//! [BOLT #9]: https://github.com/lightningnetwork/lightning-rfc/blob/master/09-features.md
//! [messages]: crate::ln::msgs
-use std::{cmp, fmt};
-use std::marker::PhantomData;
+use prelude::*;
+use core::{cmp, fmt};
+use core::marker::PhantomData;
+use bitcoin::bech32;
+use bitcoin::bech32::{Base32Len, FromBase32, ToBase32, u5, WriteBase32};
use ln::msgs::DecodeError;
use util::ser::{Readable, Writeable, Writer};
mod sealed {
+ use prelude::*;
use ln::features::Features;
/// The context in which [`Features`] are applicable. Defines which features are required and
required_features: [$( $( $required_feature: ident )|*, )*],
optional_features: [$( $( $optional_feature: ident )|*, )*],
}) => {
+ #[derive(Eq, PartialEq)]
pub struct $context {}
impl Context for $context {
// Byte 0
,
// Byte 1
- StaticRemoteKey,
+ VariableLengthOnion | StaticRemoteKey | PaymentSecret,
// Byte 2
,
// Byte 3
// Byte 0
DataLossProtect | InitialRoutingSync | UpfrontShutdownScript | GossipQueries,
// Byte 1
- VariableLengthOnion | PaymentSecret,
+ ,
// Byte 2
BasicMPP,
// Byte 3
// Byte 0
,
// Byte 1
- StaticRemoteKey,
+ VariableLengthOnion | StaticRemoteKey | PaymentSecret,
// Byte 2
,
// Byte 3
,
+ // Byte 4
+ ,
+ // Byte 5
+ ,
+ // Byte 6
+ ,
],
optional_features: [
// Byte 0
DataLossProtect | UpfrontShutdownScript | GossipQueries,
// Byte 1
- VariableLengthOnion | PaymentSecret,
+ ,
// Byte 2
BasicMPP,
// Byte 3
ShutdownAnySegwit,
+ // Byte 4
+ ,
+ // Byte 5
+ ,
+ // Byte 6
+ Keysend,
],
});
define_context!(ChannelContext {
optional_features: [],
});
define_context!(InvoiceContext {
- required_features: [,,,],
- optional_features: [
+ required_features: [
// Byte 0
,
// Byte 1
VariableLengthOnion | PaymentSecret,
// Byte 2
+ ,
+ ],
+ optional_features: [
+ // Byte 0
+ ,
+ // Byte 1
+ ,
+ // Byte 2
BasicMPP,
],
});
define_feature!(27, ShutdownAnySegwit, [InitContext, NodeContext],
"Feature flags for `opt_shutdown_anysegwit`.", set_shutdown_any_segwit_optional,
set_shutdown_any_segwit_required);
+ define_feature!(55, Keysend, [NodeContext],
+ "Feature flags for keysend payments.", set_keysend_optional, set_keysend_required);
#[cfg(test)]
- define_context!(TestingContext {
- required_features: [
- // Byte 0
- ,
- // Byte 1
- ,
- // Byte 2
- UnknownFeature,
- ],
- optional_features: [
- // Byte 0
- ,
- // Byte 1
- ,
- // Byte 2
- ,
- ],
- });
-
- #[cfg(test)]
- define_feature!(23, UnknownFeature, [TestingContext],
+ define_feature!(123456789, UnknownFeature, [NodeContext, ChannelContext, InvoiceContext],
"Feature flags for an unknown feature used in testing.", set_unknown_feature_optional,
set_unknown_feature_required);
}
/// appears.
///
/// (C-not exported) as we map the concrete feature types below directly instead
+#[derive(Eq)]
pub struct Features<T: sealed::Context> {
/// Note that, for convenience, flags is LITTLE endian (despite being big-endian on the wire)
flags: Vec<u8>,
pub(crate) fn to_context<C: sealed::Context>(&self) -> Features<C> {
self.to_context_internal()
}
+
+ /// Getting a route for a keysend payment to a private node requires providing the payee's
+ /// features (since they were not announced in a node announcement). However, keysend payments
+ /// don't have an invoice to pull the payee's features from, so this method is provided for use in
+ /// [`get_keysend_route`], thus omitting the need for payers to manually construct an
+ /// `InvoiceFeatures` for [`get_route`].
