/* global alert */ import AsyncStorage from '@react-native-async-storage/async-storage'; import { Alert } from 'react-native'; import { LegacyWallet, SegwitBech32Wallet, SegwitP2SHWallet } from '../class'; import DefaultPreference from 'react-native-default-preference'; import loc from '../loc'; import WidgetCommunication from './WidgetCommunication'; import { isTorDaemonDisabled } from './environment'; const bitcoin = require('bitcoinjs-lib'); const ElectrumClient = require('electrum-client'); const reverse = require('buffer-reverse'); const BigNumber = require('bignumber.js'); const torrific = require('./torrific'); const Realm = require('realm'); const ELECTRUM_HOST = 'electrum_host'; const ELECTRUM_TCP_PORT = 'electrum_tcp_port'; const ELECTRUM_SSL_PORT = 'electrum_ssl_port'; const ELECTRUM_SERVER_HISTORY = 'electrum_server_history'; const ELECTRUM_CONNECTION_DISABLED = 'electrum_disabled'; let _realm; async function _getRealm() { if (_realm) return _realm; const password = bitcoin.crypto.sha256(Buffer.from('fyegjitkyf[eqjnc.lf')).toString('hex'); const buf = Buffer.from(password + password, 'hex'); const encryptionKey = Int8Array.from(buf); const path = 'electrumcache.realm'; const schema = [ { name: 'Cache', primaryKey: 'cache_key', properties: { cache_key: { type: 'string', indexed: true }, cache_value: 'string', // stringified json }, }, ]; _realm = await Realm.open({ schema, path, encryptionKey, }); return _realm; } const storageKey = 'ELECTRUM_PEERS'; const defaultPeer = { host: 'electrum1.bluewallet.io', ssl: '443' }; const hardcodedPeers = [ // { host: 'noveltybobble.coinjoined.com', tcp: '50001' }, // down // { host: 'electrum.be', tcp: '50001' }, // { host: 'node.ispol.sk', tcp: '50001' }, // down // { host: '139.162.14.142', tcp: '50001' }, // { host: 'electrum.coinucopia.io', tcp: '50001' }, // SLOW // { host: 'Bitkoins.nl', tcp: '50001' }, // down // { host: 'fullnode.coinkite.com', tcp: '50001' }, // { host: 'preperfect.eleCTruMioUS.com', tcp: '50001' }, // down { host: 'electrum1.bluewallet.io', ssl: '443' }, { host: 'electrum2.bluewallet.io', ssl: '443' }, { host: 'electrum3.bluewallet.io', ssl: '443' }, ]; /** @type {ElectrumClient} */ let mainClient; let mainConnected = false; let wasConnectedAtLeastOnce = false; let serverName = false; let disableBatching = false; let connectionAttempt = 0; let latestBlockheight = false; let latestBlockheightTimestamp = false; const txhashHeightCache = {}; async function isDisabled() { let isDisabled; try { const savedValue = await AsyncStorage.getItem(ELECTRUM_CONNECTION_DISABLED); if (savedValue === null) { isDisabled = false; } else { isDisabled = savedValue; } } catch { isDisabled = false; } return !!isDisabled; } async function setDisabled(disabled = true) { return AsyncStorage.setItem(ELECTRUM_CONNECTION_DISABLED, disabled ? '1' : ''); } async function connectMain() { if (await isDisabled()) { console.log('Electrum connection disabled by user. Skipping connectMain call'); return; } let usingPeer = await getRandomHardcodedPeer(); const savedPeer = await getSavedPeer(); if (savedPeer && savedPeer.host && (savedPeer.tcp || savedPeer.ssl)) { usingPeer = savedPeer; } await DefaultPreference.setName('group.io.bluewallet.bluewallet'); try { if (usingPeer.host.endsWith('onion')) { const randomPeer = await getRandomHardcodedPeer(); await DefaultPreference.set(ELECTRUM_HOST, randomPeer.host); await DefaultPreference.set(ELECTRUM_TCP_PORT, randomPeer.tcp); await DefaultPreference.set(ELECTRUM_SSL_PORT, randomPeer.ssl); } else { await DefaultPreference.set(ELECTRUM_HOST, usingPeer.host); await DefaultPreference.set(ELECTRUM_TCP_PORT, usingPeer.tcp); await DefaultPreference.set(ELECTRUM_SSL_PORT, usingPeer.ssl); } WidgetCommunication.reloadAllTimelines(); } catch (e) { // Must be running on Android console.log(e); } try { console.log('begin connection:', JSON.stringify(usingPeer)); mainClient = new ElectrumClient( usingPeer.host.endsWith('.onion') && !