#![deny(non_camel_case_types)]
#![deny(non_snake_case)]
#![deny(unused_mut)]
+#![deny(broken_intra_doc_links)]
+
+#![cfg_attr(docsrs, feature(doc_auto_cfg))]
#![cfg_attr(feature = "strict", deny(warnings))]
+#![cfg_attr(all(not(feature = "std"), not(test)), no_std)]
//! This crate provides data structures to represent
//! [lightning BOLT11](https://github.com/lightningnetwork/lightning-rfc/blob/master/11-payment-encoding.md)
//! * For constructing invoices use the `InvoiceBuilder`
//! * For serializing invoices use the `Display`/`ToString` traits
+#[cfg(not(any(feature = "std", feature = "no-std")))]
+compile_error!("at least one of the `std` or `no-std` features must be enabled");
+
+pub mod payment;
+pub mod utils;
+
extern crate bech32;
extern crate bitcoin_hashes;
-extern crate lightning;
+#[macro_use] extern crate lightning;
extern crate num_traits;
extern crate secp256k1;
+extern crate alloc;
+#[cfg(any(test, feature = "std"))]
+extern crate core;
+
+#[cfg(feature = "std")]
+use std::time::SystemTime;
use bech32::u5;
use bitcoin_hashes::Hash;
use lightning::ln::features::InvoiceFeatures;
#[cfg(any(doc, test))]
use lightning::routing::network_graph::RoutingFees;
-use lightning::routing::router::RouteHintHop;
+use lightning::routing::router::RouteHint;
+use lightning::util::invoice::construct_invoice_preimage;
use secp256k1::key::PublicKey;
use secp256k1::{Message, Secp256k1};
use secp256k1::recovery::RecoverableSignature;
-use std::ops::Deref;
-use std::iter::FilterMap;
-use std::slice::Iter;
-use std::time::{SystemTime, Duration, UNIX_EPOCH};
-use std::fmt::{Display, Formatter, self};
+use core::fmt::{Display, Formatter, self};
+use core::iter::FilterMap;
+use core::ops::Deref;
+use core::slice::Iter;
+use core::time::Duration;
mod de;
mod ser;
mod tb;
-pub use de::{ParseError, ParseOrSemanticError};
+mod prelude {
+ #[cfg(feature = "hashbrown")]
+ extern crate hashbrown;
+
+ pub use alloc::{vec, vec::Vec, string::String, collections::VecDeque, boxed::Box};
+ #[cfg(not(feature = "hashbrown"))]
+ pub use std::collections::{HashMap, HashSet, hash_map};
+ #[cfg(feature = "hashbrown")]
+ pub use self::hashbrown::{HashMap, HashSet, hash_map};
-// TODO: fix before 2037 (see rust PR #55527)
-/// Defines the maximum UNIX timestamp that can be represented as `SystemTime`. This is checked by
-/// one of the unit tests, please run them.
-const SYSTEM_TIME_MAX_UNIX_TIMESTAMP: u64 = std::i32::MAX as u64;
-
-/// Allow the expiry time to be up to one year. Since this reduces the range of possible timestamps
-/// it should be rather low as long as we still have to support 32bit time representations
-const MAX_EXPIRY_TIME: u64 = 60 * 60 * 24 * 356;
-
-/// This function is used as a static assert for the size of `SystemTime`. If the crate fails to
-/// compile due to it this indicates that your system uses unexpected bounds for `SystemTime`. You
-/// can remove this functions and run the test `test_system_time_bounds_assumptions`. In any case,
-/// please open an issue. If all tests pass you should be able to use this library safely by just
-/// removing this function till we patch it accordingly.
-fn __system_time_size_check() {
- // Use 2 * sizeof(u64) as expected size since the expected underlying implementation is storing
- // a `Duration` since `SystemTime::UNIX_EPOCH`.
- unsafe { std::mem::transmute_copy::<SystemTime, [u8; 16]>(&UNIX_EPOCH); }
+ pub use alloc::string::ToString;
}
+use prelude::*;
-/// **Call this function on startup to ensure that all assumptions about the platform are valid.**
-///
-/// Unfortunately we have to make assumptions about the upper bounds of the `SystemTime` type on
-/// your platform which we can't fully verify at compile time and which isn't part of it's contract.
-/// To our best knowledge our assumptions hold for all platforms officially supported by rust, but
-/// since this check is fast we recommend to do it anyway.
+/// Sync compat for std/no_std
+#[cfg(feature = "std")]
+mod sync {
+ pub use ::std::sync::{Mutex, MutexGuard};
+}
+
+/// Sync compat for std/no_std
+#[cfg(not(feature = "std"))]
+mod sync;
+
+pub use de::{ParseError, ParseOrSemanticError};
+
+/// The number of bits used to represent timestamps as defined in BOLT 11.
+const TIMESTAMP_BITS: usize = 35;
+
+/// The maximum timestamp as [`Duration::as_secs`] since the Unix epoch allowed by [`BOLT 11`].
///
-/// If this function fails this is considered a bug. Please open an issue describing your
-/// platform and stating your current system time.
+/// [BOLT 11]: https://github.com/lightning/bolts/blob/master/11-payment-encoding.md
+pub const MAX_TIMESTAMP: u64 = (1 << TIMESTAMP_BITS) - 1;
+
+/// Default expiry time as defined by [BOLT 11].
///
-/// # Panics
-/// If the check fails this function panics. By calling this function on startup you ensure that
-/// this wont happen at an arbitrary later point in time.
-pub fn check_platform() {
- // The upper and lower bounds of `SystemTime` are not part of its public contract and are
- // platform specific. That's why we have to test if our assumptions regarding these bounds
- // hold on the target platform.
- //
- // If this test fails on your platform, please don't use the library and open an issue
- // instead so we can resolve the situation. Currently this library is tested on:
- // * Linux (64bit)
- let fail_date = UNIX_EPOCH + Duration::from_secs(SYSTEM_TIME_MAX_UNIX_TIMESTAMP);
- let year = Duration::from_secs(60 * 60 * 24 * 365);
-
- // Make sure that the library will keep working for another year
- assert!(fail_date.duration_since(SystemTime::now()).unwrap() > year);
-
- let max_ts = PositiveTimestamp::from_unix_timestamp(
- SYSTEM_TIME_MAX_UNIX_TIMESTAMP - MAX_EXPIRY_TIME
- ).unwrap();
- let max_exp = ::ExpiryTime::from_seconds(MAX_EXPIRY_TIME).unwrap();
-
- assert_eq!(
- (*max_ts.as_time() + *max_exp.as_duration()).duration_since(UNIX_EPOCH).unwrap().as_secs(),
- SYSTEM_TIME_MAX_UNIX_TIMESTAMP
- );
-}
+/// [BOLT 11]: https://github.com/lightning/bolts/blob/master/11-payment-encoding.md
+pub const DEFAULT_EXPIRY_TIME: u64 = 3600;
+/// Default minimum final CLTV expiry as defined by [BOLT 11].
+///
+/// Note that this is *not* the same value as rust-lightning's minimum CLTV expiry, which is
+/// provided in [`MIN_FINAL_CLTV_EXPIRY`].
+///
+/// [BOLT 11]: https://github.com/lightning/bolts/blob/master/11-payment-encoding.md
+/// [`MIN_FINAL_CLTV_EXPIRY`]: lightning::ln::channelmanager::MIN_FINAL_CLTV_EXPIRY
+pub const DEFAULT_MIN_FINAL_CLTV_EXPIRY: u64 = 18;
/// Builder for `Invoice`s. It's the most convenient and advised way to use this library. It ensures
/// that only a semantically and syntactically correct Invoice can be built using it.
