'use strict'; var __extends = (this && this.__extends) || (function () { var extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", { value: true }); //import inherits = require('inherits'); var wallet_1 = require("../wallet/wallet"); var address_1 = require("../utils/address"); var bignumber_1 = require("../utils/bignumber"); var bytes_1 = require("../utils/bytes"); var utf8_1 = require("../utils/utf8"); var rlp_1 = require("../utils/rlp"); var hash_1 = require("../utils/hash"); var networks_1 = require("./networks"); var properties_1 = require("../utils/properties"); var transaction_1 = require("../utils/transaction"); var errors = __importStar(require("../utils/errors")); ; ; function timeoutFunction(setup, cancelled, timeout) { var timer = null; var done = false; return new Promise(function (resolve, reject) { function cancelTimer() { if (timer == null) { return; } clearTimeout(timer); timer = null; } function complete(result) { cancelTimer(); if (done) { return; } resolve(result); done = true; } setup(complete, function (error) { cancelTimer(); if (done) { return; } reject(error); done = true; }); if (typeof (timeout) === 'number' && timeout > 0) { timer = setTimeout(function () { cancelTimer(); if (done) { return; } if (cancelled) { cancelled(); } reject(new Error('timeout')); done = true; }, timeout); } }); } ; ////////////////////////////// // Request and Response Checking // @TODO: not any? function check(format, object) { var result = {}; for (var key in format) { try { var value = format[key](object[key]); if (value !== undefined) { result[key] = value; } } catch (error) { error.checkKey = key; error.checkValue = object[key]; throw error; } } return result; } function allowNull(check, nullValue) { return (function (value) { if (value == null) { return nullValue; } return check(value); }); } function allowFalsish(check, replaceValue) { return (function (value) { if (!value) { return replaceValue; } return check(value); }); } function arrayOf(check) { return (function (array) { if (!Array.isArray(array)) { throw new Error('not an array'); } var result = []; array.forEach(function (value) { result.push(check(value)); }); return result; }); } function checkHash(hash) { if (typeof (hash) === 'string' && bytes_1.hexDataLength(hash) === 32) { return hash; } errors.throwError('invalid hash', errors.INVALID_ARGUMENT, { arg: 'hash', value: hash }); return null; } function checkNumber(number) { return bignumber_1.bigNumberify(number).toNumber(); } // Returns the difficulty as a number, or if too large (i.e. PoA network) null function checkDifficulty(value) { var v = bignumber_1.bigNumberify(value); try { return v.toNumber(); } catch (error) { } return null; } function checkBoolean(value) { if (typeof (value) === 'boolean') { return value; } if (typeof (value) === 'string') { if (value === 'true') { return true; } if (value === 'false') { return false; } } throw new Error('invaid boolean - ' + value); } function checkUint256(uint256) { if (!bytes_1.isHexString(uint256)) { throw new Error('invalid uint256'); } while (uint256.length < 66) { uint256 = '0x0' + uint256.substring(2); } return uint256; } /* function checkString(string) { if (typeof(string) !== 'string') { throw new Error('invalid string'); } return string; } */ function checkBlockTag(blockTag) { if (blockTag == null) { return 'latest'; } if (blockTag === 'earliest') { return '0x0'; } if (blockTag === 'latest' || blockTag === 'pending') { return blockTag; } if (typeof (blockTag) === 'number') { return bytes_1.hexStripZeros(bytes_1.hexlify(blockTag)); } if (bytes_1.isHexString(blockTag)) { return bytes_1.hexStripZeros(blockTag); } throw new Error('invalid blockTag'); } var formatBlock = { hash: checkHash, parentHash: checkHash, number: checkNumber, timestamp: checkNumber, nonce: allowNull(bytes_1.hexlify), difficulty: checkDifficulty, gasLimit: bignumber_1.bigNumberify, gasUsed: bignumber_1.bigNumberify, miner: address_1.getAddress, extraData: bytes_1.hexlify, //transactions: allowNull(arrayOf(checkTransaction)), transactions: allowNull(arrayOf(checkHash)), }; function checkBlock(block) { if (block.author != null && block.miner == null) { block.miner = block.author; } return check(formatBlock, block); } var formatTransaction = { hash: checkHash, blockHash: allowNull(checkHash, null), blockNumber: allowNull(checkNumber, null), transactionIndex: allowNull(checkNumber, null), from: address_1.getAddress, gasPrice: bignumber_1.bigNumberify, gasLimit: bignumber_1.bigNumberify, to: allowNull(address_1.getAddress, null), value: bignumber_1.bigNumberify, nonce: checkNumber, data: bytes_1.hexlify, r: allowNull(checkUint256), s: allowNull(checkUint256), v: allowNull(checkNumber), creates: allowNull(address_1.getAddress, null), raw: allowNull(bytes_1.hexlify), }; function checkTransactionResponse(transaction) { // Rename gas to gasLimit if (transaction.gas != null && transaction.gasLimit == null) { transaction.gasLimit = transaction.gas; } // Some clients (TestRPC) do strange things like return 0x0 for the // 0 address; correct this to be a real address if (transaction.to && bignumber_1.bigNumberify(transaction.to).isZero()) { transaction.to = '0x0000000000000000000000000000000000000000'; } // Rename input to data if (transaction.input != null && transaction.data == null) { transaction.data = transaction.input; } // If to and creates are empty, populate the creates from the transaction if (transaction.to == null && transaction.creates == null) { transaction.creates = address_1.getContractAddress(transaction); } if (!transaction.raw) { // Very loose providers (e.g. TestRPC) don't provide a signature or raw if (transaction.v && transaction.r && transaction.s) { var raw = [ bytes_1.stripZeros(bytes_1.hexlify(transaction.nonce)), bytes_1.stripZeros(bytes_1.hexlify(transaction.gasPrice)), bytes_1.stripZeros(bytes_1.hexlify(transaction.gasLimit)), (transaction.to || "0x"), bytes_1.stripZeros(bytes_1.hexlify(transaction.value || '0x')), bytes_1.hexlify(transaction.data || '0x'), bytes_1.stripZeros(bytes_1.hexlify(transaction.v || '0x')), bytes_1.stripZeros(bytes_1.hexlify(transaction.r)), bytes_1.stripZeros(bytes_1.hexlify(transaction.s)), ]; transaction.raw = rlp_1.encode(raw); } } var result = check(formatTransaction, transaction); var networkId = transaction.networkId; if (bytes_1.isHexString(networkId)) { networkId = bignumber_1.bigNumberify(networkId).toNumber(); } if (typeof (networkId) !== 'number' && result.v != null) { networkId = (result.v - 35) / 2; if (networkId < 0) { networkId = 0; } networkId = parseInt(networkId); } if (typeof (networkId) !== 'number') { networkId = 0; } result.networkId = networkId; // 0x0000... should actually be null if (result.blockHash && result.blockHash.replace(/0/g, '') === 'x') { result.blockHash = null; } return result; } exports.checkTransactionResponse = checkTransactionResponse; var formatTransactionRequest = { from: allowNull(address_1.getAddress), nonce: allowNull(checkNumber), gasLimit: allowNull(bignumber_1.bigNumberify), gasPrice: allowNull(bignumber_1.bigNumberify), to: allowNull(address_1.getAddress), value: allowNull(bignumber_1.bigNumberify), data: allowNull(bytes_1.hexlify), }; function checkTransactionRequest(transaction) { return check(formatTransactionRequest, transaction); } var formatTransactionReceiptLog = { transactionLogIndex: allowNull(checkNumber), transactionIndex: checkNumber, blockNumber: checkNumber, transactionHash: checkHash, address: address_1.getAddress, topics: arrayOf(checkHash), data: bytes_1.hexlify, logIndex: checkNumber, blockHash: checkHash, }; function checkTransactionReceiptLog(log) { return check(formatTransactionReceiptLog, log); } var formatTransactionReceipt = { contractAddress: allowNull(address_1.getAddress, null), transactionIndex: checkNumber, root: allowNull(checkHash), gasUsed: bignumber_1.bigNumberify, logsBloom: allowNull(bytes_1.hexlify), blockHash: checkHash, transactionHash: checkHash, logs: arrayOf(checkTransactionReceiptLog), blockNumber: checkNumber, cumulativeGasUsed: bignumber_1.bigNumberify, status: allowNull(checkNumber) }; function checkTransactionReceipt(transactionReceipt) { //var status = transactionReceipt.status; //var root = transactionReceipt.root; var result = check(formatTransactionReceipt, transactionReceipt); result.logs.forEach(function (entry, index) { if (entry.transactionLogIndex == null) { entry.transactionLogIndex = index; } }); if (transactionReceipt.status != null) { result.byzantium = true; } return result; } function checkTopics(topics) { if (Array.isArray(topics)) { topics.forEach(function (topic) { checkTopics(topic); }); } else if (topics != null) { checkHash(topics); } return topics; } var formatFilter = { fromBlock: allowNull(checkBlockTag, undefined), toBlock: allowNull(checkBlockTag, undefined), address: allowNull(address_1.getAddress, undefined), topics: allowNull(checkTopics, undefined), }; function checkFilter(filter) { return check(formatFilter, filter); } var formatLog = { blockNumber: allowNull(checkNumber), blockHash: allowNull(checkHash), transactionIndex: checkNumber, removed: allowNull(checkBoolean), address: address_1.getAddress, data: allowFalsish(bytes_1.hexlify, '0x'), topics: arrayOf(checkHash), transactionHash: checkHash, logIndex: checkNumber, }; function checkLog(log) { return check(formatLog, log); } function stallPromise(allowNullFunc, executeFunc) { return new Promise(function (resolve, reject) { var attempt = 0; function check() { executeFunc().then(function (result) { // If we have a result, or are allowed null then we're done if (result || allowNullFunc()) { resolve(result); // Otherwise, exponential back-off (up to 10s) our next request } else { attempt++; var timeout = 500 + 250 * parseInt(String(Math.random() * (1 << attempt))); if (timeout > 10000) { timeout = 10000; } setTimeout(check, timeout); } }, function (error) { reject(error); }); } check(); }); } ////////////////////////////// // Event Serializeing function recurse(object, convertFunc) { if (Array.isArray(object)) { var result = []; object.forEach(function (object) { result.push(recurse(object, convertFunc)); }); return result; } return convertFunc(object); } function getEventString(object) { try { return 'address:' + address_1.getAddress(object); } catch (error) { } if (object === 'block' || object === 'pending' || object === 'error') { return object; } else if (bytes_1.hexDataLength(object) === 32) { return 'tx:' + object; } else if (Array.isArray(object)) { // Replace null in the structure with '0x' var stringified = recurse(object, function (object) { if (object == null) { object = '0x'; } return object; }); try { return 'topic:' + rlp_1.encode(stringified); } catch (error) { console.log(error); } } try { throw new Error(); } catch (e) { console.log(e.stack); } throw new Error('invalid event - ' + object); } function parseEventString(event) { if (event.substring(0, 3) === 'tx:') { return { type: 'transaction', hash: event.substring(3) }; } else if (event === 'block' || event === 'pending' || event === 'error') { return { type: event }; } else if (event.substring(0, 8) === 'address:') { return { type: 'address', address: event.substring(8) }; } else if (event.substring(0, 6) === 'topic:') { try { var object = recurse(rlp_1.decode(event.substring(6)), function (object) { if (object === '0x') { object = null; } return object; }); return { type: 'topic', topic: object }; } catch (error) { console.log(error); } } throw new Error('invalid event string'); } ////////////////////////////// // Provider Object /* @TODO: type Event = { eventName: string, listener: any, // @TODO: Function any: any type: string, } */ // @TODO: Perhaps allow a SignDigestAsyncFunc? // Enable a simple signing function and provider to provide a full Signer var ProviderSigner = /** @class */ (function (_super) { __extends(ProviderSigner, _super); function ProviderSigner(address, signDigest, provider) { var _this = _super.call(this) || this; errors.checkNew(_this, ProviderSigner); properties_1.defineReadOnly(_this, '_addressPromise', Promise.resolve(address)); properties_1.defineReadOnly(_this, 'signDigest', signDigest); properties_1.defineReadOnly(_this, 'provider', provider); return _this; } ProviderSigner.prototype.getAddress = function () { return this._addressPromise; }; ProviderSigner.prototype.signMessage = function (message) { return Promise.resolve(bytes_1.joinSignature(this.signDigest(bytes_1.arrayify(hash_1.hashMessage(message))))); }; ProviderSigner.prototype.sendTransaction = function (transaction) { var _this = this; transaction = properties_1.shallowCopy(transaction); if (transaction.chainId == null) { transaction.chainId = this.provider.getNetwork().then(function (network) { return network.chainId; }); } if (transaction.from == null) { transaction.from = this.getAddress(); } if (transaction.gasLimit == null) { transaction.gasLimit = this.provider.estimateGas(transaction); } if (transaction.gasPrice == null) { transaction.gasPrice = this.provider.getGasPrice(); } return properties_1.resolveProperties(transaction).then(function (tx) { var signedTx = transaction_1.serialize(tx, _this.signDigest); return _this._addressPromise.then(function (address) { if (transaction_1.parse(signedTx).from !== address) { errors.throwError('signing address does not match expected address', errors.UNKNOWN_ERROR, { address: transaction_1.parse(signedTx).from, expectedAddress: address, signedTransaction: signedTx }); } return _this.provider.sendTransaction(signedTx); }); }); }; return ProviderSigner; }(wallet_1.Signer)); exports.ProviderSigner = ProviderSigner; var Provider = /** @class */ (function () { function Provider(network) { var _this = this; errors.checkNew(this, Provider); if (network instanceof Promise) { properties_1.defineReadOnly(this, 'ready', network.then(function (network) { properties_1.defineReadOnly(_this, '_network', network); return network; })); } else { var knownNetwork = networks_1.getNetwork((network == null) ? 'homestead' : network); if (knownNetwork) { properties_1.defineReadOnly(this, '_network', knownNetwork); properties_1.defineReadOnly(this, 'ready', Promise.resolve(this._network)); } else { errors.throwError('invalid network', errors.INVALID_ARGUMENT, { arg: 'network', value: network }); } } this._lastBlockNumber = -2; // Balances being watched for changes this._balances = {}; // Events being listened to this._events = {}; this._pollingInterval = 4000; // We use this to track recent emitted events; for example, if we emit a "block" of 100 // and we get a `getBlock(100)` request which would result in null, we should retry // until we get a response. This provides devs with a consistent view. Similarly for // transaction hashes. this._emitted = { block: this._lastBlockNumber }; } Provider.prototype._doPoll = function () { var _this = this; this.getBlockNumber().then(function (blockNumber) { // If the block hasn't changed, meh. if (blockNumber === _this._lastBlockNumber) { return; } if (_this._lastBlockNumber === -2) { _this._lastBlockNumber = blockNumber - 1; } // Notify all listener for each block that has passed for (var i = _this._lastBlockNumber + 1; i <= blockNumber; i++) { if (_this._emitted.block < i) { _this._emitted.block = i; // Evict any transaction hashes or block hashes over 12 blocks // old, since they should not return null anyways Object.keys(_this._emitted).forEach(function (key) { if (key === 'block') { return; } if (_this._emitted[key] > i + 12) { delete _this._emitted[key]; } }); } _this.emit('block', i); } // Sweep balances and remove addresses we no longer have events for var newBalances = {}; // Find all transaction hashes we are waiting on Object.keys(_this._events).forEach(function (eventName) { var event = parseEventString(eventName); if (event.type === 'transaction') { _this.getTransactionReceipt(event.hash).then(function (receipt) { if (!receipt || receipt.blockNumber == null) { return; } _this._emitted['t:' + event.hash.toLowerCase()] = receipt.blockNumber; _this.emit(event.hash, receipt); }); } else