'use strict'; const DB = require("../database"); const { sink_chest, sink_groups } = require("../keys"); const eCode = require('../../docs/scripts/floExchangeAPI').errorCode; const pCode = require('../../docs/scripts/floExchangeAPI').processCode; const getRate = require('./conversion').getRate; const blockchainBond = (function () { const productStr = "Product: RanchiMall Bitcoin Bond"; const magnitude = m => { switch (m) { case "thousand": return 1000; case "lakh": case "lakhs": return 100000; case "million": return 1000000; case "crore": case "crores": return 10000000; default: return null; } } const parseNumber = (str) => { let n = 0, g = 0; str.toLowerCase().replace(/,/g, '').split(" ").forEach(s => { if (!isNaN(s)) g = parseFloat(s); else { let m = magnitude(s); if (m !== null) { n += m * g; g = 0; } } }); return n + g; } const parsePeriod = (str) => { let P = '', n = 0; str.toLowerCase().replace(/,/g, '').split(" ").forEach(s => { if (!isNaN(s)) n = parseFloat(s); else switch (s) { case "year(s)": case "year": case "years": P += (n + 'Y'); n = 0; break; case "month(s)": case "month": case "months": P += (n + 'M'); n = 0; break; case "day(s)": case "day": case "days": P += (n + 'D'); n = 0; break; } }); return P; } const dateFormat = (date = null) => { let d = (date ? new Date(date) : new Date()).toDateString(); return [d.substring(8, 10), d.substring(4, 7), d.substring(11, 15)].join(" "); } const yearDiff = (d1 = null, d2 = null) => { d1 = d1 ? new Date(d1) : new Date(); d2 = d2 ? new Date(d2) : new Date(); let y = d1.getYear() - d2.getYear(), m = d1.getMonth() - d2.getMonth(), d = d1.getDate() - d2.getDate() return y + m / 12 + d / 365; } const dateAdder = function (start_date, duration) { let date = new Date(start_date); let y = parseInt(duration.match(/\d+Y/)), m = parseInt(duration.match(/\d+M/)), d = parseInt(duration.match(/\d+D/)); if (!isNaN(y)) date.setFullYear(date.getFullYear() + y); if (!isNaN(m)) date.setMonth(date.getMonth() + m); if (!isNaN(d)) date.setDate(date.getDate() + d); return date; } function calcNetValue(BTC_base, BTC_net, startDate, minIpa, maxPeriod, cut, amount, USD_base, USD_net) { let gain, duration, interest, net; gain = (BTC_net - BTC_base) / BTC_base; duration = yearDiff(Math.min(Date.now(), dateAdder(startDate, maxPeriod).getTime()), startDate); interest = Math.max(cut * gain, minIpa * duration); net = amount / USD_base; net += net * interest; return net * USD_net; } function stringify_main(BTC_base, start_date, guaranteed_interest, guarantee_period, gain_cut, amount, USD_base, lockin_period, floID) { return [ `${productStr}`, `Base value: ${BTC_base} USD`, `Date of bond start: ${dateFormat(start_date)}`, `Guaranteed interest: ${guaranteed_interest}% per annum simple for ${guarantee_period}`, `Bond value: guaranteed interest or ${gain_cut}% of the gains whichever is higher`, `Amount invested: Rs ${amount}`, `USD INR rate at start: ${USD_base}`, `Lockin period: ${lockin_period}`, `FLO ID of Bond Holder: ${floID}` ].join("|"); } function parse_main(data) { //Data (add bond) sent by admin let details = {}; data.split("|").forEach(d => { d = d.split(': '); switch (d[0].toLowerCase()) { case "base value": details["BTC_base"] = parseNumber(d[1].slice(0, -4)); break; case "date of bond start": details["startDate"] = new Date(d[1]); break; case "guaranteed interest": details["minIpa"] = parseFloat(d[1].match(/\d+%/)) / 100; details["maxPeriod"] = parsePeriod(d[1].match(/for .