///
/// ```
/// extern crate secp256k1;
+/// extern crate lightning;
/// extern crate lightning_invoice;
/// extern crate bitcoin_hashes;
///
/// use secp256k1::Secp256k1;
/// use secp256k1::key::SecretKey;
///
+/// use lightning::ln::PaymentSecret;
+///
/// use lightning_invoice::{Currency, InvoiceBuilder};
///
+/// # #[cfg(not(feature = "std"))]
+/// # fn main() {}
+/// # #[cfg(feature = "std")]
/// # fn main() {
/// let private_key = SecretKey::from_slice(
/// &[
/// ).unwrap();
///
/// let payment_hash = sha256::Hash::from_slice(&[0; 32][..]).unwrap();
+/// let payment_secret = PaymentSecret([42u8; 32]);
///
/// let invoice = InvoiceBuilder::new(Currency::Bitcoin)
/// .description("Coins pls!".into())
/// .payment_hash(payment_hash)
+/// .payment_secret(payment_secret)
/// .current_timestamp()
+/// .min_final_cltv_expiry(144)
/// .build_signed(|hash| {
/// Secp256k1::new().sign_recoverable(hash, &private_key)
/// })
///
/// (C-not exported) as we likely need to manually select one set of boolean type parameters.
#[derive(Eq, PartialEq, Debug, Clone)]
-pub struct InvoiceBuilder<D: tb::Bool, H: tb::Bool, T: tb::Bool> {
+pub struct InvoiceBuilder<D: tb::Bool, H: tb::Bool, T: tb::Bool, C: tb::Bool, S: tb::Bool> {
currency: Currency,
amount: Option<u64>,
si_prefix: Option<SiPrefix>,
tagged_fields: Vec<TaggedField>,
error: Option<CreationError>,
- phantom_d: std::marker::PhantomData<D>,
- phantom_h: std::marker::PhantomData<H>,
- phantom_t: std::marker::PhantomData<T>,
+ phantom_d: core::marker::PhantomData<D>,
+ phantom_h: core::marker::PhantomData<H>,
+ phantom_t: core::marker::PhantomData<T>,
+ phantom_c: core::marker::PhantomData<C>,
+ phantom_s: core::marker::PhantomData<S>,
}
/// Represents a syntactically and semantically correct lightning BOLT11 invoice.
pub tagged_fields: Vec<RawTaggedField>,
}
-/// A timestamp that refers to a date after 1 January 1970 which means its representation as UNIX
-/// timestamp is positive.
+/// A timestamp that refers to a date after 1 January 1970.
///
/// # Invariants
-/// The UNIX timestamp representing the stored time has to be positive and small enough so that
-/// a `EpiryTime` can be added to it without an overflow.
+///
+/// The Unix timestamp representing the stored time has to be positive and no greater than
+/// [`MAX_TIMESTAMP`].
#[derive(Eq, PartialEq, Debug, Clone)]
-pub struct PositiveTimestamp(SystemTime);
+pub struct PositiveTimestamp(Duration);
/// SI prefixes for the human readable part
#[derive(Eq, PartialEq, Debug, Clone, Copy)]
}
/// Enum representing the crypto currencies (or networks) supported by this library
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub enum Currency {
/// Bitcoin mainnet
Bitcoin,
/// Bitcoin regtest
Regtest,
- /// Bitcoin simnet/signet
+ /// Bitcoin simnet
Simnet,
+
+ /// Bitcoin signet
+ Signet,
}
/// Tagged field which may have an unknown tag
-#[derive(Eq, PartialEq, Debug, Clone)]
+///
+/// (C-not exported) as we don't currently support TaggedField
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub enum RawTaggedField {
/// Parsed tagged field with known tag
KnownSemantics(TaggedField),
/// Tagged field with known tag
///
/// For descriptions of the enum values please refer to the enclosed type's docs.
+///
+/// (C-not exported) As we don't yet support enum variants with the same name the struct contained
+/// in the variant.
#[allow(missing_docs)]
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub enum TaggedField {
PaymentHash(Sha256),
Description(Description),
ExpiryTime(ExpiryTime),
MinFinalCltvExpiry(MinFinalCltvExpiry),
Fallback(Fallback),
- Route(RouteHint),
+ PrivateRoute(PrivateRoute),
PaymentSecret(PaymentSecret),
Features(InvoiceFeatures),
}
/// SHA-256 hash
-#[derive(Eq, PartialEq, Debug, Clone)]
-pub struct Sha256(pub sha256::Hash);
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
+pub struct Sha256(/// (C-not exported) as the native hash types are not currently mapped
+ pub sha256::Hash);
/// Description string
///
/// # Invariants
/// The description can be at most 639 __bytes__ long
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub struct Description(String);
/// Payee public key
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub struct PayeePubKey(pub PublicKey);
/// Positive duration that defines when (relatively to the timestamp) in the future the invoice
/// expires
-///
-/// # Invariants
-/// The number of seconds this expiry time represents has to be in the range
-/// `0...(SYSTEM_TIME_MAX_UNIX_TIMESTAMP - MAX_EXPIRY_TIME)` to avoid overflows when adding it to a
-/// timestamp
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub struct ExpiryTime(Duration);
/// `min_final_cltv_expiry` to use for the last HTLC in the route
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub struct MinFinalCltvExpiry(pub u64);
// TODO: better types instead onf byte arrays
/// Fallback address in case no LN payment is possible
#[allow(missing_docs)]
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
pub enum Fallback {
SegWitProgram {
version: u5,
}
/// Recoverable signature
-#[derive(Eq, PartialEq, Debug, Clone)]
+#[derive(Clone, Debug, Eq, PartialEq)]
pub struct InvoiceSignature(pub RecoverableSignature);
/// Private routing information
/// # Invariants
/// The encoded route has to be <1024 5bit characters long (<=639 bytes or <=12 hops)
///
-#[derive(Eq, PartialEq, Debug, Clone)]
-pub struct RouteHint(Vec<RouteHintHop>);
+#[derive(Clone, Debug, Hash, Eq, PartialEq)]
+pub struct PrivateRoute(RouteHint);
/// Tag constants as specified in BOLT11
#[allow(missing_docs)]
pub const TAG_EXPIRY_TIME: u8 = 6;
pub const TAG_MIN_FINAL_CLTV_EXPIRY: u8 = 24;
pub const TAG_FALLBACK: u8 = 9;
- pub const TAG_ROUTE: u8 = 3;
+ pub const TAG_PRIVATE_ROUTE: u8 = 3;
pub const TAG_PAYMENT_SECRET: u8 = 16;
pub const TAG_FEATURES: u8 = 5;
}
-impl InvoiceBuilder<tb::False, tb::False, tb::False> {
+impl InvoiceBuilder<tb::False, tb::False, tb::False, tb::False, tb::False> {
/// Construct new, empty `InvoiceBuilder`. All necessary fields have to be filled first before
/// `InvoiceBuilder::build(self)` becomes available.
pub fn new(currrency: Currency) -> Self {
tagged_fields: Vec::new(),
error: None,
- phantom_d: std::marker::PhantomData,
- phantom_h: std::marker::PhantomData,
- phantom_t: std::marker::PhantomData,
+ phantom_d: core::marker::PhantomData,
+ phantom_h: core::marker::PhantomData,
+ phantom_t: core::marker::PhantomData,
+ phantom_c: core::marker::PhantomData,
+ phantom_s: core::marker::PhantomData,
}
}
}
-impl<D: tb::Bool, H: tb::Bool, T: tb::Bool> InvoiceBuilder<D, H, T> {
+impl<D: tb::Bool, H: tb::Bool, T: tb::Bool, C: tb::Bool, S: tb::Bool> InvoiceBuilder<D, H, T, C, S> {
/// Helper function to set the completeness flags.
