($field, $fieldty);
}
}
+/// Equivalent to running [`_init_tlv_field_var`] then [`decode_tlv_stream`].
+///
+/// If any unused values are read, their type MUST be specified or else `rustc` will read them as an
+/// `i64`.
+macro_rules! _init_and_read_tlv_stream {
+ ($reader: ident, {$(($type: expr, $field: ident, $fieldty: tt)),* $(,)*}) => {
+ $(
+ $crate::_init_tlv_field_var!($field, $fieldty);
+ )*
+
+ $crate::decode_tlv_stream!($reader, {
+ $(($type, $field, $fieldty)),*
+ });
+ }
+}
+
/// Implements [`Readable`]/[`Writeable`] for a struct storing it as a set of TLVs
/// If `$fieldty` is `required`, then `$field` is a required field that is not an [`Option`] nor a [`Vec`].
/// If `$fieldty` is `(default_value, $default)`, then `$field` will be set to `$default` if not present.
impl $crate::util::ser::Readable for $st {
fn read<R: $crate::io::Read>(reader: &mut R) -> Result<Self, $crate::ln::msgs::DecodeError> {
- $crate::_init_and_read_tlv_fields!(reader, {
+ $crate::_init_and_read_len_prefixed_tlv_fields!(reader, {
$(($type, $field, $fieldty)),*
});
Ok(Self {
#[cfg_attr(test, derive(PartialEq))]
#[derive(Debug)]
- pub(super) struct $nameref<'a> {
+ pub(crate) struct $nameref<'a> {
$(
pub(super) $field: Option<tlv_record_ref_type!($fieldty)>,
)*
$($variant_id => {
// Because read_tlv_fields creates a labeled loop, we cannot call it twice
// in the same function body. Instead, we define a closure and call it.
- let f = || {
- $crate::_init_and_read_tlv_fields!(reader, {
+ let mut f = || {
+ $crate::_init_and_read_len_prefixed_tlv_fields!(reader, {
$(($type, $field, $fieldty)),*
});
Ok($st::$variant_name {
$($variant_id => {
// Because read_tlv_fields creates a labeled loop, we cannot call it twice
// in the same function body. Instead, we define a closure and call it.
- let f = || {
- $crate::_init_and_read_tlv_fields!(reader, {
+ let mut f = || {
+ $crate::_init_and_read_len_prefixed_tlv_fields!(reader, {
$(($type, $field, $fieldty)),*
});
Ok(Some($st::$variant_name {
#[cfg(test)]
mod tests {
- use crate::io::{self, Cursor};
+ #[allow(unused_imports)]
use crate::prelude::*;
+
+ use crate::io::{self, Cursor};
use crate::ln::msgs::DecodeError;
use crate::util::ser::{Writeable, HighZeroBytesDroppedBigSize, VecWriter};
+ use bitcoin::hashes::hex::FromHex;
use bitcoin::secp256k1::PublicKey;
// The BOLT TLV test cases don't include any tests which use our "required-value" logic since
#[test]
fn tlv_v_short_read() {
// We only expect a u32 for type 3 (which we are given), but the L says its 8 bytes.
