// This file is Copyright its original authors, visible in version control
// history.
//
// This file is licensed under the Apache License, Version 2.0 <LICENSE-APACHE
// or http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your option.
// You may not use this file except in accordance with one or both of these
// licenses.
//! Data structures and encoding for `offer` messages.
//!
//! An [`Offer`] represents an "offer to be paid." It is typically constructed by a merchant and
//! published as a QR code to be scanned by a customer. The customer uses the offer to request an
//! invoice from the merchant to be paid.
//!
//! # Example
//!
//! ```
//! extern crate bitcoin;
//! extern crate core;
//! extern crate lightning;
//!
//! use core::convert::TryFrom;
//! use core::num::NonZeroU64;
//! use core::time::Duration;
//!
//! use bitcoin::secp256k1::{KeyPair, PublicKey, Secp256k1, SecretKey};
//! use lightning::offers::offer::{Offer, OfferBuilder, Quantity};
//! use lightning::offers::parse::Bolt12ParseError;
//! use lightning::util::ser::{Readable, Writeable};
//!
//! # use lightning::blinded_path::BlindedPath;
//! # #[cfg(feature = "std")]
//! # use std::time::SystemTime;
//! #
//! # fn create_blinded_path() -> BlindedPath { unimplemented!() }
//! # fn create_another_blinded_path() -> BlindedPath { unimplemented!() }
//! #
//! # #[cfg(feature = "std")]
//! # fn build() -> Result<(), Bolt12ParseError> {
//! let secp_ctx = Secp256k1::new();
//! let keys = KeyPair::from_secret_key(&secp_ctx, &SecretKey::from_slice(&[42; 32]).unwrap());
//! let pubkey = PublicKey::from(keys);
//!
//! let expiration = SystemTime::now() + Duration::from_secs(24 * 60 * 60);
//! let offer = OfferBuilder::new("coffee, large".to_string(), pubkey)
//! .amount_msats(20_000)
//! .supported_quantity(Quantity::Unbounded)
//! .absolute_expiry(expiration.duration_since(SystemTime::UNIX_EPOCH).unwrap())
//! .issuer("Foo Bar".to_string())
//! .path(create_blinded_path())
//! .path(create_another_blinded_path())
//! .build()?;
//!
//! // Encode as a bech32 string for use in a QR code.
//! let encoded_offer = offer.to_string();
//!
//! // Parse from a bech32 string after scanning from a QR code.
//! let offer = encoded_offer.parse::<Offer>()?;
//!
//! // Encode offer as raw bytes.
//! let mut bytes = Vec::new();
//! offer.write(&mut bytes).unwrap();
//!
//! // Decode raw bytes into an offer.
//! let offer = Offer::try_from(bytes)?;
//! # Ok(())
//! # }
//! ```
//!
//! # Note
//!
//! If constructing an [`Offer`] for use with a [`ChannelManager`], use
//! [`ChannelManager::create_offer_builder`] instead of [`OfferBuilder::new`].
//!
//! [`ChannelManager`]: crate::ln::channelmanager::ChannelManager
//! [`ChannelManager::create_offer_builder`]: crate::ln::channelmanager::ChannelManager::create_offer_builder
use bitcoin::blockdata::constants::ChainHash;
use bitcoin::network::constants::Network;
use bitcoin::secp256k1::{KeyPair, PublicKey, Secp256k1, self};
use core::convert::TryFrom;
use core::num::NonZeroU64;
use core::ops::Deref;
use core::str::FromStr;
use core::time::Duration;
use crate::sign::EntropySource;
use crate::io;
use crate::blinded_path::BlindedPath;
use crate::ln::channelmanager::PaymentId;
use crate::ln::features::OfferFeatures;
use crate::ln::inbound_payment::{ExpandedKey, IV_LEN, Nonce};
use crate::ln::msgs::MAX_VALUE_MSAT;
use crate::offers::invoice_request::{DerivedPayerId, ExplicitPayerId, InvoiceRequestBuilder};
use crate::offers::merkle::TlvStream;
use crate::offers::parse::{Bech32Encode, Bolt12ParseError, Bolt12SemanticError, ParsedMessage};
use crate::offers::signer::{Metadata, MetadataMaterial, self};
use crate::util::ser::{HighZeroBytesDroppedBigSize, WithoutLength, Writeable, Writer};
use crate::util::string::PrintableString;
use crate::prelude::*;
#[cfg(feature = "std")]
use std::time::SystemTime;
pub(super) const IV_BYTES: &[u8; IV_LEN] = b"LDK Offer ~~~~~~";
/// Builds an [`Offer`] for the "offer to be paid" flow.
///
/// See [module-level documentation] for usage.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
///
/// [module-level documentation]: self
pub struct OfferBuilder<'a, M: MetadataStrategy, T: secp256k1::Signing> {
offer: OfferContents,
metadata_strategy: core::marker::PhantomData<M>,
secp_ctx: Option<&'a Secp256k1<T>>,
}
/// Indicates how [`Offer::metadata`] may be set.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
pub trait MetadataStrategy {}
/// [`Offer::metadata`] may be explicitly set or left empty.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
pub struct ExplicitMetadata {}
/// [`Offer::metadata`] will be derived.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
pub struct DerivedMetadata {}
impl MetadataStrategy for ExplicitMetadata {}
impl MetadataStrategy for DerivedMetadata {}
impl<'a> OfferBuilder<'a, ExplicitMetadata, secp256k1::SignOnly> {
/// Creates a new builder for an offer setting the [`Offer::description`] and using the
/// [`Offer::signing_pubkey`] for signing invoices. The associated secret key must be remembered
/// while the offer is valid.
///
/// Use a different pubkey per offer to avoid correlating offers.
///
/// # Note
///
/// If constructing an [`Offer`] for use with a [`ChannelManager`], use
/// [`ChannelManager::create_offer_builder`] instead of [`OfferBuilder::new`].
///
/// [`ChannelManager`]: crate::ln::channelmanager::ChannelManager
/// [`ChannelManager::create_offer_builder`]: crate::ln::channelmanager::ChannelManager::create_offer_builder
pub fn new(description: String, signing_pubkey: PublicKey) -> Self {
OfferBuilder {
offer: OfferContents {
chains: None, metadata: None, amount: None, description,
features: OfferFeatures::empty(), absolute_expiry: None, issuer: None, paths: None,
supported_quantity: Quantity::One, signing_pubkey,
},
metadata_strategy: core::marker::PhantomData,
secp_ctx: None,
}
}
/// Sets the [`Offer::metadata`] to the given bytes.
///
/// Successive calls to this method will override the previous setting.
pub fn metadata(mut self, metadata: Vec<u8>) -> Result<Self, Bolt12SemanticError> {
self.offer.metadata = Some(Metadata::Bytes(metadata));
Ok(self)
}
}
impl<'a, T: secp256k1::Signing> OfferBuilder<'a, DerivedMetadata, T> {
/// Similar to [`OfferBuilder::new`] except, if [`OfferBuilder::path`] is called, the signing
/// pubkey is derived from the given [`ExpandedKey`] and [`EntropySource`]. This provides
/// recipient privacy by using a different signing pubkey for each offer. Otherwise, the
/// provided `node_id` is used for the signing pubkey.
///
/// Also, sets the metadata when [`OfferBuilder::build`] is called such that it can be used by
/// [`InvoiceRequest::verify`] to determine if the request was produced for the offer given an
/// [`ExpandedKey`].