- fn set_flags<DN: tb::Bool, HN: tb::Bool, TN: tb::Bool>(self) -> InvoiceBuilder<DN, HN, TN> {
- InvoiceBuilder::<DN, HN, TN> {
+ fn set_flags<DN: tb::Bool, HN: tb::Bool, TN: tb::Bool, CN: tb::Bool, SN: tb::Bool>(self) -> InvoiceBuilder<DN, HN, TN, CN, SN> {
+ InvoiceBuilder::<DN, HN, TN, CN, SN> {
currency: self.currency,
amount: self.amount,
si_prefix: self.si_prefix,
tagged_fields: self.tagged_fields,
error: self.error,
- phantom_d: std::marker::PhantomData,
- phantom_h: std::marker::PhantomData,
- phantom_t: std::marker::PhantomData,
+ phantom_d: core::marker::PhantomData,
+ phantom_h: core::marker::PhantomData,
+ phantom_t: core::marker::PhantomData,
+ phantom_c: core::marker::PhantomData,
+ phantom_s: core::marker::PhantomData,
}
}
- /// Sets the amount in pico BTC. The optimal SI prefix is choosen automatically.
- pub fn amount_pico_btc(mut self, amount: u64) -> Self {
+ /// Sets the amount in millisatoshis. The optimal SI prefix is chosen automatically.
+ pub fn amount_milli_satoshis(mut self, amount_msat: u64) -> Self {
+ let amount = amount_msat * 10; // Invoices are denominated in "pico BTC"
let biggest_possible_si_prefix = SiPrefix::values_desc()
.iter()
.find(|prefix| amount % prefix.multiplier() == 0)
self
}
- /// Sets the payment secret
- pub fn payment_secret(mut self, payment_secret: PaymentSecret) -> Self {
- self.tagged_fields.push(TaggedField::PaymentSecret(payment_secret));
- self
- }
-
/// Sets the expiry time
pub fn expiry_time(mut self, expiry_time: Duration) -> Self {
- match ExpiryTime::from_duration(expiry_time) {
- Ok(t) => self.tagged_fields.push(TaggedField::ExpiryTime(t)),
- Err(e) => self.error = Some(e),
- };
- self
- }
-
- /// Sets `min_final_cltv_expiry`.
- pub fn min_final_cltv_expiry(mut self, min_final_cltv_expiry: u64) -> Self {
- self.tagged_fields.push(TaggedField::MinFinalCltvExpiry(MinFinalCltvExpiry(min_final_cltv_expiry)));
+ self.tagged_fields.push(TaggedField::ExpiryTime(ExpiryTime::from_duration(expiry_time)));
self
}
}
/// Adds a private route.
- pub fn route(mut self, route: Vec<RouteHintHop>) -> Self {
- match RouteHint::new(route) {
- Ok(r) => self.tagged_fields.push(TaggedField::Route(r)),
+ pub fn private_route(mut self, hint: RouteHint) -> Self {
+ match PrivateRoute::new(hint) {
+ Ok(r) => self.tagged_fields.push(TaggedField::PrivateRoute(r)),
Err(e) => self.error = Some(e),
}
self
}
-
- /// Adds a features field which indicates the set of supported protocol extensions which the
- /// origin node supports.
- pub fn features(mut self, features: InvoiceFeatures) -> Self {
- self.tagged_fields.push(TaggedField::Features(features));
- self
- }
}
-impl<D: tb::Bool, H: tb::Bool> InvoiceBuilder<D, H, tb::True> {
+impl<D: tb::Bool, H: tb::Bool, C: tb::Bool, S: tb::Bool> InvoiceBuilder<D, H, tb::True, C, S> {
/// Builds a `RawInvoice` if no `CreationError` occurred while construction any of the fields.
pub fn build_raw(self) -> Result<RawInvoice, CreationError> {
}
}
-impl<H: tb::Bool, T: tb::Bool> InvoiceBuilder<tb::False, H, T> {
+impl<H: tb::Bool, T: tb::Bool, C: tb::Bool, S: tb::Bool> InvoiceBuilder<tb::False, H, T, C, S> {
/// Set the description. This function is only available if no description (hash) was set.
- pub fn description(mut self, description: String) -> InvoiceBuilder<tb::True, H, T> {
+ pub fn description(mut self, description: String) -> InvoiceBuilder<tb::True, H, T, C, S> {
match Description::new(description) {
Ok(d) => self.tagged_fields.push(TaggedField::Description(d)),
Err(e) => self.error = Some(e),
}
/// Set the description hash. This function is only available if no description (hash) was set.
- pub fn description_hash(mut self, description_hash: sha256::Hash) -> InvoiceBuilder<tb::True, H, T> {
+ pub fn description_hash(mut self, description_hash: sha256::Hash) -> InvoiceBuilder<tb::True, H, T, C, S> {
self.tagged_fields.push(TaggedField::DescriptionHash(Sha256(description_hash)));
self.set_flags()
}
}
-impl<D: tb::Bool, T: tb::Bool> InvoiceBuilder<D, tb::False, T> {
+impl<D: tb::Bool, T: tb::Bool, C: tb::Bool, S: tb::Bool> InvoiceBuilder<D, tb::False, T, C, S> {
/// Set the payment hash. This function is only available if no payment hash was set.
- pub fn payment_hash(mut self, hash: sha256::Hash) -> InvoiceBuilder<D, tb::True, T> {
+ pub fn payment_hash(mut self, hash: sha256::Hash) -> InvoiceBuilder<D, tb::True, T, C, S> {
self.tagged_fields.push(TaggedField::PaymentHash(Sha256(hash)));
self.set_flags()
}
}
-impl<D: tb::Bool, H: tb::Bool> InvoiceBuilder<D, H, tb::False> {
- /// Sets the timestamp.
- pub fn timestamp(mut self, time: SystemTime) -> InvoiceBuilder<D, H, tb::True> {
+impl<D: tb::Bool, H: tb::Bool, C: tb::Bool, S: tb::Bool> InvoiceBuilder<D, H, tb::False, C, S> {
+ /// Sets the timestamp to a specific [`SystemTime`].
+ #[cfg(feature = "std")]
+ pub fn timestamp(mut self, time: SystemTime) -> InvoiceBuilder<D, H, tb::True, C, S> {
match PositiveTimestamp::from_system_time(time) {
Ok(t) => self.timestamp = Some(t),
Err(e) => self.error = Some(e),
self.set_flags()
}
- /// Sets the timestamp to the current UNIX timestamp.
- pub fn current_timestamp(mut self) -> InvoiceBuilder<D, H, tb::True> {
+ /// Sets the timestamp to a duration since the Unix epoch.
+ pub fn duration_since_epoch(mut self, time: Duration) -> InvoiceBuilder<D, H, tb::True, C, S> {
+ match PositiveTimestamp::from_duration_since_epoch(time) {
+ Ok(t) => self.timestamp = Some(t),
+ Err(e) => self.error = Some(e),
+ }
+
+ self.set_flags()
+ }
+
+ /// Sets the timestamp to the current system time.
+ #[cfg(feature = "std")]
+ pub fn current_timestamp(mut self) -> InvoiceBuilder<D, H, tb::True, C, S> {
let now = PositiveTimestamp::from_system_time(SystemTime::now());
self.timestamp = Some(now.expect("for the foreseeable future this shouldn't happen"));
self.set_flags()
}
}
-impl InvoiceBuilder<tb::True, tb::True, tb::True> {
+impl<D: tb::Bool, H: tb::Bool, T: tb::Bool, S: tb::Bool> InvoiceBuilder<D, H, T, tb::False, S> {
+ /// Sets `min_final_cltv_expiry`.
+ pub fn min_final_cltv_expiry(mut self, min_final_cltv_expiry: u64) -> InvoiceBuilder<D, H, T, tb::True, S> {
+ self.tagged_fields.push(TaggedField::MinFinalCltvExpiry(MinFinalCltvExpiry(min_final_cltv_expiry)));
+ self.set_flags()
+ }
+}
+
+impl<D: tb::Bool, H: tb::Bool, T: tb::Bool, C: tb::Bool> InvoiceBuilder<D, H, T, C, tb::False> {
+ /// Sets the payment secret and relevant features.
