(function (EXPORTS) { //btcOperator v1.1.1 /* BTC Crypto and API Operator */ const btcOperator = EXPORTS; //This library uses API provided by chain.so (https://chain.so/) const URL = "https://blockchain.info/"; const fetch_api = btcOperator.fetch = function (api, json_res = true) { return new Promise((resolve, reject) => { console.debug(URL + api); fetch(URL + api).then(response => { if (response.ok) { (json_res ? response.json() : response.text()) .then(result => resolve(result)) .catch(error => reject(error)) } else { response.json() .then(result => reject(result)) .catch(error => reject(error)) } }).catch(error => reject(error)) }) }; const SATOSHI_IN_BTC = 1e8; const util = btcOperator.util = {}; util.Sat_to_BTC = value => parseFloat((value / SATOSHI_IN_BTC).toFixed(8)); util.BTC_to_Sat = value => parseInt(value * SATOSHI_IN_BTC); function get_fee_rate() { return new Promise((resolve, reject) => { fetch('https://api.blockchain.info/mempool/fees').then(response => { if (response.ok) response.json() .then(result => resolve(util.Sat_to_BTC(result.regular))) .catch(error => reject(error)); else reject(response); }).catch(error => reject(error)) }) } const broadcastTx = btcOperator.broadcastTx = rawTxHex => new Promise((resolve, reject) => { let url = 'https://coinb.in/api/?uid=1&key=12345678901234567890123456789012&setmodule=bitcoin&request=sendrawtransaction'; fetch(url, { method: 'POST', headers: { 'Content-Type': 'application/x-www-form-urlencoded' }, body: "rawtx=" + rawTxHex }).then(response => { response.text().then(resultText => { let r = resultText.match(/.*<\/result>/); if (!r) reject(resultText); else { r = r.pop().replace('', '').replace('', ''); if (r == '1') { let txid = resultText.match(/.*<\/txid>/).pop().replace('', '').replace('', ''); resolve(txid); } else if (r == '0') { let error = resultText.match(/.*<\/response>/).pop().replace('', '').replace('', ''); reject(decodeURIComponent(error.replace(/\+/g, " "))); } else reject(resultText); } }).catch(error => reject(error)) }).catch(error => reject(error)) }); Object.defineProperties(btcOperator, { newKeys: { get: () => { let r = coinjs.newKeys(); r.segwitAddress = coinjs.segwitAddress(r.pubkey).address; r.bech32Address = coinjs.bech32Address(r.pubkey).address; return r; } }, pubkey: { value: key => key.length >= 66 ? key : (key.length == 64 ? coinjs.newPubkey(key) : coinjs.wif2pubkey(key).pubkey) }, address: { value: (key, prefix = undefined) => coinjs.pubkey2address(btcOperator.pubkey(key), prefix) }, segwitAddress: { value: key => coinjs.segwitAddress(btcOperator.pubkey(key)).address }, bech32Address: { value: key => coinjs.bech32Address(btcOperator.pubkey(key)).address } }); coinjs.compressed = true; const verifyKey = btcOperator.verifyKey = function (addr, key) { if (!addr || !key) return undefined; switch (coinjs.addressDecode(addr).type) { case "standard": return btcOperator.address(key) === addr; case "multisig": return btcOperator.segwitAddress(key) === addr; case "bech32": return btcOperator.bech32Address(key) === addr; default: return null; } } const validateAddress = btcOperator.validateAddress = function (addr) { if (!addr) return undefined; let type = coinjs.addressDecode(addr).type; if (["standard", "multisig", "bech32", "multisigBech32"].includes(type)) return type; else return false; } btcOperator.multiSigAddress = function (pubKeys, minRequired, bech32 = true) { if (!Array.isArray(pubKeys)) throw "pubKeys must be an array of public keys"; else if (pubKeys.length < minRequired) throw "minimum required should be less than the number of pubKeys"; if (bech32) return coinjs.pubkeys2MultisigAddressBech32(pubKeys, minRequired); else return coinjs.pubkeys2MultisigAddress(pubKeys, minRequired); } //convert from one blockchain to another blockchain (target version) btcOperator.convert = {}; btcOperator.convert.wif = function (source_wif, target_version = coinjs.priv) { let keyHex = decodeLegacy(source_wif).hex; if (!keyHex || keyHex.length < 66 || !