///
/// [`InvoiceRequest::verify`]: crate::offers::invoice_request::InvoiceRequest::verify
/// [`ExpandedKey`]: crate::ln::inbound_payment::ExpandedKey
pub fn deriving_signing_pubkey<ES: Deref>(
description: String, node_id: PublicKey, expanded_key: &ExpandedKey, entropy_source: ES,
secp_ctx: &'a Secp256k1<T>
) -> Self where ES::Target: EntropySource {
let nonce = Nonce::from_entropy_source(entropy_source);
let derivation_material = MetadataMaterial::new(nonce, expanded_key, IV_BYTES, None);
let metadata = Metadata::DerivedSigningPubkey(derivation_material);
OfferBuilder {
offer: OfferContents {
chains: None, metadata: Some(metadata), amount: None, description,
features: OfferFeatures::empty(), absolute_expiry: None, issuer: None, paths: None,
supported_quantity: Quantity::One, signing_pubkey: node_id,
},
metadata_strategy: core::marker::PhantomData,
secp_ctx: Some(secp_ctx),
}
}
}
impl<'a, M: MetadataStrategy, T: secp256k1::Signing> OfferBuilder<'a, M, T> {
/// Adds the chain hash of the given [`Network`] to [`Offer::chains`]. If not called,
/// the chain hash of [`Network::Bitcoin`] is assumed to be the only one supported.
///
/// See [`Offer::chains`] on how this relates to the payment currency.
///
/// Successive calls to this method will add another chain hash.
pub fn chain(self, network: Network) -> Self {
self.chain_hash(ChainHash::using_genesis_block(network))
}
/// Adds the [`ChainHash`] to [`Offer::chains`]. If not called, the chain hash of
/// [`Network::Bitcoin`] is assumed to be the only one supported.
///
/// See [`Offer::chains`] on how this relates to the payment currency.
///
/// Successive calls to this method will add another chain hash.
pub(crate) fn chain_hash(mut self, chain: ChainHash) -> Self {
let chains = self.offer.chains.get_or_insert_with(Vec::new);
if !chains.contains(&chain) {
chains.push(chain);
}
self
}
/// Sets the [`Offer::amount`] as an [`Amount::Bitcoin`].
///
/// Successive calls to this method will override the previous setting.
pub fn amount_msats(self, amount_msats: u64) -> Self {
self.amount(Amount::Bitcoin { amount_msats })
}
/// Sets the [`Offer::amount`].
///
/// Successive calls to this method will override the previous setting.
pub(super) fn amount(mut self, amount: Amount) -> Self {
self.offer.amount = Some(amount);
self
}
/// Sets the [`Offer::absolute_expiry`] as seconds since the Unix epoch. Any expiry that has
/// already passed is valid and can be checked for using [`Offer::is_expired`].
///
/// Successive calls to this method will override the previous setting.
pub fn absolute_expiry(mut self, absolute_expiry: Duration) -> Self {
self.offer.absolute_expiry = Some(absolute_expiry);
self
}
/// Sets the [`Offer::issuer`].
///
/// Successive calls to this method will override the previous setting.
pub fn issuer(mut self, issuer: String) -> Self {
self.offer.issuer = Some(issuer);
self
}
/// Adds a blinded path to [`Offer::paths`]. Must include at least one path if only connected by
/// private channels or if [`Offer::signing_pubkey`] is not a public node id.
///
/// Successive calls to this method will add another blinded path. Caller is responsible for not
/// adding duplicate paths.
pub fn path(mut self, path: BlindedPath) -> Self {
self.offer.paths.get_or_insert_with(Vec::new).push(path);
self
}
/// Sets the quantity of items for [`Offer::supported_quantity`]. If not called, defaults to
/// [`Quantity::One`].
///
/// Successive calls to this method will override the previous setting.
pub fn supported_quantity(mut self, quantity: Quantity) -> Self {
self.offer.supported_quantity = quantity;
self
}
/// Builds an [`Offer`] from the builder's settings.
pub fn build(mut self) -> Result<Offer, Bolt12SemanticError> {
match self.offer.amount {
Some(Amount::Bitcoin { amount_msats }) => {
if amount_msats > MAX_VALUE_MSAT {
return Err(Bolt12SemanticError::InvalidAmount);
}
},
Some(Amount::Currency { .. }) => return Err(Bolt12SemanticError::UnsupportedCurrency),
None => {},
}
if let Some(chains) = &self.offer.chains {
if chains.len() == 1 && chains[0] == self.offer.implied_chain() {
self.offer.chains = None;
}
}
Ok(self.build_without_checks())
}
fn build_without_checks(mut self) -> Offer {
// Create the metadata for stateless verification of an InvoiceRequest.
if let Some(mut metadata) = self.offer.metadata.take() {
if metadata.has_derivation_material() {
if self.offer.paths.is_none() {
metadata = metadata.without_keys();
}
let mut tlv_stream = self.offer.as_tlv_stream();
debug_assert_eq!(tlv_stream.metadata, None);
tlv_stream.metadata = None;
if metadata.derives_recipient_keys() {
tlv_stream.node_id = None;
}
let (derived_metadata, keys) = metadata.derive_from(tlv_stream, self.secp_ctx);
metadata = derived_metadata;
if let Some(keys) = keys {
self.offer.signing_pubkey = keys.public_key();
}
}
self.offer.metadata = Some(metadata);
}
let mut bytes = Vec::new();
self.offer.write(&mut bytes).unwrap();
Offer { bytes, contents: self.offer }
}
}
#[cfg(test)]
impl<'a, M: MetadataStrategy, T: secp256k1::Signing> OfferBuilder<'a, M, T> {
fn features_unchecked(mut self, features: OfferFeatures) -> Self {
self.offer.features = features;
self
}
pub(super) fn build_unchecked(self) -> Offer {
self.build_without_checks()
}
}
/// An `Offer` is a potentially long-lived proposal for payment of a good or service.
///
/// An offer is a precursor to an [`InvoiceRequest`]. A merchant publishes an offer from which a
/// customer may request an [`Bolt12Invoice`] for a specific quantity and using an amount sufficient
/// to cover that quantity (i.e., at least `quantity * amount`). See [`Offer::amount`].
///
/// Offers may be denominated in currency other than bitcoin but are ultimately paid using the
/// latter.
///
/// Through the use of [`BlindedPath`]s, offers provide recipient privacy.
///
/// [`InvoiceRequest`]: crate::offers::invoice_request::InvoiceRequest
/// [`Bolt12Invoice`]: crate::offers::invoice::Bolt12Invoice
#[derive(Clone, Debug)]
#[cfg_attr(test, derive(PartialEq))]
pub struct Offer {
// The serialized offer. Needed when creating an `InvoiceRequest` if the offer contains unknown
// fields.
pub(super) bytes: Vec<u8>,
pub(super) contents: OfferContents,
}
/// The contents of an [`Offer`], which may be shared with an [`InvoiceRequest`] or a
/// [`Bolt12Invoice`].
///
/// [`InvoiceRequest`]: crate::offers::invoice_request::InvoiceRequest
/// [`Bolt12Invoice`]: crate::offers::invoice::Bolt12Invoice
#[derive(Clone, Debug)]
#[cfg_attr(test, derive(PartialEq))]
pub(super) struct OfferContents {
chains: Option<Vec<ChainHash>>,
metadata: Option<Metadata>,
amount: Option<Amount>,
description: String,
features: OfferFeatures,
absolute_expiry: Option<Duration>,
issuer: Option<String>,
paths: Option<Vec<BlindedPath>>,
supported_quantity: Quantity,
signing_pubkey: PublicKey,
}
macro_rules! offer_accessors { ($self: ident, $contents: expr) => {
// TODO: Return a slice once ChainHash has constants.