+ pub fn payment_secret(mut self, payment_secret: PaymentSecret) -> InvoiceBuilder<D, H, T, C, tb::True> {
+ let mut features = InvoiceFeatures::empty();
+ features.set_variable_length_onion_required();
+ features.set_payment_secret_required();
+ self.tagged_fields.push(TaggedField::PaymentSecret(payment_secret));
+ self.tagged_fields.push(TaggedField::Features(features));
+ self.set_flags()
+ }
+}
+
+impl<D: tb::Bool, H: tb::Bool, T: tb::Bool, C: tb::Bool> InvoiceBuilder<D, H, T, C, tb::True> {
+ /// Sets the `basic_mpp` feature as optional.
+ pub fn basic_mpp(mut self) -> Self {
+ for field in self.tagged_fields.iter_mut() {
+ if let TaggedField::Features(f) = field {
+ f.set_basic_mpp_optional();
+ }
+ }
+ self
+ }
+}
+
+impl InvoiceBuilder<tb::True, tb::True, tb::True, tb::True, tb::True> {
/// Builds and signs an invoice using the supplied `sign_function`. This function MAY NOT fail
/// and MUST produce a recoverable signature valid for the given hash and if applicable also for
/// the included payee public key.
};
invoice.check_field_counts().expect("should be ensured by type signature of builder");
+ invoice.check_feature_bits().expect("should be ensured by type signature of builder");
+ invoice.check_amount().expect("should be ensured by type signature of builder");
Ok(invoice)
}
/// Finds the first element of an enum stream of a given variant and extracts one member of the
/// variant. If no element was found `None` gets returned.
///
-/// The following example would extract the first
+/// The following example would extract the first B.
/// ```
/// use Enum::*
///
/// assert_eq!(find_extract!(elements.iter(), Enum::B(ref x), x), Some(3u16))
/// ```
macro_rules! find_extract {
- ($iter:expr, $enm:pat, $enm_var:ident) => {
- $iter.filter_map(|tf| match *tf {
+ ($iter:expr, $enm:pat, $enm_var:ident) => {
+ find_all_extract!($iter, $enm, $enm_var).next()
+ };
+}
+
+/// Finds the all elements of an enum stream of a given variant and extracts one member of the
+/// variant through an iterator.
+///
+/// The following example would extract all A.
+/// ```
+/// use Enum::*
+///
+/// enum Enum {
+/// A(u8),
+/// B(u16)
+/// }
+///
+/// let elements = vec![A(1), A(2), B(3), A(4)]
+///
+/// assert_eq!(
+/// find_all_extract!(elements.iter(), Enum::A(ref x), x).collect::<Vec<u8>>(),
+/// vec![1u8, 2u8, 4u8])
+/// ```
+macro_rules! find_all_extract {
+ ($iter:expr, $enm:pat, $enm_var:ident) => {
+ $iter.filter_map(|tf| match *tf {
$enm => Some($enm_var),
_ => None,
- }).next()
- };
+ })
+ };
}
#[allow(missing_docs)]
impl RawInvoice {
/// Hash the HRP as bytes and signatureless data part.
fn hash_from_parts(hrp_bytes: &[u8], data_without_signature: &[u5]) -> [u8; 32] {
- use bech32::FromBase32;
-
- let mut preimage = Vec::<u8>::from(hrp_bytes);
-
- let mut data_part = Vec::from(data_without_signature);
- let overhang = (data_part.len() * 5) % 8;
- if overhang > 0 {
- // add padding if data does not end at a byte boundary
- data_part.push(u5::try_from_u8(0).unwrap());
-
- // if overhang is in (1..3) we need to add u5(0) padding two times
- if overhang < 3 {
- data_part.push(u5::try_from_u8(0).unwrap());
- }
- }
-
- preimage.extend_from_slice(&Vec::<u8>::from_base32(&data_part)
- .expect("No padding error may occur due to appended zero above."));
-
+ let preimage = construct_invoice_preimage(hrp_bytes, data_without_signature);
let mut hash: [u8; 32] = Default::default();
hash.copy_from_slice(&sha256::Hash::hash(&preimage)[..]);
hash
/// (C-not exported) as we don't support Vec<&NonOpaqueType>
pub fn fallbacks(&self) -> Vec<&Fallback> {
- self.known_tagged_fields().filter_map(|tf| match tf {
- &TaggedField::Fallback(ref f) => Some(f),
- _ => None,
- }).collect::<Vec<&Fallback>>()
+ find_all_extract!(self.known_tagged_fields(), TaggedField::Fallback(ref x), x).collect()
}
- pub fn routes(&self) -> Vec<&RouteHint> {
- self.known_tagged_fields().filter_map(|tf| match tf {
- &TaggedField::Route(ref r) => Some(r),
- _ => None,
- }).collect::<Vec<&RouteHint>>()
+ pub fn private_routes(&self) -> Vec<&PrivateRoute> {
+ find_all_extract!(self.known_tagged_fields(), TaggedField::PrivateRoute(ref x), x).collect()
}
pub fn amount_pico_btc(&self) -> Option<u64> {
}
impl PositiveTimestamp {
- /// Create a new `PositiveTimestamp` from a unix timestamp in the Range
- /// `0...SYSTEM_TIME_MAX_UNIX_TIMESTAMP - MAX_EXPIRY_TIME`, otherwise return a
- /// `CreationError::TimestampOutOfBounds`.
+ /// Creates a `PositiveTimestamp` from a Unix timestamp in the range `0..=MAX_TIMESTAMP`.
+ ///
+ /// Otherwise, returns a [`CreationError::TimestampOutOfBounds`].
pub fn from_unix_timestamp(unix_seconds: u64) -> Result<Self, CreationError> {
- if unix_seconds > SYSTEM_TIME_MAX_UNIX_TIMESTAMP - MAX_EXPIRY_TIME {
- Err(CreationError::TimestampOutOfBounds)
- } else {
- Ok(PositiveTimestamp(UNIX_EPOCH + Duration::from_secs(unix_seconds)))
- }
+ Self::from_duration_since_epoch(Duration::from_secs(unix_seconds))
}
- /// Create a new `PositiveTimestamp` from a `SystemTime` with a corresponding unix timestamp in
- /// the Range `0...SYSTEM_TIME_MAX_UNIX_TIMESTAMP - MAX_EXPIRY_TIME`, otherwise return a
- /// `CreationError::TimestampOutOfBounds`.
+ /// Creates a `PositiveTimestamp` from a [`SystemTime`] with a corresponding Unix timestamp in
+ /// the range `0..=MAX_TIMESTAMP`.
+ ///
+ /// Otherwise, returns a [`CreationError::TimestampOutOfBounds`].
+ #[cfg(feature = "std")]
pub fn from_system_time(time: SystemTime) -> Result<Self, CreationError> {
- if time
- .duration_since(UNIX_EPOCH)
- .map(|t| t.as_secs() <= SYSTEM_TIME_MAX_UNIX_TIMESTAMP - MAX_EXPIRY_TIME)
- .unwrap_or(true)
- {
- Ok(PositiveTimestamp(time))
- } else {
+ time.duration_since(SystemTime::UNIX_EPOCH)
+ .map(Self::from_duration_since_epoch)
+ .unwrap_or(Err(CreationError::TimestampOutOfBounds))
+ }
+
+ /// Creates a `PositiveTimestamp` from a [`Duration`] since the Unix epoch in the range
+ /// `0..=MAX_TIMESTAMP`.
+ ///
+ /// Otherwise, returns a [`CreationError::TimestampOutOfBounds`].