/01$/.test(keyHex)) return null; else return encodeLegacy(keyHex, target_version); } btcOperator.convert.legacy2legacy = function (source_addr, target_version = coinjs.pub) { let rawHex = decodeLegacy(source_addr).hex; if (!rawHex) return null; else return encodeLegacy(rawHex, target_version); } btcOperator.convert.legacy2bech = function (source_addr, target_version = coinjs.bech32.version, target_hrp = coinjs.bech32.hrp) { let rawHex = decodeLegacy(source_addr).hex; if (!rawHex) return null; else return encodeBech32(rawHex, target_version, target_hrp); } btcOperator.convert.bech2bech = function (source_addr, target_version = coinjs.bech32.version, target_hrp = coinjs.bech32.hrp) { let rawHex = decodeBech32(source_addr).hex; if (!rawHex) return null; else return encodeBech32(rawHex, target_version, target_hrp); } btcOperator.convert.bech2legacy = function (source_addr, target_version = coinjs.pub) { let rawHex = decodeBech32(source_addr).hex; if (!rawHex) return null; else return encodeLegacy(rawHex, target_version); } function decodeLegacy(source) { var decode = coinjs.base58decode(source); var raw = decode.slice(0, decode.length - 4), checksum = decode.slice(decode.length - 4); var hash = Crypto.SHA256(Crypto.SHA256(raw, { asBytes: true }), { asBytes: true }); if (hash[0] != checksum[0] || hash[1] != checksum[1] || hash[2] != checksum[2] || hash[3] != checksum[3]) return null; let version = raw.shift(); return { version: version, hex: Crypto.util.bytesToHex(raw) } } function encodeLegacy(hex, version) { var bytes = Crypto.util.hexToBytes(hex); bytes.unshift(version); var hash = Crypto.SHA256(Crypto.SHA256(bytes, { asBytes: true }), { asBytes: true }); var checksum = hash.slice(0, 4); return coinjs.base58encode(bytes.concat(checksum)); } function decodeBech32(source) { let decode = coinjs.bech32_decode(source); if (!decode) return null; var raw = decode.data; let version = raw.shift(); raw = coinjs.bech32_convert(raw, 5, 8, false); return { hrp: decode.hrp, version: version, hex: Crypto.util.bytesToHex(raw) } } function encodeBech32(hex, version, hrp) { var bytes = Crypto.util.hexToBytes(hex); bytes = coinjs.bech32_convert(bytes, 8, 5, true); bytes.unshift(version) return coinjs.bech32_encode(hrp, bytes); } //BTC blockchain APIs btcOperator.getBalance = addr => new Promise((resolve, reject) => { fetch_api(`q/addressbalance/${addr}`) .then(result => resolve(util.Sat_to_BTC(result))) .catch(error => reject(error)) }); const BASE_TX_SIZE = 12, BASE_INPUT_SIZE = 41, LEGACY_INPUT_SIZE = 107, BECH32_INPUT_SIZE = 27, BECH32_MULTISIG_INPUT_SIZE = 35, SEGWIT_INPUT_SIZE = 59, MULTISIG_INPUT_SIZE_ES = 351, BASE_OUTPUT_SIZE = 9, LEGACY_OUTPUT_SIZE = 25, BECH32_OUTPUT_SIZE = 23, BECH32_MULTISIG_OUTPUT_SIZE = 34, SEGWIT_OUTPUT_SIZE = 23; function _redeemScript(addr, key) { let decode = coinjs.addressDecode(addr); switch (decode.type) { case "standard": return false; case "multisig": return key ? coinjs.segwitAddress(btcOperator.pubkey(key)).redeemscript : null; case "bech32": return decode.redeemscript; default: return null; } } function _sizePerInput(addr, rs) { switch (coinjs.addressDecode(addr).type) { case "standard": return BASE_INPUT_SIZE + LEGACY_INPUT_SIZE; case "bech32": return BASE_INPUT_SIZE + BECH32_INPUT_SIZE; case "multisigBech32": return BASE_INPUT_SIZE + BECH32_MULTISIG_INPUT_SIZE; case "multisig": switch (coinjs.script().decodeRedeemScript(rs).type) { case "segwit__": return BASE_INPUT_SIZE + SEGWIT_INPUT_SIZE; case "multisig__": return BASE_INPUT_SIZE + MULTISIG_INPUT_SIZE_ES; default: return null; }; default: return null; } } function _sizePerOutput(addr) { switch (coinjs.addressDecode(addr).type) { case "standard": return BASE_OUTPUT_SIZE + LEGACY_OUTPUT_SIZE; case "bech32": return BASE_OUTPUT_SIZE + BECH32_OUTPUT_SIZE; case "multisigBech32": return BASE_OUTPUT_SIZE + BECH32_MULTISIG_OUTPUT_SIZE; case "multisig": return BASE_OUTPUT_SIZE + SEGWIT_OUTPUT_SIZE; default: return null; } } function validateTxParameters(parameters) { let invalids = []; //sender-ids if (parameters.senders) { if (!Array.isArray(parameters.senders)) parameters.senders = [parameters.senders]; parameters.senders.forEach(id => !validateAddress(id) ? invalids.push(id) : null); if (invalids.length) throw "Invalid senders:" + invalids; } if (parameters.privkeys) { if (!Array.isArray(parameters.privkeys)) parameters.privkeys = [parameters.privkeys]; if (parameters.senders.length != parameters.privkeys.length) throw "Array length for senders and privkeys should be equal"; parameters.senders.forEach((id, i) => { let key = parameters.privkeys[i]; if (!verifyKey(id, key)) //verify private-key invalids.push(id); if (key.length === 64) //convert Hex to WIF if needed parameters.privkeys[i] = coinjs.privkey2wif(key); }); if (invalids.length) throw "Invalid private key for address:" + invalids; } //receiver-ids (and change-id) if (!Array.isArray(parameters.receivers)) parameters.receivers = [parameters.receivers]; parameters.receivers.forEach(id => !validateAddress(id) ? invalids.push(id) : null); if (invalids.length) throw "Invalid receivers:" + invalids; if (parameters.change_address && !validateAddress(parameters.change_address)) throw "Invalid change_address:" + parameters.change_address; //fee and amounts if ((typeof parameters.fee !== "number" || parameters.fee <= 0) && parameters.fee !== null) //fee = null (auto calc) throw "Invalid fee:" + parameters.fee; if (!Array.isArray(parameters.amounts)) parameters.amounts = [parameters.amounts]; if (parameters.receivers.length != parameters.amounts.length) throw "Array length for receivers and amounts should be equal"; parameters.amounts.forEach(a => typeof a !== "number" || a <= 0 ? invalids.push(a) : null); if (invalids.length) throw "Invalid amounts:" + invalids; //return return parameters; } function createTransaction(senders, redeemScripts, receivers, amounts, fee, change_address, fee_from_receiver) { return new Promise((resolve, reject) => { let total_amount = parseFloat(amounts.reduce((t, a) => t + a, 0).toFixed(8)); const tx = coinjs.transaction(); let output_size = addOutputs(tx, receivers, amounts, change_address); addInputs(tx, senders, redeemScripts, total_amount, fee, output_size, fee_from_receiver).then(result => { if (result.change_amount > 0 && result.change_amount > result.fee) //add change amount if any (ignore dust change) tx.outs[tx.outs.length - 1].value = util.BTC_to_Sat(result.change_amount); //values are in satoshi if (fee_from_receiver) { //deduce fee from receivers if fee_from_receiver let fee_remaining = util.BTC_to_Sat(result.fee); for (let i = 0; i < tx.outs.length - 1 && fee_remaining > 0; i++) { if (fee_remaining < tx.outs[i].value) { tx.outs[i].value -= fee_remaining; fee_remaining = 0; } else { fee_remaining -= tx.outs[i].value; tx.outs[i].value = 0; } } if (fee_remaining > 0) return reject("Send amount is less than fee"); } tx.outs = tx.outs.filter(o => o.value != 0); //remove all output with value 0 result.output_size = output_size; result.output_amount = total_amount - (fee_from_receiver ? result.fee : 0); result.total_size = BASE_TX_SIZE + output_size + result.input_size; result.transaction = tx; resolve(result); }).catch(error => reject(error)) }) } function addInputs(tx, senders, redeemScripts, total_amount, fee, output_size, fee_from_receiver) { return new Promise((resolve, reject) => { if (fee !