// - https://github.com/rust-bitcoin/rust-bitcoin/pull/1283
// - https://github.com/rust-bitcoin/rust-bitcoin/pull/1286
/// The chains that may be used when paying a requested invoice (e.g., bitcoin mainnet).
/// Payments must be denominated in units of the minimal lightning-payable unit (e.g., msats)
/// for the selected chain.
pub fn chains(&$self) -> Vec<bitcoin::blockdata::constants::ChainHash> {
$contents.chains()
}
// TODO: Link to corresponding method in `InvoiceRequest`.
/// Opaque bytes set by the originator. Useful for authentication and validating fields since it
/// is reflected in `invoice_request` messages along with all the other fields from the `offer`.
pub fn metadata(&$self) -> Option<&Vec<u8>> {
$contents.metadata()
}
/// The minimum amount required for a successful payment of a single item.
pub fn amount(&$self) -> Option<&$crate::offers::offer::Amount> {
$contents.amount()
}
/// A complete description of the purpose of the payment. Intended to be displayed to the user
/// but with the caveat that it has not been verified in any way.
pub fn description(&$self) -> $crate::util::string::PrintableString {
$contents.description()
}
/// Features pertaining to the offer.
pub fn offer_features(&$self) -> &$crate::ln::features::OfferFeatures {
&$contents.features()
}
/// Duration since the Unix epoch when an invoice should no longer be requested.
///
/// If `None`, the offer does not expire.
pub fn absolute_expiry(&$self) -> Option<core::time::Duration> {
$contents.absolute_expiry()
}
/// The issuer of the offer, possibly beginning with `user@domain` or `domain`. Intended to be
/// displayed to the user but with the caveat that it has not been verified in any way.
pub fn issuer(&$self) -> Option<$crate::util::string::PrintableString> {
$contents.issuer()
}
/// Paths to the recipient originating from publicly reachable nodes. Blinded paths provide
/// recipient privacy by obfuscating its node id.
pub fn paths(&$self) -> &[$crate::blinded_path::BlindedPath] {
$contents.paths()
}
/// The quantity of items supported.
pub fn supported_quantity(&$self) -> $crate::offers::offer::Quantity {
$contents.supported_quantity()
}
/// The public key used by the recipient to sign invoices.
pub fn signing_pubkey(&$self) -> bitcoin::secp256k1::PublicKey {
$contents.signing_pubkey()
}
} }
impl Offer {
offer_accessors!(self, self.contents);
pub(super) fn implied_chain(&self) -> ChainHash {
self.contents.implied_chain()
}
/// Returns whether the given chain is supported by the offer.
pub fn supports_chain(&self, chain: ChainHash) -> bool {
self.contents.supports_chain(chain)
}
/// Whether the offer has expired.
#[cfg(feature = "std")]
pub fn is_expired(&self) -> bool {
self.contents.is_expired()
}
/// Whether the offer has expired given the duration since the Unix epoch.
pub fn is_expired_no_std(&self, duration_since_epoch: Duration) -> bool {
self.contents.is_expired_no_std(duration_since_epoch)
}
/// Returns whether the given quantity is valid for the offer.
pub fn is_valid_quantity(&self, quantity: u64) -> bool {
self.contents.is_valid_quantity(quantity)
}
/// Returns whether a quantity is expected in an [`InvoiceRequest`] for the offer.
///
/// [`InvoiceRequest`]: crate::offers::invoice_request::InvoiceRequest
pub fn expects_quantity(&self) -> bool {
self.contents.expects_quantity()
}
/// Similar to [`Offer::request_invoice`] except it:
/// - derives the [`InvoiceRequest::payer_id`] such that a different key can be used for each
/// request,
/// - sets [`InvoiceRequest::payer_metadata`] when [`InvoiceRequestBuilder::build`] is called
/// such that it can be used by [`Bolt12Invoice::verify`] to determine if the invoice was
/// requested using a base [`ExpandedKey`] from which the payer id was derived, and
/// - includes the [`PaymentId`] encrypted in [`InvoiceRequest::payer_metadata`] so that it can
/// be used when sending the payment for the requested invoice.
///
/// Useful to protect the sender's privacy.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
///
/// [`InvoiceRequest::payer_id`]: crate::offers::invoice_request::InvoiceRequest::payer_id
/// [`InvoiceRequest::payer_metadata`]: crate::offers::invoice_request::InvoiceRequest::payer_metadata
/// [`Bolt12Invoice::verify`]: crate::offers::invoice::Bolt12Invoice::verify
/// [`ExpandedKey`]: crate::ln::inbound_payment::ExpandedKey
pub fn request_invoice_deriving_payer_id<'a, 'b, ES: Deref, T: secp256k1::Signing>(
&'a self, expanded_key: &ExpandedKey, entropy_source: ES, secp_ctx: &'b Secp256k1<T>,
payment_id: PaymentId
) -> Result<InvoiceRequestBuilder<'a, 'b, DerivedPayerId, T>, Bolt12SemanticError>
where
ES::Target: EntropySource,
{
if self.offer_features().requires_unknown_bits() {
return Err(Bolt12SemanticError::UnknownRequiredFeatures);
}
Ok(InvoiceRequestBuilder::deriving_payer_id(
self, expanded_key, entropy_source, secp_ctx, payment_id
))
}
/// Similar to [`Offer::request_invoice_deriving_payer_id`] except uses `payer_id` for the
/// [`InvoiceRequest::payer_id`] instead of deriving a different key for each request.
///
/// Useful for recurring payments using the same `payer_id` with different invoices.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
///
/// [`InvoiceRequest::payer_id`]: crate::offers::invoice_request::InvoiceRequest::payer_id
pub fn request_invoice_deriving_metadata<ES: Deref>(
&self, payer_id: PublicKey, expanded_key: &ExpandedKey, entropy_source: ES,
payment_id: PaymentId
) -> Result<InvoiceRequestBuilder<ExplicitPayerId, secp256k1::SignOnly>, Bolt12SemanticError>
where
ES::Target: EntropySource,
{
if self.offer_features().requires_unknown_bits() {
return Err(Bolt12SemanticError::UnknownRequiredFeatures);
}
Ok(InvoiceRequestBuilder::deriving_metadata(
self, payer_id, expanded_key, entropy_source, payment_id
))
}
/// Creates an [`InvoiceRequestBuilder`] for the offer with the given `metadata` and `payer_id`,
/// which will be reflected in the `Bolt12Invoice` response.
///
/// The `metadata` is useful for including information about the derivation of `payer_id` such
/// that invoice response handling can be stateless. Also serves as payer-provided entropy while
/// hashing in the signature calculation.
///
/// This should not leak any information such as by using a simple BIP-32 derivation path.
/// Otherwise, payments may be correlated.
///
/// Errors if the offer contains unknown required features.
///
/// This is not exported to bindings users as builder patterns don't map outside of move semantics.