- if let Err(DecodeError::ShortRead) = tlv_reader(&::hex::decode(
+ if let Err(DecodeError::ShortRead) = tlv_reader(&<Vec<u8>>::from_hex(
concat!("0100", "0208deadbeef1badbeef", "0308deadbeef")
).unwrap()[..]) {
} else { panic!(); }
#[test]
fn tlv_types_out_of_order() {
- if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
+ if let Err(DecodeError::InvalidValue) = tlv_reader(&<Vec<u8>>::from_hex(
concat!("0100", "0304deadbeef", "0208deadbeef1badbeef")
).unwrap()[..]) {
} else { panic!(); }
// ...even if its some field we don't understand
- if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
+ if let Err(DecodeError::InvalidValue) = tlv_reader(&<Vec<u8>>::from_hex(
concat!("0208deadbeef1badbeef", "0100", "0304deadbeef")
).unwrap()[..]) {
} else { panic!(); }
#[test]
fn tlv_req_type_missing_or_extra() {
// It's also bad if they included even fields we don't understand
- if let Err(DecodeError::UnknownRequiredFeature) = tlv_reader(&::hex::decode(
+ if let Err(DecodeError::UnknownRequiredFeature) = tlv_reader(&<Vec<u8>>::from_hex(
concat!("0100", "0208deadbeef1badbeef", "0304deadbeef", "0600")
).unwrap()[..]) {
} else { panic!(); }
// ... or if they're missing fields we need
- if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
+ if let Err(DecodeError::InvalidValue) = tlv_reader(&<Vec<u8>>::from_hex(
concat!("0100", "0208deadbeef1badbeef")
).unwrap()[..]) {
} else { panic!(); }
// ... even if that field is even
- if let Err(DecodeError::InvalidValue) = tlv_reader(&::hex::decode(
+ if let Err(DecodeError::InvalidValue) = tlv_reader(&<Vec<u8>>::from_hex(
concat!("0304deadbeef", "0500")
).unwrap()[..]) {
} else { panic!(); }
#[test]
fn tlv_simple_good_cases() {
- assert_eq!(tlv_reader(&::hex::decode(
+ assert_eq!(tlv_reader(&<Vec<u8>>::from_hex(
concat!("0208deadbeef1badbeef", "03041bad1dea")
).unwrap()[..]).unwrap(),
(0xdeadbeef1badbeef, 0x1bad1dea, None));
- assert_eq!(tlv_reader(&::hex::decode(
+ assert_eq!(tlv_reader(&<Vec<u8>>::from_hex(
concat!("0208deadbeef1badbeef", "03041bad1dea", "040401020304")
).unwrap()[..]).unwrap(),
(0xdeadbeef1badbeef, 0x1bad1dea, Some(0x01020304)));
#[test]
fn upgradable_tlv_simple_good_cases() {
- assert_eq!(upgradable_tlv_reader(&::hex::decode(
+ assert_eq!(upgradable_tlv_reader(&<Vec<u8>>::from_hex(
concat!("0204deadbeef", "03041bad1dea", "0404deadbeef")
).unwrap()[..]).unwrap(),
Some(TestUpgradable { a: 0xdeadbeef, b: 0x1bad1dea, c: Some(0xdeadbeef) }));
- assert_eq!(upgradable_tlv_reader(&::hex::decode(
+ assert_eq!(upgradable_tlv_reader(&<Vec<u8>>::from_hex(
concat!("0204deadbeef", "03041bad1dea")
).unwrap()[..]).unwrap(),
Some(TestUpgradable { a: 0xdeadbeef, b: 0x1bad1dea, c: None}));
#[test]
fn missing_required_upgradable() {
- if let Err(DecodeError::InvalidValue) = upgradable_tlv_reader(&::hex::decode(
+ if let Err(DecodeError::InvalidValue) = upgradable_tlv_reader(&<Vec<u8>>::from_hex(
concat!("0100", "0204deadbeef")
).unwrap()[..]) {
} else { panic!(); }
- if let Err(DecodeError::InvalidValue) = upgradable_tlv_reader(&::hex::decode(
+ if let Err(DecodeError::InvalidValue) = upgradable_tlv_reader(&<Vec<u8>>::from_hex(
concat!("0100", "03041bad1dea")
).unwrap()[..]) {
} else { panic!(); }
fn bolt_tlv_bogus_stream() {
macro_rules! do_test {