+ pub fn from_duration_since_epoch(duration: Duration) -> Result<Self, CreationError> {
+ if duration.as_secs() <= MAX_TIMESTAMP {
+ Ok(PositiveTimestamp(duration))
+ } else {
Err(CreationError::TimestampOutOfBounds)
}
}
- /// Returns the UNIX timestamp representing the stored time
+ /// Returns the Unix timestamp representing the stored time
pub fn as_unix_timestamp(&self) -> u64 {
- self.0.duration_since(UNIX_EPOCH)
- .expect("ensured by type contract/constructors")
- .as_secs()
+ self.0.as_secs()
}
- /// Returns a reference to the internal `SystemTime` time representation
- pub fn as_time(&self) -> &SystemTime {
- &self.0
+ /// Returns the duration of the stored time since the Unix epoch
+ pub fn as_duration_since_epoch(&self) -> Duration {
+ self.0
}
-}
-impl Into<SystemTime> for PositiveTimestamp {
- fn into(self) -> SystemTime {
- self.0
+ /// Returns the [`SystemTime`] representing the stored time
+ #[cfg(feature = "std")]
+ pub fn as_time(&self) -> SystemTime {
+ SystemTime::UNIX_EPOCH + self.0
}
}
-impl Deref for PositiveTimestamp {
- type Target = SystemTime;
-
- fn deref(&self) -> &Self::Target {
- &self.0
+#[cfg(feature = "std")]
+impl Into<SystemTime> for PositiveTimestamp {
+ fn into(self) -> SystemTime {
+ SystemTime::UNIX_EPOCH + self.0
}
}
return Err(SemanticError::MultipleDescriptions);
}
+ self.check_payment_secret()?;
+
Ok(())
}
+ /// Checks that there is exactly one payment secret field
+ fn check_payment_secret(&self) -> Result<(), SemanticError> {
+ // "A writer MUST include exactly one `s` field."
+ let payment_secret_count = self.tagged_fields().filter(|&tf| match *tf {
+ TaggedField::PaymentSecret(_) => true,
+ _ => false,
+ }).count();
+ if payment_secret_count < 1 {
+ return Err(SemanticError::NoPaymentSecret);
+ } else if payment_secret_count > 1 {
+ return Err(SemanticError::MultiplePaymentSecrets);
+ }
+
+ Ok(())
+ }
+
+ /// Check that amount is a whole number of millisatoshis
+ fn check_amount(&self) -> Result<(), SemanticError> {
+ if let Some(amount_pico_btc) = self.amount_pico_btc() {
+ if amount_pico_btc % 10 != 0 {
+ return Err(SemanticError::ImpreciseAmount);
+ }
+ }
+ Ok(())
+ }
+
+ /// Check that feature bits are set as required
+ fn check_feature_bits(&self) -> Result<(), SemanticError> {
+ self.check_payment_secret()?;
+
+ // "A writer MUST set an s field if and only if the payment_secret feature is set."
+ // (this requirement has been since removed, and we now require the payment secret
+ // feature bit always).
+ let features = self.tagged_fields().find(|&tf| match *tf {
+ TaggedField::Features(_) => true,
+ _ => false,
+ });
+ match features {
+ None => Err(SemanticError::InvalidFeatures),
+ Some(TaggedField::Features(features)) => {
+ if features.requires_unknown_bits() {
+ Err(SemanticError::InvalidFeatures)
+ } else if !features.supports_payment_secret() {
+ Err(SemanticError::InvalidFeatures)
+ } else {
+ Ok(())
+ }
+ },
+ Some(_) => unreachable!(),
+ }
+ }
+
/// Check that the invoice is signed correctly and that key recovery works
pub fn check_signature(&self) -> Result<(), SemanticError> {
match self.signed_invoice.recover_payee_pub_key() {
Err(secp256k1::Error::InvalidRecoveryId) =>
return Err(SemanticError::InvalidRecoveryId),
- Err(_) => panic!("no other error may occur"),
+ Err(secp256k1::Error::InvalidSignature) =>
+ return Err(SemanticError::InvalidSignature),
+ Err(e) => panic!("no other error may occur, got {:?}", e),
Ok(_) => {},
}
Ok(())
}
- /// Constructs an `Invoice` from a `SignedInvoice` by checking all its invariants.
+ /// Constructs an `Invoice` from a `SignedRawInvoice` by checking all its invariants.
/// ```
/// use lightning_invoice::*;
///
- /// let invoice = "lnbc1pvjluezpp5qqqsyqcyq5rqwzqfqqqsyqcyq5rqwzqfqqqsyqcyq5rqwzqfqypqdp\
- /// l2pkx2ctnv5sxxmmwwd5kgetjypeh2ursdae8g6twvus8g6rfwvs8qun0dfjkxaq8rkx3yf5tcsyz3d7\
- /// 3gafnh3cax9rn449d9p5uxz9ezhhypd0elx87sjle52x86fux2ypatgddc6k63n7erqz25le42c4u4ec\
- /// ky03ylcqca784w";
+ /// let invoice = "lnbc100p1psj9jhxdqud3jxktt5w46x7unfv9kz6mn0v3jsnp4q0d3p2sfluzdx45tqcs\
+ /// h2pu5qc7lgq0xs578ngs6s0s68ua4h7cvspp5q6rmq35js88zp5dvwrv9m459tnk2zunwj5jalqtyxqulh0l\
+ /// 5gflssp5nf55ny5gcrfl30xuhzj3nphgj27rstekmr9fw3ny5989s300gyus9qyysgqcqpcrzjqw2sxwe993\
+ /// h5pcm4dxzpvttgza8zhkqxpgffcrf5v25nwpr3cmfg7z54kuqq8rgqqqqqqqq2qqqqq9qq9qrzjqd0ylaqcl\
+ /// j9424x9m8h2vcukcgnm6s56xfgu3j78zyqzhgs4hlpzvznlugqq9vsqqqqqqqlgqqqqqeqq9qrzjqwldmj9d\
+ /// ha74df76zhx6l9we0vjdquygcdt3kssupehe64g6yyp5yz5rhuqqwccqqyqqqqlgqqqqjcqq9qrzjqf9e58a\
+ /// guqr0rcun0ajlvmzq3ek63cw2w282gv3z5uupmuwvgjtq2z55qsqqg6qqqyqqqrtnqqqzq3cqygrzjqvphms\
+ /// ywntrrhqjcraumvc4y6r8v4z5v593trte429v4hredj7ms5z52usqq9ngqqqqqqqlgqqqqqqgq9qrzjq2v0v\
+ /// p62g49p7569ev48cmulecsxe59lvaw3wlxm7r982zxa9zzj7z5l0cqqxusqqyqqqqlgqqqqqzsqygarl9fh3\
+ /// 8s0gyuxjjgux34w75dnc6xp2l35j7es3jd4ugt3lu0xzre26yg5m7ke54n2d5sym4xcmxtl8238xxvw5h5h5\
+ /// j5r6drg6k6zcqj0fcwg";
///
/// let signed = invoice.parse::<SignedRawInvoice>().unwrap();
///
signed_invoice: signed_invoice,
};
invoice.check_field_counts()?;
+ invoice.check_feature_bits()?;
invoice.check_signature()?;
+ invoice.check_amount()?;
Ok(invoice)
}
- /// Returns the `Invoice`'s timestamp (should equal it's creation time)
- pub fn timestamp(&self) -> &SystemTime {
+ /// Returns the `Invoice`'s timestamp (should equal its creation time)
+ #[cfg(feature = "std")]
+ pub fn timestamp(&self) -> SystemTime {
self.signed_invoice.raw_invoice().data.timestamp.as_time()
}
+ /// Returns the `Invoice`'s timestamp as a duration since the Unix epoch
+ pub fn duration_since_epoch(&self) -> Duration {
+ self.signed_invoice.raw_invoice().data.timestamp.0
+ }
+
/// Returns an iterator over all tagged fields of this Invoice.