///
/// [`InvoiceRequest`]: crate::offers::invoice_request::InvoiceRequest
pub fn request_invoice(
&self, metadata: Vec<u8>, payer_id: PublicKey
) -> Result<InvoiceRequestBuilder<ExplicitPayerId, secp256k1::SignOnly>, Bolt12SemanticError> {
if self.offer_features().requires_unknown_bits() {
return Err(Bolt12SemanticError::UnknownRequiredFeatures);
}
Ok(InvoiceRequestBuilder::new(self, metadata, payer_id))
}
#[cfg(test)]
pub(super) fn as_tlv_stream(&self) -> OfferTlvStreamRef {
self.contents.as_tlv_stream()
}
}
impl AsRef<[u8]> for Offer {
fn as_ref(&self) -> &[u8] {
&self.bytes
}
}
impl OfferContents {
pub fn chains(&self) -> Vec<ChainHash> {
self.chains.as_ref().cloned().unwrap_or_else(|| vec![self.implied_chain()])
}
pub fn implied_chain(&self) -> ChainHash {
ChainHash::using_genesis_block(Network::Bitcoin)
}
pub fn supports_chain(&self, chain: ChainHash) -> bool {
self.chains().contains(&chain)
}
pub fn metadata(&self) -> Option<&Vec<u8>> {
self.metadata.as_ref().and_then(|metadata| metadata.as_bytes())
}
pub fn amount(&self) -> Option<&Amount> {
self.amount.as_ref()
}
pub fn description(&self) -> PrintableString {
PrintableString(&self.description)
}
pub fn features(&self) -> &OfferFeatures {
&self.features
}
pub fn absolute_expiry(&self) -> Option<Duration> {
self.absolute_expiry
}
#[cfg(feature = "std")]
pub(super) fn is_expired(&self) -> bool {
SystemTime::UNIX_EPOCH
.elapsed()
.map(|duration_since_epoch| self.is_expired_no_std(duration_since_epoch))
.unwrap_or(false)
}
pub(super) fn is_expired_no_std(&self, duration_since_epoch: Duration) -> bool {
self.absolute_expiry
.map(|absolute_expiry| duration_since_epoch > absolute_expiry)
.unwrap_or(false)
}
pub fn issuer(&self) -> Option<PrintableString> {
self.issuer.as_ref().map(|issuer| PrintableString(issuer.as_str()))
}
pub fn paths(&self) -> &[BlindedPath] {
self.paths.as_ref().map(|paths| paths.as_slice()).unwrap_or(&[])
}
pub(super) fn check_amount_msats_for_quantity(
&self, amount_msats: Option<u64>, quantity: Option<u64>
) -> Result<(), Bolt12SemanticError> {
let offer_amount_msats = match self.amount {
None => 0,
Some(Amount::Bitcoin { amount_msats }) => amount_msats,
Some(Amount::Currency { .. }) => return Err(Bolt12SemanticError::UnsupportedCurrency),
};
if !self.expects_quantity() || quantity.is_some() {
let expected_amount_msats = offer_amount_msats.checked_mul(quantity.unwrap_or(1))
.ok_or(Bolt12SemanticError::InvalidAmount)?;
let amount_msats = amount_msats.unwrap_or(expected_amount_msats);
if amount_msats < expected_amount_msats {
return Err(Bolt12SemanticError::InsufficientAmount);
}
if amount_msats > MAX_VALUE_MSAT {
return Err(Bolt12SemanticError::InvalidAmount);
}
}
Ok(())
}
pub fn supported_quantity(&self) -> Quantity {
self.supported_quantity
}
pub(super) fn check_quantity(&self, quantity: Option<u64>) -> Result<(), Bolt12SemanticError> {
let expects_quantity = self.expects_quantity();
match quantity {
None if expects_quantity => Err(Bolt12SemanticError::MissingQuantity),
Some(_) if !expects_quantity => Err(Bolt12SemanticError::UnexpectedQuantity),
Some(quantity) if !self.is_valid_quantity(quantity) => {
Err(Bolt12SemanticError::InvalidQuantity)
},
_ => Ok(()),
}
}
fn is_valid_quantity(&self, quantity: u64) -> bool {
match self.supported_quantity {
Quantity::Bounded(n) => quantity <= n.get(),
Quantity::Unbounded => quantity > 0,
Quantity::One => quantity == 1,
}
}
fn expects_quantity(&self) -> bool {
match self.supported_quantity {
Quantity::Bounded(_) => true,
Quantity::Unbounded => true,
Quantity::One => false,
}
}
pub(super) fn signing_pubkey(&self) -> PublicKey {
self.signing_pubkey
}
/// Verifies that the offer metadata was produced from the offer in the TLV stream.
pub(super) fn verify<T: secp256k1::Signing>(
&self, bytes: &[u8], key: &ExpandedKey, secp_ctx: &Secp256k1<T>
) -> Result<Option<KeyPair>, ()> {
match self.metadata() {
Some(metadata) => {
let tlv_stream = TlvStream::new(bytes).range(OFFER_TYPES).filter(|record| {
match record.r#type {
OFFER_METADATA_TYPE => false,
OFFER_NODE_ID_TYPE => {
!self.metadata.as_ref().unwrap().derives_recipient_keys()
},
_ => true,
}
});
signer::verify_recipient_metadata(
metadata, key, IV_BYTES, self.signing_pubkey(), tlv_stream, secp_ctx
)
},
None => Err(()),
}
}
pub(super) fn as_tlv_stream(&self) -> OfferTlvStreamRef {
let (currency, amount) = match &self.amount {
None => (None, None),
Some(Amount::Bitcoin { amount_msats }) => (None, Some(*amount_msats)),
Some(Amount::Currency { iso4217_code, amount }) => (
Some(iso4217_code), Some(*amount)
),
};
let features = {
if self.features == OfferFeatures::empty() { None } else { Some(&self.features) }
};
OfferTlvStreamRef {
chains: self.chains.as_ref(),
metadata: self.metadata(),
currency,
amount,
description: Some(&self.description),
features,
absolute_expiry: self.absolute_expiry.map(|duration| duration.as_secs()),
paths: self.paths.as_ref(),
issuer: self.issuer.as_ref(),
quantity_max: self.supported_quantity.to_tlv_record(),
node_id: Some(&self.signing_pubkey),
}
}
}
impl Writeable for Offer {
fn write<W: Writer>(&self, writer: &mut W) -> Result<(), io::Error> {
WithoutLength(&self.bytes).write(writer)
}
}
impl Writeable for OfferContents {
fn write<W: Writer>(&self, writer: &mut W) -> Result<(), io::Error> {
self.as_tlv_stream().write(writer)
}
}
/// The minimum amount required for an item in an [`Offer`], denominated in either bitcoin or
/// another currency.
#[derive(Clone, Debug, PartialEq)]
pub enum Amount {
/// An amount of bitcoin.
Bitcoin {
/// The amount in millisatoshi.
amount_msats: u64,
},
/// An amount of currency specified using ISO 4712.
Currency {
/// The currency that the amount is denominated in.
iso4217_code: CurrencyCode,
/// The amount in the currency unit adjusted by the ISO 4712 exponent (e.g., USD cents).
amount: u64,
},
}
/// An ISO 4712 three-letter currency code (e.g., USD).
pub type CurrencyCode = [u8; 3];
/// Quantity of items supported by an [`Offer`].
#[derive(Clone, Copy, Debug, PartialEq)]
pub enum Quantity {
/// Up to a specific number of items (inclusive). Use when more than one item can be requested
/// but is limited (e.g., because of per customer or inventory limits).
///
/// May be used with `NonZeroU64::new(1)` but prefer to use [`Quantity::One`] if only one item
/// is supported.
Bounded(NonZeroU64),
/// One or more items. Use when more than one item can be requested without any limit.
Unbounded,
/// Only one item. Use when only a single item can be requested.