== null) { addUTXOs(tx, senders, redeemScripts, fee_from_receiver ? total_amount : total_amount + fee, false).then(result => { result.fee = fee; resolve(result); }).catch(error => reject(error)) } else { get_fee_rate().then(fee_rate => { let net_fee = BASE_TX_SIZE * fee_rate; net_fee += (output_size * fee_rate); (fee_from_receiver ? addUTXOs(tx, senders, redeemScripts, total_amount, false) : addUTXOs(tx, senders, redeemScripts, total_amount + net_fee, fee_rate) ).then(result => { result.fee = parseFloat((net_fee + (result.input_size * fee_rate)).toFixed(8)); result.fee_rate = fee_rate; resolve(result); }).catch(error => reject(error)) }).catch(error => reject(error)) } }) } function addUTXOs(tx, senders, redeemScripts, required_amount, fee_rate, rec_args = {}) { return new Promise((resolve, reject) => { required_amount = parseFloat(required_amount.toFixed(8)); if (typeof rec_args.n === "undefined") { rec_args.n = 0; rec_args.input_size = 0; rec_args.input_amount = 0; } if (required_amount <= 0) return resolve({ input_size: rec_args.input_size, input_amount: rec_args.input_amount, change_amount: required_amount * -1 //required_amount will be -ve of change_amount }); else if (rec_args.n >= senders.length) return reject("Insufficient Balance"); let addr = senders[rec_args.n], rs = redeemScripts[rec_args.n]; let addr_type = coinjs.addressDecode(addr).type; let size_per_input = _sizePerInput(addr, rs); fetch_api(`unspent?active=${addr}`).then(result => { let utxos = result.unspent_outputs; console.debug("add-utxo", addr, rs, required_amount, utxos); for (let i = 0; i < utxos.length && required_amount > 0; i++) { if (!utxos[i].confirmations) //ignore unconfirmed utxo continue; var script; if (!rs || !rs.length) //legacy script script = utxos[i].script; else if (((rs.match(/^00/) && rs.length == 44)) || (rs.length == 40 && rs.match(/^[a-f0-9]+$/gi)) || addr_type === 'multisigBech32') { //redeemScript for segwit/bech32 and multisig (bech32) let s = coinjs.script(); s.writeBytes(Crypto.util.hexToBytes(rs)); s.writeOp(0); s.writeBytes(coinjs.numToBytes(utxos[i].value.toFixed(0), 8)); script = Crypto.util.bytesToHex(s.buffer); } else //redeemScript for multisig (segwit) script = rs; tx.addinput(utxos[i].tx_hash_big_endian, utxos[i].tx_output_n, script, 0xfffffffd /*sequence*/); //0xfffffffd for Replace-by-fee //update track values rec_args.input_size += size_per_input; rec_args.input_amount += util.Sat_to_BTC(utxos[i].value); required_amount -= util.Sat_to_BTC(utxos[i].value); if (fee_rate) //automatic fee calculation (dynamic) required_amount += size_per_input * fee_rate; } rec_args.n += 1; addUTXOs(tx, senders, redeemScripts, required_amount, fee_rate, rec_args) .then(result => resolve(result)) .catch(error => reject(error)) }).catch(error => reject(error)) }) } function addOutputs(tx, receivers, amounts, change_address) { let size = 0; for (let i in receivers) { tx.addoutput(receivers[i], amounts[i]); size += _sizePerOutput(receivers[i]); } tx.addoutput(change_address, 0); size += _sizePerOutput(change_address); return size; } /* function autoFeeCalc(tx) { return new Promise((resolve, reject) => { get_fee_rate().then(fee_rate => { let tx_size = tx.size(); for (var i = 0; i < this.ins.length; i++) switch (tx.extractScriptKey(i).type) { case 'scriptpubkey': tx_size += SIGN_SIZE; break; case 'segwit': case 'multisig': tx_size += SIGN_SIZE * 0.25; break; default: console.warn('Unknown script-type'); tx_size += SIGN_SIZE; } resolve(tx_size * fee_rate); }).catch(error => reject(error)) }) } function editFee(tx, current_fee, target_fee, index = -1) { //values are in satoshi index = parseInt(index >= 0 ? index : tx.outs.length - index); if (index < 0 || index >= tx.outs.length) throw "Invalid index"; let edit_value = parseInt(current_fee - target_fee), //rip of any decimal places current_value = tx.outs[index].value; //could be BigInterger if (edit_value < 0 && edit_value > current_value) throw "Insufficient value at vout"; tx.outs[index].value = current_value instanceof BigInteger ? current_value.add(new BigInteger('' + edit_value)) : parseInt(current_value + edit_value); } */ btcOperator.sendTx = function (senders, privkeys, receivers, amounts, fee = null, options = {}) { return new Promise((resolve, reject) => { createSignedTx(senders, privkeys, receivers, amounts, fee, options).then(result => { debugger; broadcastTx(result.transaction.serialize()) .then(txid => resolve(txid)) .catch(error => reject(error)); }).catch(error => reject(error)) }) } const createSignedTx = btcOperator.createSignedTx = function (senders, privkeys, receivers, amounts, fee = null, options = {}) { return new Promise((resolve, reject) => { try { ({ senders, privkeys, receivers, amounts } = validateTxParameters({ senders, privkeys, receivers, amounts, fee, change_address: options.change_address })); } catch (e) { return reject(e) } let redeemScripts = [], wif_keys = []; for (let i in senders) { let rs = _redeemScript(senders[i], privkeys[i]); //get redeem-script (segwit/bech32) redeemScripts.push(rs); rs === false ? wif_keys.unshift(privkeys[i]) : wif_keys.push(privkeys[i]); //sorting private-keys (wif) } if (redeemScripts.includes(null)) //TODO: segwit return reject("Unable to get redeem-script"); //create transaction createTransaction(senders, redeemScripts, receivers, amounts, fee, options.change_address || senders[0], options.fee_from_receiver).then(result => { let tx = result.transaction; console.debug("Unsigned:", tx.serialize()); new Set(wif_keys).forEach(key => console.debug("Signing key:", key, tx.sign(key, 1 /*sighashtype*/))); //Sign the tx using private key WIF console.debug("Signed:", tx.serialize()); resolve(result); }).catch(error => reject(error)); }) } btcOperator.createTx = function (senders, receivers, amounts, fee = null, options = {}) { return new Promise((resolve, reject) => { try { ({ senders, receivers, amounts } = validateTxParameters({ senders, receivers, amounts, fee, change_address: options.change_address })); } catch (e) { return reject(e) } let redeemScripts = senders.map(id => _redeemScript(id)); if (redeemScripts.includes(null)) //TODO: segwit return reject("Unable to get redeem-script"); //create transaction createTransaction(senders, redeemScripts, receivers, amounts, fee, options.change_address || senders[0], options.fee_from_receiver).then(result => { result.tx_hex = result.transaction.serialize(); delete result.transaction; resolve(result); }).catch(error => reject(error)) }) } btcOperator.createMultiSigTx = function (sender, redeemScript, receivers, amounts, fee = null, options = {}) { return new Promise((resolve, reject) => { //validate tx parameters let addr_type = validateAddress(sender); if (!(["multisig", "multisigBech32"].includes(addr_type))) return reject("Invalid sender (multisig):" + sender); else { let script = coinjs.script(); let decode = (addr_type == "multisig") ? script.decodeRedeemScript(redeemScript) : script.decodeRedeemScriptBech32(redeemScript); if (!decode || decode.address !== sender) return reject("Invalid redeem-script"); } try { ({ receivers, amounts } = validateTxParameters({ receivers, amounts, fee, change_address: options.change_address })); } catch (e) { return reject(e) } //create transaction createTransaction([sender], [redeemScript], receivers, amounts, fee, options.change_address || sender, options.fee_from_receiver).then(result => { result.tx_hex = result.transaction.serialize(); delete result.transaction; resolve(result); }).catch(error => reject(error)) }) } function deserializeTx(tx) { if (typeof tx === 'string' || Array.isArray(tx)) { try { tx = coinjs.transaction().deserialize(tx); } catch { throw "Invalid transaction hex"; } } else if (typeof tx !