+ ///
+ /// [`get_keysend_route`]: crate::routing::router::get_keysend_route
+ /// [`get_route`]: crate::routing::router::get_route
+ pub(crate) fn for_keysend() -> InvoiceFeatures {
+ InvoiceFeatures::empty().set_variable_length_onion_optional()
+ }
+}
+
+impl ToBase32 for InvoiceFeatures {
+ fn write_base32<W: WriteBase32>(&self, writer: &mut W) -> Result<(), <W as WriteBase32>::Err> {
+ // Explanation for the "4": the normal way to round up when dividing is to add the divisor
+ // minus one before dividing
+ let length_u5s = (self.flags.len() * 8 + 4) / 5 as usize;
+ let mut res_u5s: Vec<u5> = vec![u5::try_from_u8(0).unwrap(); length_u5s];
+ for (byte_idx, byte) in self.flags.iter().enumerate() {
+ let bit_pos_from_left_0_indexed = byte_idx * 8;
+ let new_u5_idx = length_u5s - (bit_pos_from_left_0_indexed / 5) as usize - 1;
+ let new_bit_pos = bit_pos_from_left_0_indexed % 5;
+ let shifted_chunk_u16 = (*byte as u16) << new_bit_pos;
+ let curr_u5_as_u8 = res_u5s[new_u5_idx].to_u8();
+ res_u5s[new_u5_idx] = u5::try_from_u8(curr_u5_as_u8 | ((shifted_chunk_u16 & 0x001f) as u8)).unwrap();
+ if new_u5_idx > 0 {
+ let curr_u5_as_u8 = res_u5s[new_u5_idx - 1].to_u8();
+ res_u5s[new_u5_idx - 1] = u5::try_from_u8(curr_u5_as_u8 | (((shifted_chunk_u16 >> 5) & 0x001f) as u8)).unwrap();
+ }
+ if new_u5_idx > 1 {
+ let curr_u5_as_u8 = res_u5s[new_u5_idx - 2].to_u8();
+ res_u5s[new_u5_idx - 2] = u5::try_from_u8(curr_u5_as_u8 | (((shifted_chunk_u16 >> 10) & 0x001f) as u8)).unwrap();
+ }
+ }
+ // Trim the highest feature bits.
+ while !res_u5s.is_empty() && res_u5s[0] == u5::try_from_u8(0).unwrap() {
+ res_u5s.remove(0);
+ }
+ writer.write(&res_u5s)
+ }
+}
+
+impl Base32Len for InvoiceFeatures {
+ fn base32_len(&self) -> usize {
+ self.to_base32().len()
+ }
+}
+
+impl FromBase32 for InvoiceFeatures {
+ type Err = bech32::Error;
+
+ fn from_base32(field_data: &[u5]) -> Result<InvoiceFeatures, bech32::Error> {
+ // Explanation for the "7": the normal way to round up when dividing is to add the divisor
+ // minus one before dividing
+ let length_bytes = (field_data.len() * 5 + 7) / 8 as usize;
+ let mut res_bytes: Vec<u8> = vec![0; length_bytes];
+ for (u5_idx, chunk) in field_data.iter().enumerate() {
+ let bit_pos_from_right_0_indexed = (field_data.len() - u5_idx - 1) * 5;
+ let new_byte_idx = (bit_pos_from_right_0_indexed / 8) as usize;
+ let new_bit_pos = bit_pos_from_right_0_indexed % 8;
+ let chunk_u16 = chunk.to_u8() as u16;
+ res_bytes[new_byte_idx] |= ((chunk_u16 << new_bit_pos) & 0xff) as u8;
+ if new_byte_idx != length_bytes - 1 {
+ res_bytes[new_byte_idx + 1] |= ((chunk_u16 >> (8-new_bit_pos)) & 0xff) as u8;
+ }
+ }
+ // Trim the highest feature bits.