(await isTorDaemonDisabled()) ? torrific : global.net, global.tls, usingPeer.ssl || usingPeer.tcp, usingPeer.host, usingPeer.ssl ? 'tls' : 'tcp', ); mainClient.onError = function (e) { console.log('electrum mainClient.onError():', e.message); if (mainConnected) { // most likely got a timeout from electrum ping. lets reconnect // but only if we were previously connected (mainConnected), otherwise theres other // code which does connection retries mainClient.close(); mainConnected = false; // dropping `mainConnected` flag ensures there wont be reconnection race condition if several // errors triggered console.log('reconnecting after socket error'); setTimeout(connectMain, usingPeer.host.endsWith('.onion') ? 4000 : 500); } }; const ver = await mainClient.initElectrum({ client: 'bluewallet', version: '1.4' }); if (ver && ver[0]) { console.log('connected to ', ver); serverName = ver[0]; mainConnected = true; wasConnectedAtLeastOnce = true; if (ver[0].startsWith('ElectrumPersonalServer') || ver[0].startsWith('electrs') || ver[0].startsWith('Fulcrum')) { // TODO: once they release support for batching - disable batching only for lower versions disableBatching = true; } const header = await mainClient.blockchainHeaders_subscribe(); if (header && header.height) { latestBlockheight = header.height; latestBlockheightTimestamp = Math.floor(+new Date() / 1000); } // AsyncStorage.setItem(storageKey, JSON.stringify(peers)); TODO: refactor } } catch (e) { mainConnected = false; console.log('bad connection:', JSON.stringify(usingPeer), e); } if (!mainConnected) { console.log('retry'); connectionAttempt = connectionAttempt + 1; mainClient.close && mainClient.close(); if (connectionAttempt >= 5) { presentNetworkErrorAlert(usingPeer); } else { console.log('reconnection attempt #', connectionAttempt); setTimeout(connectMain, 500); } } } async function presentNetworkErrorAlert(usingPeer) { if (await isDisabled()) { console.log( 'Electrum connection disabled by user. Perhaps we are attempting to show this network error alert after the user disabled connections.', ); return; } Alert.alert( loc.errors.network, loc.formatString( usingPeer ? loc.settings.electrum_unable_to_connect : loc.settings.electrum_error_connect, usingPeer ? { server: `${usingPeer.host}:${usingPeer.ssl ?? usingPeer.tcp}` } : {}, ), [ { text: loc.wallets.list_tryagain, onPress: () => { connectionAttempt = 0; mainClient.close() && mainClient.close(); setTimeout(connectMain, 500); }, style: 'default', }, { text: loc.settings.electrum_reset, onPress: () => { Alert.alert( loc.settings.electrum_reset, loc.settings.electrum_reset_to_default, [ { text: loc._.cancel, style: 'cancel', onPress: () => {}, }, { text: loc._.ok, style: 'destructive', onPress: async () => { await AsyncStorage.setItem(ELECTRUM_HOST, ''); await AsyncStorage.setItem(ELECTRUM_TCP_PORT, ''); await AsyncStorage.setItem(ELECTRUM_SSL_PORT, ''); try { await DefaultPreference.setName('group.io.bluewallet.bluewallet'); await DefaultPreference.clear(ELECTRUM_HOST); await DefaultPreference.clear(ELECTRUM_SSL_PORT); await DefaultPreference.clear(ELECTRUM_TCP_PORT); WidgetCommunication.reloadAllTimelines(); } catch (e) { // Must be running on Android console.log(e); } alert(loc.settings.electrum_saved); setTimeout(connectMain, 500); }, }, ], { cancelable: true }, ); connectionAttempt = 0; mainClient.close() && mainClient.close(); }, style: 'destructive', }, { text: loc._.cancel, onPress: () => { connectionAttempt = 0; mainClient.close() && mainClient.close(); }, style: 'cancel', }, ], { cancelable: false }, ); } /** * Returns random hardcoded electrum server guaranteed to work * at the time of writing. * * @returns {Promise<{tcp, host}|*>} */ async function getRandomHardcodedPeer() { return hardcodedPeers[(hardcodedPeers.length * Math.random()) | 0]; } async function getSavedPeer() { const host = await AsyncStorage.getItem(ELECTRUM_HOST); const port = await AsyncStorage.getItem(ELECTRUM_TCP_PORT); const sslPort = await AsyncStorage.getItem(ELECTRUM_SSL_PORT); return { host, tcp: port, ssl: sslPort }; } /** * Returns random electrum server out of list of servers * previous electrum server told us. Nearly half of them is * usually offline. * Not used for now. * * @returns {Promise<{tcp: number, host: string}>} */ // eslint-disable-next-line async function getRandomDynamicPeer() { try { let peers = JSON.parse(await AsyncStorage.getItem(storageKey)); peers = peers.sort(() => Math.random() - 0.5); // shuffle for (const peer of peers) { const ret = {}; ret.host = peer[1]; for (const item of peer[2]) { if (item.startsWith('t')) { ret.tcp = item.replace('t', ''); } } if (ret.host && ret.tcp) return ret; } return defaultPeer; // failed to find random client, using default } catch (_) { return defaultPeer; // smth went wrong, using default } } /** * * @param address {String} * @returns {Promise} */ module.exports.getBalanceByAddress = async function (address) { if (!mainClient) throw new Error('Electrum client is not connected'); const script = bitcoin.address.toOutputScript(address); const hash = bitcoin.crypto.sha256(script); const reversedHash = Buffer.from(reverse(hash)); const balance = await mainClient.blockchainScripthash_getBalance(reversedHash.toString('hex')); balance.addr = address; return balance; }; module.exports.getConfig = async function () { if (!mainClient) throw new Error('Electrum client is not connected'); return { host: mainClient.host, port: mainClient.port, serverName, connected: mainClient.timeLastCall !== 0 && mainClient.status, }; }; module.exports.getSecondsSinceLastRequest = function () { return mainClient && mainClient.timeLastCall ? (+new Date() - mainClient.timeLastCall) / 1000 : -1; }; /** * * @param address {String} * @returns {Promise} */ module.exports.getTransactionsByAddress = async function (address) { if (!mainClient) throw new Error('Electrum client is not connected'); const script = bitcoin.address.toOutputScript(address); const hash = bitcoin.crypto.sha256(script); const reversedHash = Buffer.from(reverse(hash)); const history = await mainClient.blockchainScripthash_getHistory(reversedHash.toString('hex')); for (const h of history || []) { if (h.tx_hash) txhashHeightCache[h.tx_hash] = h.height; // cache tx height } return history; }; /** * * @param address {String} * @returns {Promise} */ module.exports.getMempoolTransactionsByAddress = async function (address) { if (!mainClient) throw new Error('Electrum client is not connected'); const script = bitcoin.address.toOutputScript(address); const hash = bitcoin.crypto.sha256(script); const reversedHash = Buffer.from(reverse(hash)); return mainClient.blockchainScripthash_getMempool(reversedHash.toString('hex')); }; module.exports.ping = async function () { try { await mainClient.server_ping(); } catch (_) { mainConnected = false; return false; } return true; }; module.exports.getTransactionsFullByAddress = async function (address) { const txs = await this.getTransactionsByAddress(address); const ret = []; for (const tx of txs) { const full = await mainClient.blockchainTransaction_get(tx.tx_hash, true); full.address = address; for (const input of full.vin) { // now we need to fetch previous TX where this VIN became an output, so we can see its amount const prevTxForVin = await mainClient.blockchainTransaction_get(input.txid, true); if (prevTxForVin && prevTxForVin.vout && prevTxForVin.vout[input.vout]) { input.value = prevTxForVin.vout[input.vout].value; // also, we extract destination address from prev output: if (prevTxForVin.vout[input.vout].scriptPubKey && prevTxForVin.vout[input.vout].scriptPubKey.addresses) { input.addresses = prevTxForVin.vout[input.vout].scriptPubKey.addresses; } } } for (const output of full.vout) { if (output.scriptPubKey && output.scriptPubKey.addresses) output.addresses = output.scriptPubKey.addresses; } full.inputs = full.vin; full.outputs = full.vout; delete full.vin; delete full.vout; delete full.hex; // compact delete full.hash; // compact ret.push(full); } return ret; }; /** * * @param addresses {Array} * @param batchsize {Number} * @returns {Promise<{balance: number, unconfirmed_balance: number, addresses: object}>} */ module.exports.multiGetBalanceByAddress = async function (addresses, batchsize) { batchsize = batchsize || 200; if (!mainClient) throw new Error('Electrum client is not connected'); const ret = { balance: 0, unconfirmed_balance: 0, addresses: {} }; const chunks = splitIntoChunks(addresses, batchsize); for (const chunk of chunks) { const scripthashes = []; const scripthash2addr = {}; for (const addr of chunk) { const script = bitcoin.address.toOutputScript(addr); const hash = bitcoin.crypto.sha256(script); let reversedHash = Buffer.from(reverse(hash)); reversedHash = reversedHash.toString('hex'); scripthashes.push(reversedHash); scripthash2addr[reversedHash] = addr; } let balances = []; if (disableBatching) { const promises = []; const index2scripthash = {}; for (let promiseIndex = 0; promiseIndex < scripthashes.length; promiseIndex++) { promises.push(mainClient.blockchainScripthash_getBalance(scripthashes[promiseIndex])); index2scripthash[promiseIndex] = scripthashes[promiseIndex]; } const promiseResults = await Promise.all(promises); for (let resultIndex = 0; resultIndex < promiseResults.length; resultIndex++) { balances.push({ result: promiseResults[resultIndex], param: index2scripthash[resultIndex] }); } } else { balances = await mainClient.blockchainScripthash_getBalanceBatch(scripthashes); } for (const bal of balances) { if (bal.error) console.warn('multiGetBalanceByAddress():', bal.error); ret.balance += +bal.result.confirmed; ret.unconfirmed_balance += +bal.result.unconfirmed; ret.addresses[scripthash2addr[bal.param]] = bal.result; } } return ret; }; module.exports.multiGetUtxoByAddress = async function (addresses, batchsize) { batchsize = batchsize || 100; if (!mainClient) throw new Error('Electrum client is not connected'); const ret = {}; const chunks = splitIntoChunks(addresses, batchsize); for (const chunk of chunks) { const scripthashes = []; const scripthash2addr = {}; for (const addr of chunk) { const script = bitcoin.address.toOutputScript(addr); const hash = bitcoin.crypto.sha256(script); let reversedHash = Buffer.from(reverse(hash)); reversedHash = reversedHash.toString('hex'); scripthashes.push(reversedHash); scripthash2addr[reversedHash] = addr; } let results = []; if (disableBatching) { // ElectrumPersonalServer doesnt support `blockchain.scripthash.listunspent` // electrs OTOH supports it, but we dont know it we are currently connected to it or to EPS // so it is pretty safe to do nothing, as caller can derive UTXO from stored transactions } else { results = await mainClient.blockchainScripthash_listunspentBatch(scripthashes); } for (const utxos of results) { ret[scripthash2addr[utxos.param]] = utxos.result; for (const utxo of ret[scripthash2addr[utxos.param]]) { utxo.address = scripthash2addr[utxos.param]; utxo.txId = utxo.tx_hash; utxo.vout = utxo.tx_pos; delete utxo.tx_pos; delete utxo.tx_hash; } } } return ret; }; module.exports.multiGetHistoryByAddress = async function (addresses, batchsize) { batchsize = batchsize || 100; if (!mainClient) throw new Error('Electrum client is not connected'); const ret = {}; const chunks = splitIntoChunks(addresses, batchsize); for (const chunk of chunks) { const scripthashes = []; const scripthash2addr = {}; for (const addr of chunk) { const script = bitcoin.address.toOutputScript(addr); const hash = bitcoin.crypto.sha256(script); let reversedHash = Buffer.from(reverse(hash)); reversedHash = reversedHash.toString('hex'); scripthashes.push(reversedHash); scripthash2addr[reversedHash] = addr; } let results = []; if (disableBatching) { const promises = []; const index2scripthash = {}; for (let promiseIndex = 0; promiseIndex < scripthashes.length; promiseIndex++) { index2scripthash[promiseIndex] = scripthashes[promiseIndex]; promises.push(mainClient.blockchainScripthash_getHistory(scripthashes[promiseIndex])); } const histories = await Promise.all(promises); for (let historyIndex = 0; historyIndex < histories.length; historyIndex++) { results.push({ result: histories[historyIndex], param: index2scripthash[historyIndex] }); } } else { results = await mainClient.blockchainScripthash_getHistoryBatch(scripthashes); } for (const history of results) { if (history.error) console.warn('multiGetHistoryByAddress():', history.error); ret[scripthash2addr[history.param]] = history.result || []; for (const result of history.result || []) { if (result.tx_hash) txhashHeightCache[result.tx_hash] = result.height; // cache tx height } for (const hist of ret[scripthash2addr[history.param]]) { hist.address = scripthash2addr[history.param]; } } } return ret; }; module.exports.multiGetTransactionByTxid = async function (txids, batchsize, verbose = true) { batchsize = batchsize || 45; // this value is fine-tuned so althrough wallets in test suite will occasionally // throw 'response too large (over 1,000,000 bytes', test suite will pass if (!mainClient) throw new Error('Electrum client is not connected'); const ret = {}; txids = [...new Set(txids)]; // deduplicate just for any case // lets try cache first: const realm = await _getRealm(); const cacheKeySuffix = verbose ? '_verbose' : '_non_verbose'; const keysCacheMiss = []; for (const txid of txids) { const jsonString = realm.objectForPrimaryKey('Cache', txid + cacheKeySuffix); // search for a realm object with a primary key if (jsonString && jsonString.cache_value) { try { ret[txid] = JSON.parse(jsonString.cache_value); } catch (error) { console.log(error, 'cache failed to parse', jsonString.cache_value); } } if (!ret[txid]) keysCacheMiss.push(txid); } if (keysCacheMiss.length === 0) { return ret; } txids = keysCacheMiss; // end cache const chunks = splitIntoChunks(txids, batchsize); for (const chunk of chunks) { let results = []; if (disableBatching) { try { // in case of ElectrumPersonalServer it might not track some transactions (like source transactions for our transactions) // so we wrap it in try-catch. note, when `Promise.all` fails we will get _zero_ results, but we have a fallback for that const promises = []; const index2txid = {}; for (let promiseIndex = 0; promiseIndex < chunk.length; promiseIndex++) { const txid = chunk[promiseIndex]; index2txid[promiseIndex] = txid; promises.push(mainClient.blockchainTransaction_get(txid, verbose)); } const transactionResults = await Promise.all(promises); for (let resultIndex = 0; resultIndex < transactionResults.length; resultIndex++) { let tx = transactionResults[resultIndex]; if (typeof tx === 'string' && verbose) { // apparently electrum server (EPS?) didnt recognize VERBOSE parameter, and sent us plain txhex instead of decoded tx. // lets decode it manually on our end then: tx = txhexToElectrumTransaction(tx); } const