== 'object' || typeof tx.sign !== 'function') throw "Invalid transaction object"; return tx; } btcOperator.signTx = function (tx, privkeys, sighashtype = 1) { tx = deserializeTx(tx); if (!Array.isArray(privkeys)) privkeys = [privkeys]; for (let i in privkeys) if (privkeys[i].length === 64) privkeys[i] = coinjs.privkey2wif(privkeys[i]); new Set(privkeys).forEach(key => tx.sign(key, sighashtype)); //Sign the tx using private key WIF return tx.serialize(); } const checkSigned = btcOperator.checkSigned = function (tx, bool = true) { tx = deserializeTx(tx); let n = []; for (let i in tx.ins) { var s = tx.extractScriptKey(i); if (s['type'] !== 'multisig' && s['type'] !== 'multisig_bech32') n.push(s.signed == 'true' || (tx.witness[i] && tx.witness[i].length == 2)) else { var rs = coinjs.script().decodeRedeemScript(s.script); //will work for bech32 too, as only address is diff let x = { s: s['signatures'], r: rs['signaturesRequired'], t: rs['pubkeys'].length }; if (x.r > x.t) throw "signaturesRequired is more than publicKeys"; else if (x.s < x.r) n.push(x); else n.push(true); } } return bool ? !(n.filter(x => x !== true).length) : n; } btcOperator.checkIfSameTx = function (tx1, tx2) { tx1 = deserializeTx(tx1); tx2 = deserializeTx(tx2); if (tx1.ins.length !== tx2.ins.length || tx1.outs.length !== tx2.outs.length) return false; for (let i = 0; i < tx1.ins.length; i++) if (tx1.ins[i].outpoint.hash !== tx2.ins[i].outpoint.hash || tx1.ins[i].outpoint.index !== tx2.ins[i].outpoint.index) return false; for (let i = 0; i < tx2.ins.length; i++) if (tx1.outs[i].value !== tx2.outs[i].value || Crypto.util.bytesToHex(tx1.outs[i].script.buffer) !== Crypto.util.bytesToHex(tx2.outs[i].script.buffer)) return false; return true; } const getTxOutput = (txid, i) => new Promise((resolve, reject) => { fetch_api(`rawtx/${txid}`) .then(result => resolve(result.out[i])) .catch(error => reject(error)) }); btcOperator.parseTransaction = function (tx) { return new Promise((resolve, reject) => { tx = deserializeTx(tx); let result = {}; let promises = []; //Parse Inputs for (let i = 0; i < tx.ins.length; i++) promises.push(getTxOutput(tx.ins[i].outpoint.hash, tx.ins[i].outpoint.index)); Promise.all(promises).then(inputs => { result.inputs = inputs.map(inp => Object({ address: inp.addr, value: util.Sat_to_BTC(inp.value) })); let signed = checkSigned(tx, false); result.inputs.forEach((inp, i) => inp.signed = signed[i]); //Parse Outputs result.outputs = tx.outs.map(out => { var address; switch (out.script.chunks[0]) { case 0: //bech32, multisig-bech32 address = encodeBech32(Crypto.util.bytesToHex(out.script.chunks[1]), coinjs.bech32.version, coinjs.bech32.hrp); break; case 169: //segwit, multisig-segwit address = encodeLegacy(Crypto.util.bytesToHex(out.script.chunks[1]), coinjs.multisig); break; case 118: //legacy address = encodeLegacy(Crypto.util.bytesToHex(out.script.chunks[2]), coinjs.pub); } return { address, value: util.Sat_to_BTC(out.value) } }); //Parse Totals result.total_input = parseFloat(result.inputs.reduce((a, inp) => a += inp.value, 0).toFixed(8)); result.total_output = parseFloat(result.outputs.reduce((a, out) => a += out.value, 0).toFixed(8)); result.fee = parseFloat((result.total_input - result.total_output).toFixed(8)); resolve(result); }).catch(error => reject(error)) }) } btcOperator.transactionID = function (tx) { tx = deserializeTx(tx); let clone = coinjs.clone(tx); clone.witness = null; let raw_bytes = Crypto.util.hexToBytes(clone.serialize()); let txid = Crypto.SHA256(Crypto.SHA256(raw_bytes, { asBytes: true }), { asBytes: true }).reverse(); return Crypto.util.bytesToHex(txid); } const getLatestBlock = btcOperator.getLatestBlock = () => new Promise((resolve, reject) => { fetch_api(`q/getblockcount`) .then(result => resolve(result)) .catch(error => reject(error)) }) btcOperator.getTx = txid => new Promise((resolve, reject) => { fetch_api(`rawtx/${txid}`).then(result => { getLatestBlock().then(latest_block => resolve({ block: result.block_height, txid: result.hash, time: result.time * 1000, confirmations: result.block_height === null ? 