///
/// (C-not exported) As there is not yet a manual mapping for a FilterMap
}
/// Get the payment secret if one was included in the invoice
- pub fn payment_secret(&self) -> Option<&PaymentSecret> {
- self.signed_invoice.payment_secret()
+ pub fn payment_secret(&self) -> &PaymentSecret {
+ self.signed_invoice.payment_secret().expect("was checked by constructor")
}
/// Get the invoice features if they were included in the invoice
self.signed_invoice.recover_payee_pub_key().expect("was checked by constructor").0
}
- /// Returns the invoice's expiry time if present
+ /// Returns the invoice's expiry time, if present, otherwise [`DEFAULT_EXPIRY_TIME`].
pub fn expiry_time(&self) -> Duration {
self.signed_invoice.expiry_time()
.map(|x| x.0)
- .unwrap_or(Duration::from_secs(3600))
+ .unwrap_or(Duration::from_secs(DEFAULT_EXPIRY_TIME))
+ }
+
+ /// Returns whether the invoice has expired.
+ #[cfg(feature = "std")]
+ pub fn is_expired(&self) -> bool {
+ Self::is_expired_from_epoch(&self.timestamp(), self.expiry_time())
+ }
+
+ /// Returns whether the expiry time from the given epoch has passed.
+ #[cfg(feature = "std")]
+ pub(crate) fn is_expired_from_epoch(epoch: &SystemTime, expiry_time: Duration) -> bool {
+ match epoch.elapsed() {
+ Ok(elapsed) => elapsed > expiry_time,
+ Err(_) => false,
+ }
}
- /// Returns the invoice's `min_cltv_expiry` time if present
- pub fn min_final_cltv_expiry(&self) -> Option<u64> {
- self.signed_invoice.min_final_cltv_expiry().map(|x| x.0)
+ /// Returns whether the expiry time would pass at the given point in time.
+ /// `at_time` is the timestamp as a duration since the Unix epoch.
+ pub fn would_expire(&self, at_time: Duration) -> bool {
+ self.duration_since_epoch()
+ .checked_add(self.expiry_time())
+ .unwrap_or_else(|| Duration::new(u64::max_value(), 1_000_000_000 - 1)) < at_time
+ }
+
+ /// Returns the invoice's `min_final_cltv_expiry` time, if present, otherwise
+ /// [`DEFAULT_MIN_FINAL_CLTV_EXPIRY`].
+ pub fn min_final_cltv_expiry(&self) -> u64 {
+ self.signed_invoice.min_final_cltv_expiry()
+ .map(|x| x.0)
+ .unwrap_or(DEFAULT_MIN_FINAL_CLTV_EXPIRY)
}
/// Returns a list of all fallback addresses
}
/// Returns a list of all routes included in the invoice
- pub fn routes(&self) -> Vec<&RouteHint> {
- self.signed_invoice.routes()
+ pub fn private_routes(&self) -> Vec<&PrivateRoute> {
+ self.signed_invoice.private_routes()
+ }
+
+ /// Returns a list of all routes included in the invoice as the underlying hints
+ pub fn route_hints(&self) -> Vec<RouteHint> {
+ find_all_extract!(
+ self.signed_invoice.known_tagged_fields(), TaggedField::PrivateRoute(ref x), x
+ ).map(|route| (**route).clone()).collect()
}
/// Returns the currency for which the invoice was issued
self.signed_invoice.currency()
}
+ /// Returns the amount if specified in the invoice as millisatoshis.
+ pub fn amount_milli_satoshis(&self) -> Option<u64> {
+ self.signed_invoice.amount_pico_btc().map(|v| v / 10)
+ }
+
/// Returns the amount if specified in the invoice as pico <currency>.
- pub fn amount_pico_btc(&self) -> Option<u64> {
+ fn amount_pico_btc(&self) -> Option<u64> {
self.signed_invoice.amount_pico_btc()
}
}
TaggedField::ExpiryTime(_) => constants::TAG_EXPIRY_TIME,
TaggedField::MinFinalCltvExpiry(_) => constants::TAG_MIN_FINAL_CLTV_EXPIRY,
TaggedField::Fallback(_) => constants::TAG_FALLBACK,
- TaggedField::Route(_) => constants::TAG_ROUTE,
+ TaggedField::PrivateRoute(_) => constants::TAG_PRIVATE_ROUTE,
TaggedField::PaymentSecret(_) => constants::TAG_PAYMENT_SECRET,
TaggedField::Features(_) => constants::TAG_FEATURES,
};
}
impl ExpiryTime {
- /// Construct an `ExpiryTime` from seconds. If there exists a `PositiveTimestamp` which would
- /// overflow on adding the `EpiryTime` to it then this function will return a
- /// `CreationError::ExpiryTimeOutOfBounds`.
- pub fn from_seconds(seconds: u64) -> Result<ExpiryTime, CreationError> {
- if seconds <= MAX_EXPIRY_TIME {
- Ok(ExpiryTime(Duration::from_secs(seconds)))
- } else {
- Err(CreationError::ExpiryTimeOutOfBounds)
- }
+ /// Construct an `ExpiryTime` from seconds.
+ pub fn from_seconds(seconds: u64) -> ExpiryTime {
+ ExpiryTime(Duration::from_secs(seconds))
}
- /// Construct an `ExpiryTime` from a `Duration`. If there exists a `PositiveTimestamp` which
- /// would overflow on adding the `EpiryTime` to it then this function will return a
- /// `CreationError::ExpiryTimeOutOfBounds`.
- pub fn from_duration(duration: Duration) -> Result<ExpiryTime, CreationError> {
- if duration.as_secs() <= MAX_EXPIRY_TIME {
- Ok(ExpiryTime(duration))
- } else {
- Err(CreationError::ExpiryTimeOutOfBounds)
- }
+ /// Construct an `ExpiryTime` from a `Duration`.
+ pub fn from_duration(duration: Duration) -> ExpiryTime {
+ ExpiryTime(duration)
}
/// Returns the expiry time in seconds
}
}
-impl RouteHint {
- /// Create a new (partial) route from a list of hops
- pub fn new(hops: Vec<RouteHintHop>) -> Result<RouteHint, CreationError> {
- if hops.len() <= 12 {
- Ok(RouteHint(hops))
+impl PrivateRoute {
+ /// Creates a new (partial) route from a list of hops
+ pub fn new(hops: RouteHint) -> Result<PrivateRoute, CreationError> {
+ if hops.0.len() <= 12 {
+ Ok(PrivateRoute(hops))
} else {
Err(CreationError::RouteTooLong)
}
}
- /// Returrn the underlying vector of hops
- pub fn into_inner(self) -> Vec<RouteHintHop> {
+ /// Returns the underlying list of hops
+ pub fn into_inner(self) -> RouteHint {
self.0
}
}
-impl Into<Vec<RouteHintHop>> for RouteHint {
- fn into(self) -> Vec<RouteHintHop> {
+impl Into<RouteHint> for PrivateRoute {
+ fn into(self) -> RouteHint {
self.into_inner()
}
}
-impl Deref for RouteHint {
- type Target = Vec<RouteHintHop>;
+impl Deref for PrivateRoute {
+ type Target = RouteHint;
- fn deref(&self) -> &Vec<RouteHintHop> {
+ fn deref(&self) -> &RouteHint {
&self.0
}
}
/// The specified route has too many hops and can't be encoded
RouteTooLong,
- /// The unix timestamp of the supplied date is <0 or can't be represented as `SystemTime`
+ /// The Unix timestamp of the supplied date is less than zero or greater than 35-bits
TimestampOutOfBounds,
- /// The supplied expiry time could cause an overflow if added to a `PositiveTimestamp`
- ExpiryTimeOutOfBounds,
+ /// The supplied millisatoshi amount was greater than the total bitcoin supply.
+ InvalidAmount,
+
+ /// Route hints were required for this invoice and were missing. Applies to
+ /// [phantom invoices].