One,
}
impl Quantity {
fn to_tlv_record(&self) -> Option<u64> {
match self {
Quantity::Bounded(n) => Some(n.get()),
Quantity::Unbounded => Some(0),
Quantity::One => None,
}
}
}
/// Valid type range for offer TLV records.
pub(super) const OFFER_TYPES: core::ops::Range<u64> = 1..80;
/// TLV record type for [`Offer::metadata`].
const OFFER_METADATA_TYPE: u64 = 4;
/// TLV record type for [`Offer::signing_pubkey`].
const OFFER_NODE_ID_TYPE: u64 = 22;
tlv_stream!(OfferTlvStream, OfferTlvStreamRef, OFFER_TYPES, {
(2, chains: (Vec<ChainHash>, WithoutLength)),
(OFFER_METADATA_TYPE, metadata: (Vec<u8>, WithoutLength)),
(6, currency: CurrencyCode),
(8, amount: (u64, HighZeroBytesDroppedBigSize)),
(10, description: (String, WithoutLength)),
(12, features: (OfferFeatures, WithoutLength)),
(14, absolute_expiry: (u64, HighZeroBytesDroppedBigSize)),
(16, paths: (Vec<BlindedPath>, WithoutLength)),
(18, issuer: (String, WithoutLength)),
(20, quantity_max: (u64, HighZeroBytesDroppedBigSize)),
(OFFER_NODE_ID_TYPE, node_id: PublicKey),
});
impl Bech32Encode for Offer {
const BECH32_HRP: &'static str = "lno";
}
impl FromStr for Offer {
type Err = Bolt12ParseError;
fn from_str(s: &str) -> Result<Self, <Self as FromStr>::Err> {
Self::from_bech32_str(s)
}
}
impl TryFrom<Vec<u8>> for Offer {
type Error = Bolt12ParseError;
fn try_from(bytes: Vec<u8>) -> Result<Self, Self::Error> {
let offer = ParsedMessage::<OfferTlvStream>::try_from(bytes)?;
let ParsedMessage { bytes, tlv_stream } = offer;
let contents = OfferContents::try_from(tlv_stream)?;
Ok(Offer { bytes, contents })
}
}
impl TryFrom<OfferTlvStream> for OfferContents {
type Error = Bolt12SemanticError;
fn try_from(tlv_stream: OfferTlvStream) -> Result<Self, Self::Error> {
let OfferTlvStream {
chains, metadata, currency, amount, description, features, absolute_expiry, paths,
issuer, quantity_max, node_id,
} = tlv_stream;
let metadata = metadata.map(|metadata| Metadata::Bytes(metadata));
let amount = match (currency, amount) {
(None, None) => None,
(None, Some(amount_msats)) if amount_msats > MAX_VALUE_MSAT => {
return Err(Bolt12SemanticError::InvalidAmount);
},
(None, Some(amount_msats)) => Some(Amount::Bitcoin { amount_msats }),
(Some(_), None) => return Err(Bolt12SemanticError::MissingAmount),
(Some(iso4217_code), Some(amount)) => Some(Amount::Currency { iso4217_code, amount }),
};
let description = match description {
None => return Err(Bolt12SemanticError::MissingDescription),
Some(description) => description,
};
let features = features.unwrap_or_else(OfferFeatures::empty);
let absolute_expiry = absolute_expiry
.map(|seconds_from_epoch| Duration::from_secs(seconds_from_epoch));
let supported_quantity = match quantity_max {
None => Quantity::One,
Some(0) => Quantity::Unbounded,
Some(n) => Quantity::Bounded(NonZeroU64::new(n).unwrap()),
};
let signing_pubkey = match node_id {
None => return Err(Bolt12SemanticError::MissingSigningPubkey),
Some(node_id) => node_id,
};
Ok(OfferContents {
chains, metadata, amount, description, features, absolute_expiry, issuer, paths,
supported_quantity, signing_pubkey,
})
}
}
impl core::fmt::Display for Offer {
fn fmt(&self, f: &mut core::fmt::Formatter) -> Result<(), core::fmt::Error> {
self.fmt_bech32_str(f)
}
}
#[cfg(test)]
mod tests {
use super::{Amount, Offer, OfferBuilder, OfferTlvStreamRef, Quantity};
use bitcoin::blockdata::constants::ChainHash;
use bitcoin::network::constants::Network;
use bitcoin::secp256k1::Secp256k1;
use core::convert::TryFrom;
use core::num::NonZeroU64;
use core::time::Duration;
use crate::blinded_path::{BlindedHop, BlindedPath};
use crate::sign::KeyMaterial;
use crate::ln::features::OfferFeatures;
use crate::ln::inbound_payment::ExpandedKey;
use crate::ln::msgs::{DecodeError, MAX_VALUE_MSAT};
use crate::offers::parse::{Bolt12ParseError, Bolt12SemanticError};
use crate::offers::test_utils::*;
use crate::util::ser::{BigSize, Writeable};
use crate::util::string::PrintableString;
#[test]
fn builds_offer_with_defaults() {
let offer = OfferBuilder::new("foo".into(), pubkey(42)).build().unwrap();
let mut buffer = Vec::new();
offer.write(&mut buffer).unwrap();
assert_eq!(offer.bytes, buffer.as_slice());
assert_eq!(offer.chains(), vec![ChainHash::using_genesis_block(Network::Bitcoin)]);
assert!(offer.supports_chain(ChainHash::using_genesis_block(Network::Bitcoin)));
assert_eq!(offer.metadata(), None);
assert_eq!(offer.amount(), None);
assert_eq!(offer.description(), PrintableString("foo"));
assert_eq!(offer.offer_features(), &OfferFeatures::empty());
assert_eq!(offer.absolute_expiry(), None);
#[cfg(feature = "std")]
assert!(!offer.is_expired());
assert_eq!(offer.paths(), &[]);
assert_eq!(offer.issuer(), None);
assert_eq!(offer.supported_quantity(), Quantity::One);
assert_eq!(offer.signing_pubkey(), pubkey(42));
assert_eq!(
offer.as_tlv_stream(),
OfferTlvStreamRef {
chains: None,
metadata: None,
currency: None,
amount: None,
description: Some(&String::from("foo")),
features: None,
absolute_expiry: None,
paths: None,
issuer: None,
quantity_max: None,
node_id: Some(&pubkey(42)),
},
);
if let Err(e) = Offer::try_from(buffer) {
panic!("error parsing offer: {:?}", e);
}
}
#[test]
fn builds_offer_with_chains() {
let mainnet = ChainHash::using_genesis_block(Network::Bitcoin);
let testnet = ChainHash::using_genesis_block(Network::Testnet);
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.chain(Network::Bitcoin)
.build()
.unwrap();
assert!(offer.supports_chain(mainnet));
assert_eq!(offer.chains(), vec![mainnet]);
assert_eq!(offer.as_tlv_stream().chains, None);
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.chain(Network::Testnet)
.build()
.unwrap();
assert!(offer.supports_chain(testnet));
assert_eq!(offer.chains(), vec![testnet]);
assert_eq!(offer.as_tlv_stream().chains, Some(&vec![testnet]));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.chain(Network::Testnet)
.chain(Network::Testnet)
.build()
.unwrap();
assert!(offer.supports_chain(testnet));
assert_eq!(offer.chains(), vec![testnet]);
assert_eq!(offer.as_tlv_stream().chains, Some(&vec![testnet]));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.chain(Network::Bitcoin)
.chain(Network::Testnet)
.build()
.unwrap();
assert!(offer.supports_chain(mainnet));
assert!(offer.supports_chain(testnet));
assert_eq!(offer.chains(), vec![mainnet, testnet]);
assert_eq!(offer.as_tlv_stream().chains, Some(&vec![mainnet, testnet]));
}
#[test]
fn builds_offer_with_metadata() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.metadata(vec![42; 32]).unwrap()
.build()
.unwrap();
assert_eq!(offer.metadata(), Some(&vec![42; 32]));
assert_eq!(offer.as_tlv_stream().metadata, Some(&vec![42; 32]));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.metadata(vec![42; 32]).unwrap()
.metadata(vec![43; 32]).unwrap()
.build()
.unwrap();
assert_eq!(offer.metadata(), Some(&vec![43; 32]));