txid = index2txid[resultIndex]; results.push({ result: tx, param: txid }); } } catch (_) { // fallback. pretty sure we are connected to EPS. we try getting transactions one-by-one. this way we wont // fail and only non-tracked by EPS transactions will be omitted for (const txid of chunk) { try { let tx = await mainClient.blockchainTransaction_get(txid, verbose); if (typeof tx === 'string' && verbose) { // apparently electrum server (EPS?) didnt recognize VERBOSE parameter, and sent us plain txhex instead of decoded tx. // lets decode it manually on our end then: tx = txhexToElectrumTransaction(tx); } results.push({ result: tx, param: txid }); } catch (_) {} } } } else { results = await mainClient.blockchainTransaction_getBatch(chunk, verbose); } for (const txdata of results) { if (txdata.error && txdata.error.code === -32600) { // response too large // lets do single call, that should go through okay: txdata.result = await mainClient.blockchainTransaction_get(txdata.param, false); // since we used VERBOSE=false, server sent us plain txhex which we must decode on our end: txdata.result = txhexToElectrumTransaction(txdata.result); } ret[txdata.param] = txdata.result; if (ret[txdata.param]) delete ret[txdata.param].hex; // compact } } // saving cache: realm.write(() => { for (const txid of Object.keys(ret)) { if (verbose && (!ret[txid].confirmations || ret[txid].confirmations < 7)) continue; // dont cache immature txs, but only for 'verbose', since its fully decoded tx jsons. non-verbose are just plain // strings txhex realm.create( 'Cache', { cache_key: txid + cacheKeySuffix, cache_value: JSON.stringify(ret[txid]), }, Realm.UpdateMode.Modified, ); } }); return ret; }; /** * Simple waiter till `mainConnected` becomes true (which means * it Electrum was connected in other function), or timeout 30 sec. * * * @returns {Promise | Promise<*>>} */ module.exports.waitTillConnected = async function () { let waitTillConnectedInterval = false; let retriesCounter = 0; if (await isDisabled()) { console.warn('Electrum connections disabled by user. waitTillConnected skipping...'); return; } return new Promise(function (resolve, reject) { waitTillConnectedInterval = setInterval(() => { if (mainConnected) { clearInterval(waitTillConnectedInterval); return resolve(true); } if (wasConnectedAtLeastOnce && mainClient.status === 1) { clearInterval(waitTillConnectedInterval); mainConnected = true; return resolve(true); } if (wasConnectedAtLeastOnce && retriesCounter++ >= 150) { // `wasConnectedAtLeastOnce` needed otherwise theres gona be a race condition with the code that connects // electrum during app startup clearInterval(waitTillConnectedInterval); presentNetworkErrorAlert(); reject(new Error('Waiting for Electrum connection timeout')); } }, 100); }); }; // Returns the value at a given percentile in a sorted numeric array. // "Linear interpolation between closest ranks" method function percentile(arr, p) { if (arr.length === 0) return 0; if (typeof p !== 'number') throw new TypeError('p must be a number'); if (p <= 0) return arr[0]; if (p >= 1) return arr[arr.length - 1]; const index = (arr.length - 1) * p; const lower = Math.floor(index); const upper = lower + 1; const weight = index % 1; if (upper >= arr.length) return arr[lower]; return arr[lower] * (1 - weight) + arr[upper] * weight; } /** * The histogram is an array of [fee, vsize] pairs, where vsizen is the cumulative virtual size of mempool transactions * with a fee rate in the interval [feen-1, feen], and feen-1 > feen. * * @param numberOfBlocks {Number} * @param feeHistorgram {Array} * @returns {number} */ module.exports.calcEstimateFeeFromFeeHistorgam = function (numberOfBlocks, feeHistorgram) { // first, transforming histogram: let totalVsize = 0; const