use bech32::{ToBase32, u5, WriteBase32, Base32Len};
use super::{Invoice, Sha256, TaggedField, ExpiryTime, MinFinalCltvExpiry, Fallback, PayeePubKey, InvoiceSignature, PositiveTimestamp,
- RouteHint, Description, RawTaggedField, Currency, RawHrp, SiPrefix, constants, SignedRawInvoice, RawDataPart};
+ PrivateRoute, Description, RawTaggedField, Currency, RawHrp, SiPrefix, constants, SignedRawInvoice, RawDataPart};
/// Converts a stream of bytes written to it to base32. On finalization the according padding will
/// be applied. That means the results of writing two data blocks with one or two `BytesToBase32`
}
}
-impl ToBase32 for RouteHint {
+impl ToBase32 for PrivateRoute {
fn write_base32<W: WriteBase32>(&self, writer: &mut W) -> Result<(), <W as WriteBase32>::Err> {
let mut converter = BytesToBase32::new(writer);
- for hop in self.iter() {
+ for hop in (self.0).0.iter() {
converter.append(&hop.src_node_id.serialize()[..])?;
let short_channel_id = try_stretch(
encode_int_be_base256(hop.short_channel_id),
}
}
-impl Base32Len for RouteHint {
+impl Base32Len for PrivateRoute {
fn base32_len(&self) -> usize {
- bytes_size_to_base32_size(self.0.len() * 51)
+ bytes_size_to_base32_size((self.0).0.len() * 51)
}
}
TaggedField::Fallback(ref fallback_address) => {
write_tagged_field(writer, constants::TAG_FALLBACK, fallback_address)
},
- TaggedField::Route(ref route_hops) => {
- write_tagged_field(writer, constants::TAG_ROUTE, route_hops)
+ TaggedField::PrivateRoute(ref route_hops) => {
+ write_tagged_field(writer, constants::TAG_PRIVATE_ROUTE, route_hops)
},
TaggedField::PaymentSecret(ref payment_secret) => {
write_tagged_field(writer, constants::TAG_PAYMENT_SECRET, payment_secret)