assert_eq!(offer.as_tlv_stream().metadata, Some(&vec![43; 32]));
}
#[test]
fn builds_offer_with_metadata_derived() {
let desc = "foo".to_string();
let node_id = recipient_pubkey();
let expanded_key = ExpandedKey::new(&KeyMaterial([42; 32]));
let entropy = FixedEntropy {};
let secp_ctx = Secp256k1::new();
let offer = OfferBuilder
::deriving_signing_pubkey(desc, node_id, &expanded_key, &entropy, &secp_ctx)
.amount_msats(1000)
.build().unwrap();
assert_eq!(offer.signing_pubkey(), node_id);
let invoice_request = offer.request_invoice(vec![1; 32], payer_pubkey()).unwrap()
.build().unwrap()
.sign(payer_sign).unwrap();
assert!(invoice_request.verify(&expanded_key, &secp_ctx).is_ok());
// Fails verification with altered offer field
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.amount = Some(100);
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
let invoice_request = Offer::try_from(encoded_offer).unwrap()
.request_invoice(vec![1; 32], payer_pubkey()).unwrap()
.build().unwrap()
.sign(payer_sign).unwrap();
assert!(invoice_request.verify(&expanded_key, &secp_ctx).is_err());
// Fails verification with altered metadata
let mut tlv_stream = offer.as_tlv_stream();
let metadata = tlv_stream.metadata.unwrap().iter().copied().rev().collect();
tlv_stream.metadata = Some(&metadata);
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
let invoice_request = Offer::try_from(encoded_offer).unwrap()
.request_invoice(vec![1; 32], payer_pubkey()).unwrap()
.build().unwrap()
.sign(payer_sign).unwrap();
assert!(invoice_request.verify(&expanded_key, &secp_ctx).is_err());
}
#[test]
fn builds_offer_with_derived_signing_pubkey() {
let desc = "foo".to_string();
let node_id = recipient_pubkey();
let expanded_key = ExpandedKey::new(&KeyMaterial([42; 32]));
let entropy = FixedEntropy {};
let secp_ctx = Secp256k1::new();
let blinded_path = BlindedPath {
introduction_node_id: pubkey(40),
blinding_point: pubkey(41),
blinded_hops: vec![
BlindedHop { blinded_node_id: pubkey(42), encrypted_payload: vec![0; 43] },
BlindedHop { blinded_node_id: node_id, encrypted_payload: vec![0; 44] },
],
};
let offer = OfferBuilder
::deriving_signing_pubkey(desc, node_id, &expanded_key, &entropy, &secp_ctx)
.amount_msats(1000)
.path(blinded_path)
.build().unwrap();
assert_ne!(offer.signing_pubkey(), node_id);
let invoice_request = offer.request_invoice(vec![1; 32], payer_pubkey()).unwrap()
.build().unwrap()
.sign(payer_sign).unwrap();
assert!(invoice_request.verify(&expanded_key, &secp_ctx).is_ok());
// Fails verification with altered offer field
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.amount = Some(100);
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
let invoice_request = Offer::try_from(encoded_offer).unwrap()
.request_invoice(vec![1; 32], payer_pubkey()).unwrap()
.build().unwrap()
.sign(payer_sign).unwrap();
assert!(invoice_request.verify(&expanded_key, &secp_ctx).is_err());
// Fails verification with altered signing pubkey
let mut tlv_stream = offer.as_tlv_stream();
let signing_pubkey = pubkey(1);
tlv_stream.node_id = Some(&signing_pubkey);
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
let invoice_request = Offer::try_from(encoded_offer).unwrap()
.request_invoice(vec![1; 32], payer_pubkey()).unwrap()
.build().unwrap()
.sign(payer_sign).unwrap();
assert!(invoice_request.verify(&expanded_key, &secp_ctx).is_err());
}
#[test]
fn builds_offer_with_amount() {
let bitcoin_amount = Amount::Bitcoin { amount_msats: 1000 };
let currency_amount = Amount::Currency { iso4217_code: *b"USD", amount: 10 };
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.amount_msats(1000)
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.amount(), Some(&bitcoin_amount));
assert_eq!(tlv_stream.amount, Some(1000));
assert_eq!(tlv_stream.currency, None);
let builder = OfferBuilder::new("foo".into(), pubkey(42))
.amount(currency_amount.clone());
let tlv_stream = builder.offer.as_tlv_stream();
assert_eq!(builder.offer.amount, Some(currency_amount.clone()));
assert_eq!(tlv_stream.amount, Some(10));
assert_eq!(tlv_stream.currency, Some(b"USD"));
match builder.build() {
Ok(_) => panic!("expected error"),
Err(e) => assert_eq!(e, Bolt12SemanticError::UnsupportedCurrency),
}
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.amount(currency_amount.clone())
.amount(bitcoin_amount.clone())
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(tlv_stream.amount, Some(1000));
assert_eq!(tlv_stream.currency, None);
let invalid_amount = Amount::Bitcoin { amount_msats: MAX_VALUE_MSAT + 1 };
match OfferBuilder::new("foo".into(), pubkey(42)).amount(invalid_amount).build() {
Ok(_) => panic!("expected error"),
Err(e) => assert_eq!(e, Bolt12SemanticError::InvalidAmount),
}
}
#[test]
fn builds_offer_with_features() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.features_unchecked(OfferFeatures::unknown())
.build()
.unwrap();
assert_eq!(offer.offer_features(), &OfferFeatures::unknown());
assert_eq!(offer.as_tlv_stream().features, Some(&OfferFeatures::unknown()));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.features_unchecked(OfferFeatures::unknown())
.features_unchecked(OfferFeatures::empty())
.build()
.unwrap();
assert_eq!(offer.offer_features(), &OfferFeatures::empty());
assert_eq!(offer.as_tlv_stream().features, None);
}
#[test]
fn builds_offer_with_absolute_expiry() {
let future_expiry = Duration::from_secs(u64::max_value());
let past_expiry = Duration::from_secs(0);
let now = future_expiry - Duration::from_secs(1_000);
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.absolute_expiry(future_expiry)
.build()
.unwrap();
#[cfg(feature = "std")]
assert!(!offer.is_expired());
assert!(!offer.is_expired_no_std(now));
assert_eq!(offer.absolute_expiry(), Some(future_expiry));
assert_eq!(offer.as_tlv_stream().absolute_expiry, Some(future_expiry.as_secs()));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.absolute_expiry(future_expiry)
.absolute_expiry(past_expiry)
.build()
.unwrap();
#[cfg(feature = "std")]
assert!(offer.is_expired());
assert!(offer.is_expired_no_std(now));
assert_eq!(offer.absolute_expiry(), Some(past_expiry));
assert_eq!(offer.as_tlv_stream().absolute_expiry, Some(past_expiry.as_secs()));
}
#[test]
fn builds_offer_with_paths() {
let paths = vec![
BlindedPath {
introduction_node_id: pubkey(40),
blinding_point: pubkey(41),
blinded_hops: vec![
BlindedHop { blinded_node_id: pubkey(43), encrypted_payload: vec![0; 43] },
BlindedHop { blinded_node_id: pubkey(44), encrypted_payload: vec![0; 44] },
],
},
BlindedPath {
introduction_node_id: pubkey(40),
blinding_point: pubkey(41),
blinded_hops: vec![
BlindedHop { blinded_node_id: pubkey(45), encrypted_payload: vec![0; 45] },
BlindedHop { blinded_node_id: pubkey(46), encrypted_payload: vec![0; 46] },
],
},
];
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.path(paths[0].clone())
.path(paths[1].clone())