+/).toString()); break; case "bond value": details["cut"] = parseFloat(d[1].match(/\d+%/)) / 100; break; case "amount invested": details["amount"] = parseNumber(d[1].substring(3)); break; case "usd inr rate at start": details["USD_base"] = parseFloat(d[1]); break; case "lockin period": details["lockinPeriod"] = parsePeriod(d[1]); break; case "flo id of bond holder": details["floID"] = d[1]; break; } }); return details; } function stringify_end(bond_id, end_date, BTC_net, USD_net, amount, ref_sign, payment_ref) { return [ `${productStr}`, `Bond: ${bond_id}`, `End value: ${BTC_net} USD`, `Date of bond end: ${dateFormat(end_date)}`, `USD INR rate at end: ${USD_net}`, `Amount withdrawn: Rs ${amount} via ${payment_ref}`, `Reference: ${ref_sign}` ].join("|"); } function parse_end(data) { //Data (end bond) send by market nodes let details = {}; data.split("|").forEach(d => { d = d.split(': '); switch (d[0].toLowerCase()) { case "bond": details["bondID"] = d[1]; break; case "end value": details["BTC_net"] = parseNumber(d[1].slice(0, -4)); break; case "date of bond end": details["endDate"] = new Date(d[1]); break; case "amount withdrawn": details["amountFinal"] = parseNumber(d[1].match(/\d.+ via/).toString()); details["payment_refRef"] = d[1].match(/via .+/).toString().substring(4); break; case "usd inr rate at end": details["USD_net"] = parseFloat(d[1]); break; case "reference": details["refSign"] = d[1]; break; } }); return details; } return { productStr, dateAdder, dateFormat, calcNetValue, parse: { main: parse_main, end: parse_end }, stringify: { main: stringify_main, end: stringify_end } } })(); blockchainBond.config = { adminID: "FBBstZ2GretgQqDP55yt8iVd4KNZkdvEzH", application: "BlockchainBonds" } function refreshBlockchainData(nodeList = []) { return new Promise((resolve, reject) => { DB.query("SELECT txid FROM LastTx WHERE floID=?", [blockchainBond.config.adminID]).then(result => { var query_options = { senders: nodeList.concat(blockchainBond.config.adminID), tx: true, filter: d => d.startsWith(blockchainBond.productStr) }; let lastTx = result.length ? result[0].txid : undefined; if (typeof lastTx == 'string' && /^[0-9a-f]{64}/i.test(lastTx))//lastTx is txid of last tx query_options.after = lastTx; else if (!isNaN(lastTx))//lastTx is tx count (*backward support) query_options.ignoreOld = parseInt(lastTx); floBlockchainAPI.readData(blockchainBond.config.adminID, query_options).then(result => { let txQueries = []; result.items.reverse().forEach(d => { let bond = d.senders.has(blockchainBond.config.adminID) ? blockchainBond.parse.main(d.data) : null; if (bond && bond.amount) txQueries.push(["INSERT INTO BlockchainBonds(bond_id, floID, amount_in, begin_date, btc_base, usd_base, gain_cut, min_ipa, max_period, lockin_period) VALUE (?) ON DUPLICATE KEY UPDATE bond_id=bond_id", [[d.txid, bond.floID, bond.amount, bond.startDate, bond.BTC_base, bond.USD_base, bond.cut, bond.minIpa, bond.maxPeriod, bond.lockinPeriod]]]); else { let details = blockchainBond.parse.end(d.data); if (details.bondID && details.amountFinal) txQueries.push(["UPDATE BlockchainBonds SET close_id=?, amount_out=? WHERE bond_id=?", [d.txid, details.amountFinal, details.bondID]]); } }); txQueries.push(["INSERT INTO LastTx (floID, txid) VALUE (?) ON DUPLICATE KEY UPDATE txid=?", [[blockchainBond.config.adminID, result.lastItem], result.lastItem]]) DB.transaction(txQueries) .then(_ => resolve(result.lastItem)) .catch(error => reject(["Blockchain-bonds refresh data failed!", error])); }).catch(error => reject(error)) }).catch(error => reject(error)) }) } function closeBond(bond_id, floID, ref) { return new Promise((resolve, reject) => { DB.query("SELECT r_status, close_id FROM CloseBondTransact WHERE bond_id=?", [bond_id]).then(result => { if (result.length) return reject(INVALID(eCode.DUPLICATE_ENTRY, result[0].r_status == pCode.STATUS_SUCCESS ? `Bond already closed (${result[0].close_id})` : `Bond closing already in process`)); DB.query("SELECT * FROM BlockchainBonds WHERE bond_id=?", [bond_id]).then(result => { if (!result.length) return reject(INVALID(eCode.NOT_FOUND, 'Bond not found')); let bond = result[0]; if (bond.floID !