histogramToUse = []; for (const h of feeHistorgram) { let [fee, vsize] = h; let timeToStop = false; if (totalVsize + vsize >= 1000000 * numberOfBlocks) { vsize = 1000000 * numberOfBlocks - totalVsize; // only the difference between current summarized sige to tip of the block timeToStop = true; } histogramToUse.push({ fee, vsize }); totalVsize += vsize; if (timeToStop) break; } // now we have histogram of precisely size for numberOfBlocks. // lets spread it into flat array so its easier to calculate percentile: let histogramFlat = []; for (const hh of histogramToUse) { histogramFlat = histogramFlat.concat(Array(Math.round(hh.vsize / 25000)).fill(hh.fee)); // division is needed so resulting flat array is not too huge } histogramFlat = histogramFlat.sort(function (a, b) { return a - b; }); return Math.round(percentile(histogramFlat, 0.5) || 1); }; module.exports.estimateFees = async function () { let histogram; try { histogram = await Promise.race([mainClient.mempool_getFeeHistogram(), new Promise(resolve => setTimeout(resolve, 29000))]); } catch (_) {} if (!histogram) throw new Error('timeout while getting mempool_getFeeHistogram'); // fetching what electrum (which uses bitcoin core) thinks about fees: const _fast = await module.exports.estimateFee(1); const _medium = await module.exports.estimateFee(18); const _slow = await module.exports.estimateFee(144); // calculating fast fees from mempool: const fast = module.exports.calcEstimateFeeFromFeeHistorgam(1, histogram); // recalculating medium and slow fees using bitcoincore estimations only like relative weights: // (minimum 1 sat, just for any case) const medium = Math.max(1, Math.round((fast * _medium) / _fast)); const slow = Math.max(1, Math.round((fast * _slow) / _fast)); return { fast, medium, slow }; }; /** * Returns the estimated transaction fee to be confirmed within a certain number of blocks * * @param numberOfBlocks {number} The number of blocks to target for confirmation * @returns {Promise} Satoshis per byte */ module.exports.estimateFee = async function (numberOfBlocks) { if (!mainClient) throw new Error('Electrum client is not connected'); numberOfBlocks = numberOfBlocks || 1; const coinUnitsPerKilobyte = await mainClient.blockchainEstimatefee(numberOfBlocks); if (coinUnitsPerKilobyte === -1) return 1; return Math.round(new BigNumber(coinUnitsPerKilobyte).dividedBy(1024).multipliedBy(100000000).toNumber()); }; module.exports.serverFeatures = async function () { if (!mainClient) throw new Error('Electrum client is not connected'); return mainClient.server_features(); }; module.exports.broadcast = async function (hex) { if (!mainClient) throw new Error('Electrum client is not connected'); try { const broadcast = await mainClient.blockchainTransaction_broadcast(hex); return broadcast; } catch (error) { return error; } }; module.exports.broadcastV2 = async function (hex) { if (!mainClient) throw new Error('Electrum client is not connected'); return mainClient.blockchainTransaction_broadcast(hex); }; module.exports.estimateCurrentBlockheight = function () { if (latestBlockheight) { const timeDiff = Math.floor(+new Date() / 1000) - latestBlockheightTimestamp; const extraBlocks = Math.floor(timeDiff / (9.93 * 60)); return latestBlockheight + extraBlocks; } const baseTs = 1587570465609; // uS const baseHeight = 627179; return Math.floor(baseHeight + (+new Date() - baseTs) / 1000 / 60 / 9.93); }; /** * * @param height * @returns {number} Timestamp in seconds */ module.exports.calculateBlockTime = function (height) { if (latestBlockheight) { return Math.floor(latestBlockheightTimestamp + (height - latestBlockheight) * 9.93 * 60); } const baseTs = 1585837504; // sec const baseHeight = 624083; return Math.floor(baseTs + (height - baseHeight) * 9.93 * 60); }; /** * * @param host * @param tcpPort * @param sslPort * @returns {Promise} Whether provided host:port is a valid electrum server */ module.exports.testConnection = async function (host, tcpPort, sslPort) { const isTorDisabled = await isTorDaemonDisabled(); const client = new ElectrumClient( host.endsWith('.onion') && !isTorDisabled ? torrific : global.net, global.tls, sslPort || tcpPort, host, sslPort ? 