+ while !res_bytes.is_empty() && res_bytes[res_bytes.len() - 1] == 0 {
+ res_bytes.pop();
+ }
+ Ok(InvoiceFeatures::from_le_bytes(res_bytes))
+ }
}
impl<T: sealed::Context> Features<T> {
/// Converts `Features<T>` to `Features<C>`. Only known `T` features relevant to context `C` are
/// included in the result.
fn to_context_internal<C: sealed::Context>(&self) -> Features<C> {
- let byte_count = C::KNOWN_FEATURE_MASK.len();
+ let from_byte_count = T::KNOWN_FEATURE_MASK.len();
+ let to_byte_count = C::KNOWN_FEATURE_MASK.len();
let mut flags = Vec::new();
for (i, byte) in self.flags.iter().enumerate() {
- if i < byte_count {
- let known_source_features = T::KNOWN_FEATURE_MASK[i];
- let known_target_features = C::KNOWN_FEATURE_MASK[i];
- flags.push(byte & known_source_features & known_target_features);
+ if i < from_byte_count && i < to_byte_count {
+ let from_known_features = T::KNOWN_FEATURE_MASK[i];
+ let to_known_features = C::KNOWN_FEATURE_MASK[i];
+ flags.push(byte & from_known_features & to_known_features);
}
}
Features::<C> { flags, mark: PhantomData, }
}
- #[cfg(test)]
- /// Create a Features given a set of flags, in LE.
+ /// Create a Features given a set of flags, in little-endian. This is in reverse byte order from
+ /// most on-the-wire encodings.
+ /// (C-not exported) as we don't support export across multiple T
pub fn from_le_bytes(flags: Vec<u8>) -> Features<T> {
Features {
flags,
pub(crate) fn byte_count(&self) -> usize {
self.flags.len()
}
-
- #[cfg(test)]
- pub(crate) fn set_required_unknown_bits(&mut self) {
- <sealed::TestingContext as sealed::UnknownFeature>::set_required_bit(&mut self.flags);
- }
-
- #[cfg(test)]
- pub(crate) fn set_optional_unknown_bits(&mut self) {
- <sealed::TestingContext as sealed::UnknownFeature>::set_optional_bit(&mut self.flags);
- }
-
- #[cfg(test)]
- pub(crate) fn clear_unknown_bits(&mut self) {
- <sealed::TestingContext as sealed::UnknownFeature>::clear_bits(&mut self.flags);
- }
}
impl<T: sealed::DataLossProtect> Features<T> {
pub(crate) fn requires_payment_secret(&self) -> bool {
<T as sealed::PaymentSecret>::requires_feature(&self.flags)
}
- // Note that we never need to test this since what really matters is the invoice - iff the
- // invoice provides a payment_secret, we assume that we can use it (ie that the recipient
- // supports payment_secret).
- #[allow(dead_code)]
- pub(crate) fn supports_payment_secret(&self) -> bool {
+ /// Returns whether the `payment_secret` feature is supported.
+ pub fn supports_payment_secret(&self) -> bool {
<T as sealed::PaymentSecret>::supports_feature(&self.flags)
}
}
#[cfg(test)]
mod tests {
use super::{ChannelFeatures, InitFeatures, InvoiceFeatures, NodeFeatures};
+ use bitcoin::bech32::{Base32Len, FromBase32, ToBase32, u5};
#[test]
fn sanity_test_known_features() {
assert!(InitFeatures::known().supports_variable_length_onion());
assert!(NodeFeatures::known().supports_variable_length_onion());
- assert!(!InitFeatures::known().requires_variable_length_onion());
- assert!(!NodeFeatures::known().requires_variable_length_onion());
+ assert!(InvoiceFeatures::known().supports_variable_length_onion());
+ assert!(InitFeatures::known().requires_variable_length_onion());
+ assert!(NodeFeatures::known().requires_variable_length_onion());
+ assert!(InvoiceFeatures::known().requires_variable_length_onion());
assert!(InitFeatures::known().supports_static_remote_key());
assert!(NodeFeatures::known().supports_static_remote_key());
assert!(InitFeatures::known().supports_payment_secret());
assert!(NodeFeatures::known().supports_payment_secret());
- assert!(!InitFeatures::known().requires_payment_secret());