== floID) return reject(INVALID(eCode.NOT_OWNER, 'Bond doesnot belong to the user')); if (bond.close_id) return reject(INVALID(eCode.DUPLICATE_ENTRY, `Bond already closed (${bond.close_id})`)); if (Date.now() < blockchainBond.dateAdder(bond.begin_date, bond.lockin_period).getTime()) return reject(INVALID(eCode.INSUFFICIENT_PERIOD, 'Bond still in lock-in period')); getRate.BTC_USD().then(btc_rate => { getRate.USD_INR().then(usd_rate => { let end_date = new Date(), net_value = blockchainBond.calcNetValue(bond.btc_base, btc_rate, bond.begin_date, bond.min_ipa, bond.max_period, bond.gain_cut, bond.amount_in, bond.usd_base, usd_rate); DB.query("INSERT INTO CloseBondTransact(bond_id, floID, amount, end_date, btc_net, usd_net, ref_sign, r_status) VALUE (?)", [[bond_id, floID, net_value, end_date, btc_rate, usd_rate, ref, pCode.STATUS_PENDING]]) .then(result => resolve({ "USD_net": usd_rate, "BTC_net": btc_rate, "amount_out": net_value, "end_date": end_date })) .catch(error => reject(error)) }).catch(error => reject(error)) }).catch(error => reject(error)) }).catch(error => reject(error)) }).catch(error => reject(error)) }) } function checkBondBalance(prior_time) { return new Promise((resolve, reject) => { prior_time = new Date(prior_time); let cur_date = Date.now(); if (isNaN(prior_time) || prior_time.toString() == "Invalid Date") return reject(INVALID(eCode.INVALID_VALUE, `Invalid Date for prior_time`)); let sql_query = "SELECT bb.*, cb.amount AS amount_close FROM BlockchainBonds AS bb" + " LEFT JOIN CloseBondTransact AS cb ON bb.bond_id = cb.bond_id" + " WHERE bb.close_id IS NULL AND (cb.r_status IS NULL OR cb.r_status NOT IN (?))"; DB.query(sql_query, [[pCode.STATUS_SUCCESS, pCode.STATUS_CONFIRMATION]]).then(result => { getRate.BTC_USD().then(btc_rate => { getRate.USD_INR().then(usd_rate => { let pending = { require_amount_cash: 0, n_bond: 0 }, ready = { require_amount_cash: 0, n_bond: 0 }, upcoming = { require_amount_cash: 0, n_bond: 0 } result.forEach(bond => { if (bond.amount_close) { pending.require_amount_cash += bond.amount_close; pending.n_bond++; } else { let end_date = blockchainBond.dateAdder(bond.begin_date, bond.lockin_period) if (end_date < prior_time) { let net_value = blockchainBond.calcNetValue(bond.btc_base, btc_rate, bond.begin_date, bond.min_ipa, bond.max_period, bond.gain_cut, bond.amount_in, bond.usd_base, usd_rate); if (end_date > cur_date) { upcoming.require_amount_cash += net_value; upcoming.n_bond++; } else { ready.require_amount_cash += net_value; ready.n_bond++; } } } }); pending.require_amount_cash = global.toStandardDecimal(pending.require_amount_cash); ready.require_amount_cash = global.toStandardDecimal(ready.require_amount_cash); upcoming.require_amount_cash = global.toStandardDecimal(upcoming.require_amount_cash); pending.require_amount_btc = global.toStandardDecimal(pending.require_amount_cash / (btc_rate * usd_rate)); ready.require_amount_btc = global.toStandardDecimal(ready.require_amount_cash / (btc_rate * usd_rate)); upcoming.require_amount_btc = global.toStandardDecimal(upcoming.require_amount_cash / (btc_rate * usd_rate)); Promise.allSettled(sink_chest.list(sink_groups.BLOCKCHAIN_BONDS) .map(id => btcOperator.getBalance(btcOperator.convert.legacy2bech(id)))).then(result => { let balance = result.filter(r => r.status === 'fulfilled').reduce((a, bal) => a += bal, 0); resolve({ pending, ready, upcoming, balance }); }).catch(error => reject(error)) }).catch(error => reject(error)) }).catch(error => reject(error)) }).catch(error => reject(error)) }) } module.exports = { refresh(nodeList) { refreshBlockchainData(nodeList) .then(result => console.debug("Refreshed Blockchain-bonds data")) .catch(error => console.error(error)); }, util: blockchainBond, checkBondBalance, closeBond }