($stream: expr, $reason: ident) => {
- if let Err(DecodeError::$reason) = tlv_reader_n1(&::hex::decode($stream).unwrap()[..]) {
+ if let Err(DecodeError::$reason) = tlv_reader_n1(&<Vec<u8>>::from_hex($stream).unwrap()[..]) {
} else { panic!(); }
}
}
fn bolt_tlv_bogus_n1_stream() {
macro_rules! do_test {
($stream: expr, $reason: ident) => {
- if let Err(DecodeError::$reason) = tlv_reader_n1(&::hex::decode($stream).unwrap()[..]) {
+ if let Err(DecodeError::$reason) = tlv_reader_n1(&<Vec<u8>>::from_hex($stream).unwrap()[..]) {
} else { panic!(); }
}
}
fn bolt_tlv_valid_n1_stream() {
macro_rules! do_test {
($stream: expr, $tlv1: expr, $tlv2: expr, $tlv3: expr, $tlv4: expr) => {
- if let Ok((tlv1, tlv2, tlv3, tlv4)) = tlv_reader_n1(&::hex::decode($stream).unwrap()[..]) {
+ if let Ok((tlv1, tlv2, tlv3, tlv4)) = tlv_reader_n1(&<Vec<u8>>::from_hex($stream).unwrap()[..]) {
assert_eq!(tlv1.map(|v| v.0), $tlv1);
assert_eq!(tlv2, $tlv2);
assert_eq!(tlv3, $tlv3);
do_test!(concat!("02", "08", "0000000000000226"), None, Some((0 << 30) | (0 << 5) | (550 << 0)), None, None);
do_test!(concat!("03", "31", "023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb00000000000000010000000000000002"),
None, None, Some((
- PublicKey::from_slice(&::hex::decode("023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb").unwrap()[..]).unwrap(), 1, 2)),
+ PublicKey::from_slice(&<Vec<u8>>::from_hex("023da092f6980e58d2c037173180e9a465476026ee50f96695963e8efe436f54eb").unwrap()[..]).unwrap(), 1, 2)),
None);
do_test!(concat!("fd00fe", "02", "0226"), None, None, None, Some(550));
}
stream.0.clear();
_encode_varint_length_prefixed_tlv!(&mut stream, {(1, 1u8, required), (42, None::<u64>, option)});
- assert_eq!(stream.0, ::hex::decode("03010101").unwrap());
+ assert_eq!(stream.0, <Vec<u8>>::from_hex("03010101").unwrap());
stream.0.clear();
_encode_varint_length_prefixed_tlv!(&mut stream, {(1, Some(1u8), option)});
- assert_eq!(stream.0, ::hex::decode("03010101").unwrap());
+ assert_eq!(stream.0, <Vec<u8>>::from_hex("03010101").unwrap());
stream.0.clear();
_encode_varint_length_prefixed_tlv!(&mut stream, {(4, 0xabcdu16, required), (42, None::<u64>, option)});
- assert_eq!(stream.0, ::hex::decode("040402abcd").unwrap());
+ assert_eq!(stream.0, <Vec<u8>>::from_hex("040402abcd").unwrap());
stream.0.clear();
_encode_varint_length_prefixed_tlv!(&mut stream, {(42, None::<u64>, option), (0xff, 0xabcdu16, required)});
- assert_eq!(stream.0, ::hex::decode("06fd00ff02abcd").unwrap());
+ assert_eq!(stream.0, <Vec<u8>>::from_hex("06fd00ff02abcd").unwrap());
stream.0.clear();
_encode_varint_length_prefixed_tlv!(&mut stream, {(0, 1u64, required), (42, None::<u64>, option), (0xff, HighZeroBytesDroppedBigSize(0u64), required)});
- assert_eq!(stream.0, ::hex::decode("0e00080000000000000001fd00ff00").unwrap());
+ assert_eq!(stream.0, <Vec<u8>>::from_hex("0e00080000000000000001fd00ff00").unwrap());
stream.0.clear();
_encode_varint_length_prefixed_tlv!(&mut stream, {(0, Some(1u64), option), (0xff, HighZeroBytesDroppedBigSize(0u64), required)});
- assert_eq!(stream.0, ::hex::decode("0e00080000000000000001fd00ff00").unwrap());
+ assert_eq!(stream.0, <Vec<u8>>::from_hex("0e00080000000000000001fd00ff00").unwrap());
Ok(())
}
projects / rust-lightning / blobdiff