- assert!(!NodeFeatures::known().requires_payment_secret());
+ assert!(InvoiceFeatures::known().supports_payment_secret());
+ assert!(InitFeatures::known().requires_payment_secret());
+ assert!(NodeFeatures::known().requires_payment_secret());
+ assert!(InvoiceFeatures::known().requires_payment_secret());
assert!(InitFeatures::known().supports_basic_mpp());
assert!(NodeFeatures::known().supports_basic_mpp());
+ assert!(InvoiceFeatures::known().supports_basic_mpp());
assert!(!InitFeatures::known().requires_basic_mpp());
assert!(!NodeFeatures::known().requires_basic_mpp());
+ assert!(!InvoiceFeatures::known().requires_basic_mpp());
assert!(InitFeatures::known().supports_shutdown_anysegwit());
assert!(NodeFeatures::known().supports_shutdown_anysegwit());
#[test]
fn sanity_test_unknown_bits() {
- let mut features = ChannelFeatures::empty();
+ let features = ChannelFeatures::empty();
assert!(!features.requires_unknown_bits());
assert!(!features.supports_unknown_bits());
- features.set_required_unknown_bits();
+ let features = ChannelFeatures::empty().set_unknown_feature_required();
assert!(features.requires_unknown_bits());
assert!(features.supports_unknown_bits());
- features.clear_unknown_bits();
- assert!(!features.requires_unknown_bits());
- assert!(!features.supports_unknown_bits());
-
- features.set_optional_unknown_bits();
+ let features = ChannelFeatures::empty().set_unknown_feature_optional();
assert!(!features.requires_unknown_bits());
assert!(features.supports_unknown_bits());
}
{
// Check that the flags are as expected:
// - option_data_loss_protect
- // - var_onion_optin | static_remote_key (req) | payment_secret
+ // - var_onion_optin (req) | static_remote_key (req) | payment_secret(req)
// - basic_mpp
// - opt_shutdown_anysegwit
assert_eq!(node_features.flags.len(), 4);
assert_eq!(node_features.flags[0], 0b00000010);
- assert_eq!(node_features.flags[1], 0b10010010);
+ assert_eq!(node_features.flags[1], 0b01010001);
assert_eq!(node_features.flags[2], 0b00000010);
assert_eq!(node_features.flags[3], 0b00001000);
}
assert!(!init_features.supports_gossip_queries());
}
+ #[test]
+ fn convert_to_context_with_unknown_flags() {
+ // Ensure the `from` context has fewer known feature bytes than the `to` context.
+ assert!(InvoiceFeatures::known().byte_count() < NodeFeatures::known().byte_count());
+ let invoice_features = InvoiceFeatures::known().set_unknown_feature_optional();
+ assert!(invoice_features.supports_unknown_bits());
+ let node_features: NodeFeatures = invoice_features.to_context();
+ assert!(!node_features.supports_unknown_bits());
+ }
+
#[test]
fn set_feature_bits() {
let features = InvoiceFeatures::empty()
assert!(features.requires_payment_secret());
assert!(features.supports_payment_secret());
}
+
+ #[test]
+ fn invoice_features_encoding() {
+ let features_as_u5s = vec![
+ u5::try_from_u8(6).unwrap(),
+ u5::try_from_u8(10).unwrap(),
+ u5::try_from_u8(25).unwrap(),
+ u5::try_from_u8(1).unwrap(),
+ u5::try_from_u8(10).unwrap(),
+ u5::try_from_u8(0).unwrap(),
+ u5::try_from_u8(20).unwrap(),
+ u5::try_from_u8(2).unwrap(),
+ u5::try_from_u8(0).unwrap(),
+ u5::try_from_u8(6).unwrap(),
+ u5::try_from_u8(0).unwrap(),
+ u5::try_from_u8(16).unwrap(),
+ u5::try_from_u8(1).unwrap(),
+ ];
+ let features = InvoiceFeatures::from_le_bytes(vec![1, 2, 3, 4, 5, 42, 100, 101]);
+
+ // Test length calculation.
+ assert_eq!(features.base32_len(), 13);
+
+ // Test serialization.
+ let features_serialized = features.to_base32();
+ assert_eq!(features_as_u5s, features_serialized);
+
+ // Test deserialization.
+ let features_deserialized = InvoiceFeatures::from_base32(&features_as_u5s).unwrap();
+ assert_eq!(features, features_deserialized);
+ }
}