'tls' : 'tcp', ); client.onError = () => {}; // mute let timeoutId = false; try { const rez = await Promise.race([ new Promise(resolve => { timeoutId = setTimeout(() => resolve('timeout'), host.endsWith('.onion') && !isTorDisabled ? 21000 : 5000); }), client.connect(), ]); if (rez === 'timeout') return false; await client.server_version('2.7.11', '1.4'); await client.server_ping(); return true; } catch (_) { } finally { if (timeoutId) clearTimeout(timeoutId); client.close(); } return false; }; module.exports.forceDisconnect = () => { mainClient.close(); }; module.exports.setBatchingDisabled = () => { disableBatching = true; }; module.exports.setBatchingEnabled = () => { disableBatching = false; }; module.exports.connectMain = connectMain; module.exports.isDisabled = isDisabled; module.exports.setDisabled = setDisabled; module.exports.hardcodedPeers = hardcodedPeers; module.exports.getRandomHardcodedPeer = getRandomHardcodedPeer; module.exports.ELECTRUM_HOST = ELECTRUM_HOST; module.exports.ELECTRUM_TCP_PORT = ELECTRUM_TCP_PORT; module.exports.ELECTRUM_SSL_PORT = ELECTRUM_SSL_PORT; module.exports.ELECTRUM_SERVER_HISTORY = ELECTRUM_SERVER_HISTORY; const splitIntoChunks = function (arr, chunkSize) { const groups = []; let i; for (i = 0; i < arr.length; i += chunkSize) { groups.push(arr.slice(i, i + chunkSize)); } return groups; }; function txhexToElectrumTransaction(txhex) { const tx = bitcoin.Transaction.fromHex(txhex); const ret = { txid: tx.getId(), hash: tx.getId(), version: tx.version, size: Math.ceil(txhex.length / 2), vsize: tx.virtualSize(), weight: tx.weight(), locktime: tx.locktime, vin: [], vout: [], hex: txhex, blockhash: '', confirmations: 0, time: 0, blocktime: 0, }; if (txhashHeightCache[ret.txid]) { // got blockheight where this tx was confirmed ret.confirmations = module.exports.estimateCurrentBlockheight() - txhashHeightCache[ret.txid]; if (ret.confirmations < 0) { // ugly fix for when estimator lags behind ret.confirmations = 1; } ret.time = module.exports.calculateBlockTime(txhashHeightCache[ret.txid]); ret.blocktime = module.exports.calculateBlockTime(txhashHeightCache[ret.txid]); } for (const inn of tx.ins) { const txinwitness = []; if (inn.witness[0]) txinwitness.push(inn.witness[0].toString('hex')); if (inn.witness[1]) txinwitness.push(inn.witness[1].toString('hex')); ret.vin.push({ txid: reverse(inn.hash).toString('hex'), vout: inn.index, scriptSig: { hex: inn.script.toString('hex'), asm: '' }, txinwitness, sequence: inn.sequence, }); } let n = 0; for (const out of tx.outs) { const value = new BigNumber(out.value).dividedBy(100000000).toNumber(); let address = false; let type = false; if (SegwitBech32Wallet.scriptPubKeyToAddress(out.script.toString('hex'))) { address = SegwitBech32Wallet.scriptPubKeyToAddress(out.script.toString('hex')); type = 'witness_v0_keyhash'; } else if (SegwitP2SHWallet.scriptPubKeyToAddress(out.script.toString('hex'))) { address = SegwitP2SHWallet.scriptPubKeyToAddress(out.script.toString('hex')); type = '???'; // TODO } else if (LegacyWallet.scriptPubKeyToAddress(out.script.toString('hex'))) { address = LegacyWallet.scriptPubKeyToAddress(out.script.toString('hex')); type = '???'; // TODO } ret.vout.push({ value, n, scriptPubKey: { asm: '', hex: out.script.toString('hex'), reqSigs: 1, // todo type, addresses: [address], }, }); n++; } return ret; }