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.paths(), paths.as_slice());
assert_eq!(offer.signing_pubkey(), pubkey(42));
assert_ne!(pubkey(42), pubkey(44));
assert_eq!(tlv_stream.paths, Some(&paths));
assert_eq!(tlv_stream.node_id, Some(&pubkey(42)));
}
#[test]
fn builds_offer_with_issuer() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.issuer("bar".into())
.build()
.unwrap();
assert_eq!(offer.issuer(), Some(PrintableString("bar")));
assert_eq!(offer.as_tlv_stream().issuer, Some(&String::from("bar")));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.issuer("bar".into())
.issuer("baz".into())
.build()
.unwrap();
assert_eq!(offer.issuer(), Some(PrintableString("baz")));
assert_eq!(offer.as_tlv_stream().issuer, Some(&String::from("baz")));
}
#[test]
fn builds_offer_with_supported_quantity() {
let one = NonZeroU64::new(1).unwrap();
let ten = NonZeroU64::new(10).unwrap();
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::One)
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.supported_quantity(), Quantity::One);
assert_eq!(tlv_stream.quantity_max, None);
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Unbounded)
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.supported_quantity(), Quantity::Unbounded);
assert_eq!(tlv_stream.quantity_max, Some(0));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Bounded(ten))
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.supported_quantity(), Quantity::Bounded(ten));
assert_eq!(tlv_stream.quantity_max, Some(10));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Bounded(one))
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.supported_quantity(), Quantity::Bounded(one));
assert_eq!(tlv_stream.quantity_max, Some(1));
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Bounded(ten))
.supported_quantity(Quantity::One)
.build()
.unwrap();
let tlv_stream = offer.as_tlv_stream();
assert_eq!(offer.supported_quantity(), Quantity::One);
assert_eq!(tlv_stream.quantity_max, None);
}
#[test]
fn fails_requesting_invoice_with_unknown_required_features() {
match OfferBuilder::new("foo".into(), pubkey(42))
.features_unchecked(OfferFeatures::unknown())
.build().unwrap()
.request_invoice(vec![1; 32], pubkey(43))
{
Ok(_) => panic!("expected error"),
Err(e) => assert_eq!(e, Bolt12SemanticError::UnknownRequiredFeatures),
}
}
#[test]
fn parses_offer_with_chains() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.chain(Network::Bitcoin)
.chain(Network::Testnet)
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
}
#[test]
fn parses_offer_with_amount() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.amount(Amount::Bitcoin { amount_msats: 1000 })
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.amount = Some(1000);
tlv_stream.currency = Some(b"USD");
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
if let Err(e) = Offer::try_from(encoded_offer) {
panic!("error parsing offer: {:?}", e);
}
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.amount = None;
tlv_stream.currency = Some(b"USD");
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
match Offer::try_from(encoded_offer) {
Ok(_) => panic!("expected error"),
Err(e) => assert_eq!(e, Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::MissingAmount)),
}
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.amount = Some(MAX_VALUE_MSAT + 1);
tlv_stream.currency = None;
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
match Offer::try_from(encoded_offer) {
Ok(_) => panic!("expected error"),
Err(e) => assert_eq!(e, Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::InvalidAmount)),
}
}
#[test]
fn parses_offer_with_description() {
let offer = OfferBuilder::new("foo".into(), pubkey(42)).build().unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.description = None;
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
match Offer::try_from(encoded_offer) {
Ok(_) => panic!("expected error"),
Err(e) => {
assert_eq!(e, Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::MissingDescription));
},
}
}
#[test]
fn parses_offer_with_paths() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.path(BlindedPath {
introduction_node_id: pubkey(40),
blinding_point: pubkey(41),
blinded_hops: vec![
BlindedHop { blinded_node_id: pubkey(43), encrypted_payload: vec![0; 43] },
BlindedHop { blinded_node_id: pubkey(44), encrypted_payload: vec![0; 44] },
],
})
.path(BlindedPath {
introduction_node_id: pubkey(40),
blinding_point: pubkey(41),
blinded_hops: vec![
BlindedHop { blinded_node_id: pubkey(45), encrypted_payload: vec![0; 45] },
BlindedHop { blinded_node_id: pubkey(46), encrypted_payload: vec![0; 46] },
],
})
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let mut builder = OfferBuilder::new("foo".into(), pubkey(42));
builder.offer.paths = Some(vec![]);
let offer = builder.build().unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
}
#[test]
fn parses_offer_with_quantity() {
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::One)
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Unbounded)
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Bounded(NonZeroU64::new(10).unwrap()))
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let offer = OfferBuilder::new("foo".into(), pubkey(42))
.supported_quantity(Quantity::Bounded(NonZeroU64::new(1).unwrap()))
.build()
.unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
}
#[test]
fn parses_offer_with_node_id() {
let offer = OfferBuilder::new("foo".into(), pubkey(42)).build().unwrap();
if let Err(e) = offer.to_string().parse::<Offer>() {
panic!("error parsing offer: {:?}", e);
}
let mut tlv_stream = offer.as_tlv_stream();
tlv_stream.node_id = None;
let mut encoded_offer = Vec::new();
tlv_stream.write(&mut encoded_offer).unwrap();
match Offer::try_from(encoded_offer) {
Ok(_) => panic!("expected error"),
Err(e) => {
assert_eq!(e, Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::MissingSigningPubkey));
},
}
}
#[test]
fn fails_parsing_offer_with_extra_tlv_records() {
let offer = OfferBuilder::new("foo".into(), pubkey(42)).build().unwrap();
let mut encoded_offer = Vec::new();
offer.write(&mut encoded_offer).unwrap();
BigSize(80).write(&mut encoded_offer).unwrap();
BigSize(32).write(&mut encoded_offer).unwrap();
[42u8; 32].write(&mut encoded_offer).unwrap();
match Offer::try_from(encoded_offer) {
Ok(_) => panic!("expected error"),
Err(e) => assert_eq!(e, Bolt12ParseError::Decode(DecodeError::InvalidValue)),
}
}
}
#[cfg(test)]
mod bolt12_tests {
use super::{Bolt12ParseError, Bolt12SemanticError, Offer};
use crate::ln::msgs::DecodeError;
#[test]
fn parses_bech32_encoded_offers() {
let offers = [
// Minimal bolt12 offer
"lno1pgx9getnwss8vetrw3hhyuckyypwa3eyt44h6txtxquqh7lz5djge4afgfjn7k4rgrkuag0jsd5xvxg",
// for testnet
"lno1qgsyxjtl6luzd9t3pr62xr7eemp6awnejusgf6gw45q75vcfqqqqqqq2p32x2um5ypmx2cm5dae8x93pqthvwfzadd7jejes8q9lhc4rvjxd022zv5l44g6qah82ru5rdpnpj",