+ ///
+ /// [phantom invoices]: crate::utils::create_phantom_invoice
+ MissingRouteHints,
}
impl Display for CreationError {
match self {
CreationError::DescriptionTooLong => f.write_str("The supplied description string was longer than 639 bytes"),
CreationError::RouteTooLong => f.write_str("The specified route has too many hops and can't be encoded"),
- CreationError::TimestampOutOfBounds => f.write_str("The unix timestamp of the supplied date is <0 or can't be represented as `SystemTime`"),
- CreationError::ExpiryTimeOutOfBounds => f.write_str("The supplied expiry time could cause an overflow if added to a `PositiveTimestamp`"),
+ CreationError::TimestampOutOfBounds => f.write_str("The Unix timestamp of the supplied date is less than zero or greater than 35-bits"),
+ CreationError::InvalidAmount => f.write_str("The supplied millisatoshi amount was greater than the total bitcoin supply"),
+ CreationError::MissingRouteHints => f.write_str("The invoice required route hints and they weren't provided"),
}
}
}
+#[cfg(feature = "std")]
impl std::error::Error for CreationError { }
/// Errors that may occur when converting a `RawInvoice` to an `Invoice`. They relate to the
/// The invoice contains multiple descriptions and/or description hashes which isn't allowed
MultipleDescriptions,
+ /// The invoice is missing the mandatory payment secret, which all modern lightning nodes
+ /// should provide.
+ NoPaymentSecret,
+
+ /// The invoice contains multiple payment secrets
+ MultiplePaymentSecrets,
+
+ /// The invoice's features are invalid
+ InvalidFeatures,
+
/// The recovery id doesn't fit the signature/pub key
InvalidRecoveryId,
/// The invoice's signature is invalid
InvalidSignature,
+
+ /// The invoice's amount was not a whole number of millisatoshis
+ ImpreciseAmount,
}
impl Display for SemanticError {
SemanticError::MultiplePaymentHashes => f.write_str("The invoice has multiple payment hashes which isn't allowed"),
SemanticError::NoDescription => f.write_str("No description or description hash are part of the invoice"),
SemanticError::MultipleDescriptions => f.write_str("The invoice contains multiple descriptions and/or description hashes which isn't allowed"),
+ SemanticError::NoPaymentSecret => f.write_str("The invoice is missing the mandatory payment secret"),
+ SemanticError::MultiplePaymentSecrets => f.write_str("The invoice contains multiple payment secrets"),
+ SemanticError::InvalidFeatures => f.write_str("The invoice's features are invalid"),
SemanticError::InvalidRecoveryId => f.write_str("The recovery id doesn't fit the signature/pub key"),
SemanticError::InvalidSignature => f.write_str("The invoice's signature is invalid"),
+ SemanticError::ImpreciseAmount => f.write_str("The invoice's amount was not a whole number of millisatoshis"),
}
}
}
+#[cfg(feature = "std")]
impl std::error::Error for SemanticError { }
/// When signing using a fallible method either an user-supplied `SignError` or a `CreationError`
/// may occur.
-///
-/// (C-not exported) As we don't support unbounded generics
#[derive(Eq, PartialEq, Debug, Clone)]
-pub enum SignOrCreationError<S> {
+pub enum SignOrCreationError<S = ()> {
/// An error occurred during signing
SignError(S),
#[test]
fn test_system_time_bounds_assumptions() {
- ::check_platform();
-
- assert_eq!(
- ::PositiveTimestamp::from_unix_timestamp(::SYSTEM_TIME_MAX_UNIX_TIMESTAMP + 1),
- Err(::CreationError::TimestampOutOfBounds)
- );
-
- assert_eq!(
- ::ExpiryTime::from_seconds(::MAX_EXPIRY_TIME + 1),
- Err(::CreationError::ExpiryTimeOutOfBounds)
- );
+ assert_eq!(
+ ::PositiveTimestamp::from_unix_timestamp(::MAX_TIMESTAMP + 1),
+ Err(::CreationError::TimestampOutOfBounds)
+ );
}
#[test]
assert!(new_signed.check_signature());
}
+ #[test]
+ fn test_check_feature_bits() {
+ use TaggedField::*;
+ use lightning::ln::features::InvoiceFeatures;
+ use secp256k1::Secp256k1;
+ use secp256k1::key::SecretKey;
+ use {RawInvoice, RawHrp, RawDataPart, Currency, Sha256, PositiveTimestamp, Invoice,
+ SemanticError};
+
+ let private_key = SecretKey::from_slice(&[42; 32]).unwrap();
+ let payment_secret = lightning::ln::PaymentSecret([21; 32]);
+ let invoice_template = RawInvoice {
+ hrp: RawHrp {
+ currency: Currency::Bitcoin,
+ raw_amount: None,
+ si_prefix: None,
+ },
+ data: RawDataPart {
+ timestamp: PositiveTimestamp::from_unix_timestamp(1496314658).unwrap(),
+ tagged_fields: vec ! [
+ PaymentHash(Sha256(sha256::Hash::from_hex(
+ "0001020304050607080900010203040506070809000102030405060708090102"
+ ).unwrap())).into(),
+ Description(
+ ::Description::new(
+ "Please consider supporting this project".to_owned()
+ ).unwrap()
+ ).into(),
+ ],
+ },
+ };
+
+ // Missing features
+ let invoice = {
+ let mut invoice = invoice_template.clone();
+ invoice.data.tagged_fields.push(PaymentSecret(payment_secret).into());
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert_eq!(Invoice::from_signed(invoice), Err(SemanticError::InvalidFeatures));
+
+ // Missing feature bits
+ let invoice = {
+ let mut invoice = invoice_template.clone();
+ invoice.data.tagged_fields.push(PaymentSecret(payment_secret).into());
+ invoice.data.tagged_fields.push(Features(InvoiceFeatures::empty()).into());
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert_eq!(Invoice::from_signed(invoice), Err(SemanticError::InvalidFeatures));
+
+ // Including payment secret and feature bits
+ let invoice = {
+ let mut invoice = invoice_template.clone();
+ invoice.data.tagged_fields.push(PaymentSecret(payment_secret).into());
+ invoice.data.tagged_fields.push(Features(InvoiceFeatures::known()).into());
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert!(Invoice::from_signed(invoice).is_ok());
+
+ // No payment secret or features
+ let invoice = {
+ let invoice = invoice_template.clone();
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert_eq!(Invoice::from_signed(invoice), Err(SemanticError::NoPaymentSecret));
+
+ // No payment secret or feature bits
+ let invoice = {
+ let mut invoice = invoice_template.clone();
+ invoice.data.tagged_fields.push(Features(InvoiceFeatures::empty()).into());
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert_eq!(Invoice::from_signed(invoice), Err(SemanticError::NoPaymentSecret));
+
+ // Missing payment secret
+ let invoice = {
+ let mut invoice = invoice_template.clone();
+ invoice.data.tagged_fields.push(Features(InvoiceFeatures::known()).into());
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert_eq!(Invoice::from_signed(invoice), Err(SemanticError::NoPaymentSecret));
+
+ // Multiple payment secrets
+ let invoice = {
+ let mut invoice = invoice_template.clone();
+ invoice.data.tagged_fields.push(PaymentSecret(payment_secret).into());
+ invoice.data.tagged_fields.push(PaymentSecret(payment_secret).into());
+ invoice.sign::<_, ()>(|hash| Ok(Secp256k1::new().sign_recoverable(hash, &private_key)))
+ }.unwrap();
+ assert_eq!(Invoice::from_signed(invoice), Err(SemanticError::MultiplePaymentSecrets));
+ }
+
#[test]
fn test_builder_amount() {
use ::*;
let builder = InvoiceBuilder::new(Currency::Bitcoin)
.description("Test".into())
.payment_hash(sha256::Hash::from_slice(&[0;32][..]).unwrap())
- .current_timestamp();
+ .duration_since_epoch(Duration::from_secs(1234567));
let invoice = builder.clone()
- .amount_pico_btc(15000)
+ .amount_milli_satoshis(1500)
.build_raw()
.unwrap();
let invoice = builder.clone()
- .amount_pico_btc(1500)
+ .amount_milli_satoshis(150)
.build_raw()
.unwrap();
#[test]
fn test_builder_fail() {
use ::*;
+ use lightning::routing::router::RouteHintHop;
use std::iter::FromIterator;
use secp256k1::key::PublicKey;
let builder = InvoiceBuilder::new(Currency::Bitcoin)
.payment_hash(sha256::Hash::from_slice(&[0;32][..]).unwrap())
- .current_timestamp();
+ .duration_since_epoch(Duration::from_secs(1234567))
+ .min_final_cltv_expiry(144);
let too_long_string = String::from_iter(
(0..1024).map(|_| '?')
