+impl Readable for HTLCFailReason {
+ fn read<R: Read>(reader: &mut R) -> Result<Self, msgs::DecodeError> {
+ Ok(Self(Readable::read(reader)?))
+ }
+}
+
+impl_writeable_tlv_based_enum!(HTLCFailReasonRepr,
+ (0, LightningError) => {
+ (0, err, required),
+ },
+ (1, Reason) => {
+ (0, failure_code, required),
+ (2, data, vec_type),
+ },
+;);
+
+impl HTLCFailReason {
+ pub(super) fn reason(failure_code: u16, data: Vec<u8>) -> Self {
+ const BADONION: u16 = 0x8000;
+ const PERM: u16 = 0x4000;
+ const NODE: u16 = 0x2000;
+ const UPDATE: u16 = 0x1000;
+
+ if failure_code == 1 | PERM { debug_assert!(data.is_empty()) }
+ else if failure_code == 2 | NODE { debug_assert!(data.is_empty()) }
+ else if failure_code == 2 | PERM | NODE { debug_assert!(data.is_empty()) }
+ else if failure_code == 3 | PERM | NODE { debug_assert!(data.is_empty()) }
+ else if failure_code == 4 | BADONION | PERM { debug_assert_eq!(data.len(), 32) }
+ else if failure_code == 5 | BADONION | PERM { debug_assert_eq!(data.len(), 32) }
+ else if failure_code == 6 | BADONION | PERM { debug_assert_eq!(data.len(), 32) }
+ else if failure_code == 7 | UPDATE {
+ debug_assert_eq!(data.len() - 2, u16::from_be_bytes(data[0..2].try_into().unwrap()) as usize) }
+ else if failure_code == 8 | PERM { debug_assert!(data.is_empty()) }
+ else if failure_code == 9 | PERM { debug_assert!(data.is_empty()) }
+ else if failure_code == 10 | PERM { debug_assert!(data.is_empty()) }
+ else if failure_code == 11 | UPDATE {
+ debug_assert_eq!(data.len() - 2 - 8, u16::from_be_bytes(data[8..10].try_into().unwrap()) as usize) }
+ else if failure_code == 12 | UPDATE {
+ debug_assert_eq!(data.len() - 2 - 8, u16::from_be_bytes(data[8..10].try_into().unwrap()) as usize) }
+ else if failure_code == 13 | UPDATE {
+ debug_assert_eq!(data.len() - 2 - 4, u16::from_be_bytes(data[4..6].try_into().unwrap()) as usize) }
+ else if failure_code == 14 | UPDATE {
+ debug_assert_eq!(data.len() - 2, u16::from_be_bytes(data[0..2].try_into().unwrap()) as usize) }
+ else if failure_code == 15 | PERM { debug_assert_eq!(data.len(), 12) }
+ else if failure_code == 18 { debug_assert_eq!(data.len(), 4) }
+ else if failure_code == 19 { debug_assert_eq!(data.len(), 8) }
+ else if failure_code == 20 | UPDATE {
+ debug_assert_eq!(data.len() - 2 - 2, u16::from_be_bytes(data[2..4].try_into().unwrap()) as usize) }
+ else if failure_code == 21 { debug_assert!(data.is_empty()) }
+ else if failure_code == 22 | PERM { debug_assert!(data.len() <= 11) }
+ else if failure_code == 23 { debug_assert!(data.is_empty()) }
+ else if failure_code & BADONION != 0 {
+ // We set some bogus BADONION failure codes in test, so ignore unknown ones.
+ }
+ else { debug_assert!(false, "Unknown failure code: {}", failure_code) }
+
+ Self(HTLCFailReasonRepr::Reason { failure_code, data })
+ }
+
+ pub(super) fn from_failure_code(failure_code: u16) -> Self {
+ Self::reason(failure_code, Vec::new())
+ }
+
+ pub(super) fn from_msg(msg: &msgs::UpdateFailHTLC) -> Self {
+ Self(HTLCFailReasonRepr::LightningError { err: msg.reason.clone() })
+ }