import { createHodlInvoice, parsePaymentRequest } from 'ln-service' import { estimateRouteFee, getBlockHeight } from '../api/lnd' import { toPositiveNumber } from '@/lib/validate' const MIN_OUTGOING_MSATS = BigInt(900) // the minimum msats we'll allow for the outgoing invoice const MAX_OUTGOING_MSATS = BigInt(900_000_000) // the maximum msats we'll allow for the outgoing invoice const MAX_EXPIRATION_INCOMING_MSECS = 900_000 // the maximum expiration time we'll allow for the incoming invoice const INCOMING_EXPIRATION_BUFFER_MSECS = 300_000 // the buffer enforce for the incoming invoice expiration const MAX_OUTGOING_CLTV_DELTA = 500 // the maximum cltv delta we'll allow for the outgoing invoice export const MIN_SETTLEMENT_CLTV_DELTA = 80 // the minimum blocks we'll leave for settling the incoming invoice const FEE_ESTIMATE_TIMEOUT_SECS = 5 // the timeout for the fee estimate request const MAX_FEE_ESTIMATE_PERCENT = 0.025 // the maximum fee relative to outgoing we'll allow for the fee estimate const ZAP_SYBIL_FEE_MULT = 10 / 7 // the fee for the zap sybil service /* The wrapInvoice function is used to wrap an outgoing invoice with the necessary parameters for an incoming hold invoice. @param bolt11 {string} the bolt11 invoice to wrap @param options {object} @returns { invoice: the wrapped incoming invoice, maxFee: number } */ export default async function wrapInvoice (bolt11, { msats, description, descriptionHash }, { lnd }) { try { console.group('wrapInvoice', description) // create a new object to hold the wrapped invoice values const wrapped = {} let outgoingMsat // decode the invoice const inv = await parsePaymentRequest({ request: bolt11 }) if (!inv) { throw new Error('Unable to decode invoice') } console.log('invoice', inv.mtokens, inv.expires_at, inv.cltv_delta) // validate outgoing amount if (inv.mtokens) { outgoingMsat = toPositiveNumber(inv.mtokens) if (outgoingMsat < MIN_OUTGOING_MSATS) { throw new Error(`Invoice amount is too low: ${outgoingMsat}`) } if (outgoingMsat > MAX_OUTGOING_MSATS) { throw new Error(`Invoice amount is too high: ${outgoingMsat}`) } } else { throw new Error('Outgoing invoice is missing amount') } // validate incoming amount if (msats) { msats = toPositiveNumber(msats) if (outgoingMsat * ZAP_SYBIL_FEE_MULT > msats) { throw new Error('Sybil fee is too low') } } else { throw new Error('Incoming invoice amount is missing') } // validate features if (inv.features) { for (const f of inv.features) { switch (Number(f.bit)) { // supported features case 8: // variable length routing onion case 9: case 14: // payment secret case 15: case 16: // basic multi-part payment case 17: case 25: // blinded paths case 48: // TLV payment data case 49: case 149: // trampoline routing case 151: // electrum trampoline routing break default: throw new Error(`Unsupported feature bit: ${f.bit}`) } } } else { throw new Error('Invoice features are missing') } // validate the payment hash if (inv.id) { wrapped.id = inv.id } else { throw new Error('Invoice hash is missing') } // validate the description if (description && descriptionHash) { throw new Error('Only one of description or descriptionHash is allowed') } else if (description) { // use our wrapped description wrapped.description = description } else if (descriptionHash) { // use our wrapped description hash wrapped.description_hash = descriptionHash } else if (inv.description_hash) { // use the invoice description hash wrapped.description_hash = inv.description_hash } else { // use the invoice description wrapped.description = inv.description } // validate the expiration if (new Date(inv.expires_at) < new Date(Date.now() + INCOMING_EXPIRATION_BUFFER_MSECS)) { throw new Error('Invoice expiration is too soon') } else if (new Date(inv.expires_at) > new Date(Date.now() + MAX_EXPIRATION_INCOMING_MSECS)) { // trim the expiration to the maximum allowed with a buffer wrapped.expires_at = new Date(Date.now() + MAX_EXPIRATION_INCOMING_MSECS - INCOMING_EXPIRATION_BUFFER_MSECS) } else { // give the existing expiration a buffer wrapped.expires_at = new Date(new Date(inv.expires_at).getTime() - INCOMING_EXPIRATION_BUFFER_MSECS) } // get routing estimates const { routingFeeMsat, timeLockDelay } = await estimateRouteFee({ lnd, destination: inv.destination, mtokens: inv.mtokens, request: bolt11, timeout: FEE_ESTIMATE_TIMEOUT_SECS }) const blockHeight = await getBlockHeight({ lnd }) /* we want the incoming invoice to have MIN_SETTLEMENT_CLTV_DELTA higher final cltv delta than the expected ctlv_delta of the outgoing invoice's entire route timeLockDelay is the absolute height the outgoing route is estimated to expire in the worst case. It excludes the final hop's cltv_delta, so we add it. We subtract the blockheight, then add on how many blocks we want to reserve to settle the incoming payment, assuming the outgoing payment settles at the worst case (ie largest) height. */ wrapped.cltv_delta = toPositiveNumber( toPositiveNumber(timeLockDelay) + toPositiveNumber(inv.cltv_delta) - toPositiveNumber(blockHeight) + MIN_SETTLEMENT_CLTV_DELTA) console.log('routingFeeMsat', routingFeeMsat, 'timeLockDelay', timeLockDelay, 'blockHeight', blockHeight) // validate the cltv delta if (wrapped.cltv_delta > MAX_OUTGOING_CLTV_DELTA) { throw new Error('Estimated outgoing cltv delta is too high: ' + wrapped.cltv_delta) } else if (wrapped.cltv_delta < MIN_SETTLEMENT_CLTV_DELTA + toPositiveNumber(inv.cltv_delta)) { throw new Error('Estimated outgoing cltv delta is too low: ' + wrapped.cltv_delta) } // validate the fee budget const minEstFees = toPositiveNumber(routingFeeMsat) const outgoingMaxFeeMsat = Math.ceil(msats * MAX_FEE_ESTIMATE_PERCENT) if (minEstFees > outgoingMaxFeeMsat) { throw new Error('Estimated fees are too high') } // calculate the incoming invoice amount, without fees wrapped.mtokens = String(msats) console.log('outgoingMaxFeeMsat', outgoingMaxFeeMsat, 'wrapped', wrapped) return { invoice: await createHodlInvoice({ lnd, ...wrapped }), maxFee: outgoingMaxFeeMsat } } finally { console.groupEnd() } }