0 : latest_block - result.block_height, //calculate confirmations using latest block number as api doesnt relay it size: result.size, fee: util.Sat_to_BTC(result.fee), inputs: result.inputs.map(i => Object({ address: i.prev_out.addr, value: util.Sat_to_BTC(i.prev_out.value) })), total_input_value: util.Sat_to_BTC(result.inputs.reduce((a, i) => a + i.prev_out.value, 0)), outputs: result.out.map(o => Object({ address: o.addr, value: util.Sat_to_BTC(o.value) })), total_output_value: util.Sat_to_BTC(result.out.reduce((a, o) => a += o.value, 0)), })) }).catch(error => reject(error)) }); btcOperator.getTx.hex = txid => new Promise((resolve, reject) => { fetch_api(`rawtx/${txid}?format=hex`, false) .then(result => resolve(result)) .catch(error => reject(error)) }) btcOperator.getAddressData = address => new Promise((resolve, reject) => { fetch_api(`rawaddr/${address}`).then(data => { let details = {}; details.balance = util.Sat_to_BTC(data.final_balance); details.address = data.address; details.txs = data.txs.map(tx => { let d = { txid: tx.hash, time: tx.time * 1000, //s to ms block: tx.block_height, } //sender list d.tx_senders = {}; tx.inputs.forEach(i => { if (i.prev_out.addr in d.tx_senders) d.tx_senders[i.prev_out.addr] += i.prev_out.value; else d.tx_senders[i.prev_out.addr] = i.prev_out.value; }); d.tx_input_value = 0; for (let s in d.tx_senders) { let val = d.tx_senders[s]; d.tx_senders[s] = util.Sat_to_BTC(val); d.tx_input_value += val; } d.tx_input_value = util.Sat_to_BTC(d.tx_input_value); //receiver list d.tx_receivers = {}; tx.out.forEach(o => { if (o.addr in d.tx_receivers) d.tx_receivers[o.addr] += o.value; else d.tx_receivers[o.addr] = o.value; }); d.tx_output_value = 0; for (let r in d.tx_receivers) { let val = d.tx_receivers[r]; d.tx_receivers[r] = util.Sat_to_BTC(val); d.tx_output_value += val; } d.tx_output_value = util.Sat_to_BTC(d.tx_output_value); d.tx_fee = util.Sat_to_BTC(tx.fee); //tx type if (tx.result > 0) { //net > 0, balance inc => type=in d.type = "in"; d.amount = util.Sat_to_BTC(tx.result); d.sender = Object.keys(d.tx_senders).filter(s => s !== address); } else if (Object.keys(d.tx_receivers).some(r => r !== address)) { //net < 0, balance dec & receiver present => type=out d.type = "out"; d.amount = util.Sat_to_BTC(tx.result * -1); d.receiver = Object.keys(d.tx_receivers).filter(r => r !== address); d.fee = d.tx_fee; } else { //net < 0 (fee) & no other id in receiver list => type=self d.type = "self"; d.amount = d.tx_receivers[address]; d.address = address } return d; }) resolve(details); }).catch(error => reject(error)) }); btcOperator.getBlock = block => new Promise((resolve, reject) => { fetch_api(`rawblock/${block}`).then(result => resolve({ height: result.height, hash: result.hash, merkle_root: result.mrkl_root, prev_block: result.prev_block, next_block: result.next_block[0], size: result.size, time: result.time * 1000, //s to ms txs: result.tx.map(t => Object({ fee: t.fee, size: t.size, inputs: t.inputs.map(i => Object({ address: i.prev_out.addr, value: util.Sat_to_BTC(i.prev_out.value) })), total_input_value: util.Sat_to_BTC(t.inputs.reduce((a, i) => a + i.prev_out.value, 0)), outputs: t.out.map(o => Object({ address: o.addr, value: util.Sat_to_BTC(o.value) })), total_output_value: util.Sat_to_BTC(t.out.reduce((a, o) => a += o.value, 0)), })) })).catch(error => reject(error)) }); })('object' === typeof module ? module.exports : window.btcOperator = {});