htlc_minimum_msat: None,
htlc_maximum_msat: None,
};
- let too_long_route = vec![route_hop; 13];
+ let too_long_route = RouteHint(vec![route_hop; 13]);
let long_route_res = builder.clone()
.description("Test".into())
- .route(too_long_route)
+ .private_route(too_long_route)
.build_raw();
assert_eq!(long_route_res, Err(CreationError::RouteTooLong));
let sign_error_res = builder.clone()
.description("Test".into())
+ .payment_secret(PaymentSecret([0; 32]))
.try_build_signed(|_| {
Err("ImaginaryError")
});
#[test]
fn test_builder_ok() {
use ::*;
+ use lightning::routing::router::RouteHintHop;
use secp256k1::Secp256k1;
use secp256k1::key::{SecretKey, PublicKey};
use std::time::{UNIX_EPOCH, Duration};
).unwrap();
let public_key = PublicKey::from_secret_key(&secp_ctx, &private_key);
- let route_1 = vec![
+ let route_1 = RouteHint(vec![
RouteHintHop {
src_node_id: public_key.clone(),
short_channel_id: de::parse_int_be(&[123; 8], 256).expect("short chan ID slice too big?"),
htlc_minimum_msat: None,
htlc_maximum_msat: None,
}
- ];
+ ]);
- let route_2 = vec![
+ let route_2 = RouteHint(vec![
RouteHintHop {
src_node_id: public_key.clone(),
short_channel_id: 0,
htlc_minimum_msat: None,
htlc_maximum_msat: None,
}
- ];
+ ]);
let builder = InvoiceBuilder::new(Currency::BitcoinTestnet)
- .amount_pico_btc(123)
- .timestamp(UNIX_EPOCH + Duration::from_secs(1234567))
+ .amount_milli_satoshis(123)
+ .duration_since_epoch(Duration::from_secs(1234567))
.payee_pub_key(public_key.clone())
.expiry_time(Duration::from_secs(54321))
.min_final_cltv_expiry(144)
- .min_final_cltv_expiry(143)
.fallback(Fallback::PubKeyHash([0;20]))
- .route(route_1.clone())
- .route(route_2.clone())
+ .private_route(route_1.clone())
+ .private_route(route_2.clone())
.description_hash(sha256::Hash::from_slice(&[3;32][..]).unwrap())
- .payment_hash(sha256::Hash::from_slice(&[21;32][..]).unwrap());
+ .payment_hash(sha256::Hash::from_slice(&[21;32][..]).unwrap())
+ .payment_secret(PaymentSecret([42; 32]))
+ .basic_mpp();
let invoice = builder.clone().build_signed(|hash| {
secp_ctx.sign_recoverable(hash, &private_key)
}).unwrap();
assert!(invoice.check_signature().is_ok());
- assert_eq!(invoice.tagged_fields().count(), 9);
+ assert_eq!(invoice.tagged_fields().count(), 10);
- assert_eq!(invoice.amount_pico_btc(), Some(123));
+ assert_eq!(invoice.amount_milli_satoshis(), Some(123));
+ assert_eq!(invoice.amount_pico_btc(), Some(1230));
assert_eq!(invoice.currency(), Currency::BitcoinTestnet);
+ #[cfg(feature = "std")]
assert_eq!(
invoice.timestamp().duration_since(UNIX_EPOCH).unwrap().as_secs(),
1234567
);
assert_eq!(invoice.payee_pub_key(), Some(&public_key));
assert_eq!(invoice.expiry_time(), Duration::from_secs(54321));
- assert_eq!(invoice.min_final_cltv_expiry(), Some(144));
+ assert_eq!(invoice.min_final_cltv_expiry(), 144);
assert_eq!(invoice.fallbacks(), vec![&Fallback::PubKeyHash([0;20])]);
- assert_eq!(invoice.routes(), vec![&RouteHint(route_1), &RouteHint(route_2)]);
+ assert_eq!(invoice.private_routes(), vec![&PrivateRoute(route_1), &PrivateRoute(route_2)]);
assert_eq!(
invoice.description(),
InvoiceDescription::Hash(&Sha256(sha256::Hash::from_slice(&[3;32][..]).unwrap()))
);
assert_eq!(invoice.payment_hash(), &sha256::Hash::from_slice(&[21;32][..]).unwrap());
+ assert_eq!(invoice.payment_secret(), &PaymentSecret([42; 32]));
+ assert_eq!(invoice.features(), Some(&InvoiceFeatures::known()));
let raw_invoice = builder.build_raw().unwrap();
assert_eq!(raw_invoice, *invoice.into_signed_raw().raw_invoice())
}
+
+ #[test]
+ fn test_default_values() {
+ use ::*;
+ use secp256k1::Secp256k1;
+ use secp256k1::key::SecretKey;
+
+ let signed_invoice = InvoiceBuilder::new(Currency::Bitcoin)
+ .description("Test".into())
+ .payment_hash(sha256::Hash::from_slice(&[0;32][..]).unwrap())
+ .payment_secret(PaymentSecret([0; 32]))
+ .duration_since_epoch(Duration::from_secs(1234567))
+ .build_raw()
+ .unwrap()
+ .sign::<_, ()>(|hash| {
+ let privkey = SecretKey::from_slice(&[41; 32]).unwrap();
+ let secp_ctx = Secp256k1::new();
+ Ok(secp_ctx.sign_recoverable(hash, &privkey))
+ })
+ .unwrap();
+ let invoice = Invoice::from_signed(signed_invoice).unwrap();
+
+ assert_eq!(invoice.min_final_cltv_expiry(), DEFAULT_MIN_FINAL_CLTV_EXPIRY);
+ assert_eq!(invoice.expiry_time(), Duration::from_secs(DEFAULT_EXPIRY_TIME));
+ assert!(!invoice.would_expire(Duration::from_secs(1234568)));
+ }
+
+ #[test]
+ fn test_expiration() {
+ use ::*;
+ use secp256k1::Secp256k1;
+ use secp256k1::key::SecretKey;
+
+ let signed_invoice = InvoiceBuilder::new(Currency::Bitcoin)
+ .description("Test".into())
+ .payment_hash(sha256::Hash::from_slice(&[0;32][..]).unwrap())
+ .payment_secret(PaymentSecret([0; 32]))
+ .duration_since_epoch(Duration::from_secs(1234567))
+ .build_raw()
+ .unwrap()
+ .sign::<_, ()>(|hash| {
+ let privkey = SecretKey::from_slice(&[41; 32]).unwrap();
+ let secp_ctx = Secp256k1::new();
+ Ok(secp_ctx.sign_recoverable(hash, &privkey))
+ })
+ .unwrap();
+ let invoice = Invoice::from_signed(signed_invoice).unwrap();
+
+ assert!(invoice.would_expire(Duration::from_secs(1234567 + DEFAULT_EXPIRY_TIME + 1)));
+ }
}