// for bitcoin (redundant)
"lno1qgsxlc5vp2m0rvmjcxn2y34wv0m5lyc7sdj7zksgn35dvxgqqqqqqqq2p32x2um5ypmx2cm5dae8x93pqthvwfzadd7jejes8q9lhc4rvjxd022zv5l44g6qah82ru5rdpnpj",
// for bitcoin or liquidv1
"lno1qfqpge38tqmzyrdjj3x2qkdr5y80dlfw56ztq6yd9sme995g3gsxqqm0u2xq4dh3kdevrf4zg6hx8a60jv0gxe0ptgyfc6xkryqqqqqqqq9qc4r9wd6zqan9vd6x7unnzcss9mk8y3wkklfvevcrszlmu23kfrxh49px20665dqwmn4p72pksese",
// with metadata
"lno1qsgqqqqqqqqqqqqqqqqqqqqqqqqqqzsv23jhxapqwejkxar0wfe3vggzamrjghtt05kvkvpcp0a79gmy3nt6jsn98ad2xs8de6sl9qmgvcvs",
// with amount
"lno1pqpzwyq2p32x2um5ypmx2cm5dae8x93pqthvwfzadd7jejes8q9lhc4rvjxd022zv5l44g6qah82ru5rdpnpj",
// with currency
"lno1qcp4256ypqpzwyq2p32x2um5ypmx2cm5dae8x93pqthvwfzadd7jejes8q9lhc4rvjxd022zv5l44g6qah82ru5rdpnpj",
// with expiry
"lno1pgx9getnwss8vetrw3hhyucwq3ay997czcss9mk8y3wkklfvevcrszlmu23kfrxh49px20665dqwmn4p72pksese",
// with issuer
"lno1pgx9getnwss8vetrw3hhyucjy358garswvaz7tmzdak8gvfj9ehhyeeqgf85c4p3xgsxjmnyw4ehgunfv4e3vggzamrjghtt05kvkvpcp0a79gmy3nt6jsn98ad2xs8de6sl9qmgvcvs",
// with quantity
"lno1pgx9getnwss8vetrw3hhyuc5qyz3vggzamrjghtt05kvkvpcp0a79gmy3nt6jsn98ad2xs8de6sl9qmgvcvs",
// with unlimited (or unknown) quantity
"lno1pgx9getnwss8vetrw3hhyuc5qqtzzqhwcuj966ma9n9nqwqtl032xeyv6755yeflt235pmww58egx6rxry",
// with single quantity (weird but valid)
"lno1pgx9getnwss8vetrw3hhyuc5qyq3vggzamrjghtt05kvkvpcp0a79gmy3nt6jsn98ad2xs8de6sl9qmgvcvs",
// with feature
"lno1pgx9getnwss8vetrw3hhyucvp5yqqqqqqqqqqqqqqqqqqqqkyypwa3eyt44h6txtxquqh7lz5djge4afgfjn7k4rgrkuag0jsd5xvxg",
// with blinded path via Bob (0x424242...), blinding 020202...
"lno1pgx9getnwss8vetrw3hhyucs5ypjgef743p5fzqq9nqxh0ah7y87rzv3ud0eleps9kl2d5348hq2k8qzqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgqpqqqqqqqqqqqqqqqqqqqqqqqqqqqzqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqqzq3zyg3zyg3zyg3vggzamrjghtt05kvkvpcp0a79gmy3nt6jsn98ad2xs8de6sl9qmgvcvs",
// ... and with second blinded path via Carol (0x434343...), blinding 020202...
"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",
// unknown odd field
"lno1pgx9getnwss8vetrw3hhyuckyypwa3eyt44h6txtxquqh7lz5djge4afgfjn7k4rgrkuag0jsd5xvxfppf5x2mrvdamk7unvvs",
];
for encoded_offer in &offers {
if let Err(e) = encoded_offer.parse::<Offer>() {
panic!("Invalid offer ({:?}): {}", e, encoded_offer);
}
}
}
#[test]
fn fails_parsing_bech32_encoded_offers() {
// Malformed: fields out of order
assert_eq!(
"lno1zcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszpgz5znzfgdzs".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// Malformed: unknown even TLV type 78
assert_eq!(
"lno1pgz5znzfgdz3vggzqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpysgr0u2xq4dh3kdevrf4zg6hx8a60jv0gxe0ptgyfc6xkryqqqqqqqq".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::UnknownRequiredFeature)),
);
// Malformed: empty
assert_eq!(
"lno1".parse::<Offer>(),
Err(Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::MissingDescription)),
);
// Malformed: truncated at type
assert_eq!(
"lno1pg".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated in length
assert_eq!(
"lno1pt7s".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated after length
assert_eq!(
"lno1pgpq".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated in description
assert_eq!(
"lno1pgpyz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: invalid offer_chains length
assert_eq!(
"lno1qgqszzs9g9xyjs69zcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated currency UTF-8
assert_eq!(
"lno1qcqcqzs9g9xyjs69zcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: invalid currency UTF-8
assert_eq!(
"lno1qcpgqsg2q4q5cj2rg5tzzqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqg".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated description UTF-8
assert_eq!(
"lno1pgqcq93pqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqy".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// Malformed: invalid description UTF-8
assert_eq!(
"lno1pgpgqsgkyypqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqs".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// Malformed: truncated offer_paths
assert_eq!(
"lno1pgz5znzfgdz3qqgpzcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: zero num_hops in blinded_path
assert_eq!(
"lno1pgz5znzfgdz3qqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsqzcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated onionmsg_hop in blinded_path
assert_eq!(
"lno1pgz5znzfgdz3qqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqspqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqgkyypqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqs".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: bad first_node_id in blinded_path
assert_eq!(
"lno1pgz5znzfgdz3qqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqspqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqgqzcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: bad blinding in blinded_path
assert_eq!(
"lno1pgz5znzfgdz3qqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcpqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqgqzcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: bad blinded_node_id in onionmsg_hop
assert_eq!(
"lno1pgz5znzfgdz3qqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqspqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqgqzcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::ShortRead)),
);
// Malformed: truncated issuer UTF-8
assert_eq!(
"lno1pgz5znzfgdz3yqvqzcssyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqsz".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// Malformed: invalid issuer UTF-8
assert_eq!(
"lno1pgz5znzfgdz3yq5qgytzzqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqg".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// Malformed: invalid offer_node_id
assert_eq!(
"lno1pgz5znzfgdz3vggzqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvpsxqcrqvps".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// Contains type >= 80
assert_eq!(
"lno1pgz5znzfgdz3vggzqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgpqyqszqgp9qgr0u2xq4dh3kdevrf4zg6hx8a60jv0gxe0ptgyfc6xkryqqqqqqqq".parse::<Offer>(),
Err(Bolt12ParseError::Decode(DecodeError::InvalidValue)),
);
// TODO: Resolved in spec https://github.com/lightning/bolts/pull/798/files#r1334851959
// Contains unknown feature 22
assert!(
"lno1pgx9getnwss8vetrw3hhyucvqdqqqqqkyypwa3eyt44h6txtxquqh7lz5djge4afgfjn7k4rgrkuag0jsd5xvxg".parse::<Offer>().is_ok()
);
// Missing offer_description
assert_eq!(
"lno1zcss9mk8y3wkklfvevcrszlmu23kfrxh49px20665dqwmn4p72pksese".parse::<Offer>(),
Err(Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::MissingDescription)),
);
// Missing offer_node_id"
assert_eq!(
"lno1pgx9getnwss8vetrw3hhyuc".parse::<Offer>(),
Err(Bolt12ParseError::InvalidSemantics(Bolt12SemanticError::MissingSigningPubkey)),
);
}
}