if (event.type === 'address') { if (_this._balances[event.address]) { newBalances[event.address] = _this._balances[event.address]; } _this.getBalance(event.address, 'latest').then(function (balance) { var lastBalance = this._balances[event.address]; if (lastBalance && balance.eq(lastBalance)) { return; } this._balances[event.address] = balance; this.emit(event.address, balance); }); } else if (event.type === 'topic') { _this.getLogs({ fromBlock: _this._lastBlockNumber + 1, toBlock: blockNumber, topics: event.topic }).then(function (logs) { if (logs.length === 0) { return; } logs.forEach(function (log) { _this._emitted['b:' + log.blockHash.toLowerCase()] = log.blockNumber; _this._emitted['t:' + log.transactionHash.toLowerCase()] = log.blockNumber; _this.emit(event.topic, log); }); }); } }); _this._lastBlockNumber = blockNumber; _this._balances = newBalances; }); this.doPoll(); }; Provider.prototype.resetEventsBlock = function (blockNumber) { this._lastBlockNumber = this.blockNumber; this._doPoll(); }; Object.defineProperty(Provider.prototype, "network", { get: function () { return this._network; }, enumerable: true, configurable: true }); Provider.prototype.getNetwork = function () { return this.ready; }; Object.defineProperty(Provider.prototype, "blockNumber", { get: function () { if (this._lastBlockNumber < 0) { return null; } return this._lastBlockNumber; }, enumerable: true, configurable: true }); Object.defineProperty(Provider.prototype, "polling", { get: function () { return (this._poller != null); }, set: function (value) { var _this = this; setTimeout(function () { if (value && !_this._poller) { _this._poller = setInterval(_this._doPoll.bind(_this), _this.pollingInterval); } else if (!value && _this._poller) { clearInterval(_this._poller); _this._poller = null; } }, 0); }, enumerable: true, configurable: true }); Object.defineProperty(Provider.prototype, "pollingInterval", { get: function () { return this._pollingInterval; }, set: function (value) { var _this = this; if (typeof (value) !== 'number' || value <= 0 || parseInt(String(value)) != value) { throw new Error('invalid polling interval'); } this._pollingInterval = value; if (this._poller) { clearInterval(this._poller); this._poller = setInterval(function () { _this._doPoll(); }, this._pollingInterval); } }, enumerable: true, configurable: true }); // @TODO: Add .poller which must be an event emitter with a 'start', 'stop' and 'block' event; // this will be used once we move to the WebSocket or other alternatives to polling Provider.prototype.waitForTransaction = function (transactionHash, timeout) { var _this = this; var complete = null; var setup = function (resolve) { complete = function (receipt) { resolve(receipt); }; _this.once(transactionHash, complete); }; var cancelled = function () { _this.removeListener(transactionHash, complete); }; return timeoutFunction(setup, cancelled, timeout); }; Provider.prototype.getBlockNumber = function () { var _this = this; return this.ready.then(function () { return _this.perform('getBlockNumber', {}).then(function (result) { var value = parseInt(result); if (value != result) { throw new Error('invalid response - getBlockNumber'); } return value; }); }); }; Provider.prototype.getGasPrice = function () { var _this = this; return this.ready.then(function () { return _this.perform('getGasPrice', {}).then(function (result) { return bignumber_1.bigNumberify(result); }); }); }; Provider.prototype.getBalance = function (addressOrName, blockTag) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ addressOrName: addressOrName, blockTag: blockTag }).then(function (_a) { var addressOrName = _a.addressOrName, blockTag = _a.blockTag; return _this.resolveName(addressOrName).then(function (address) { var params = { address: address, blockTag: checkBlockTag(blockTag) }; return _this.perform('getBalance', params).then(function (result) { return bignumber_1.bigNumberify(result); }); }); }); }); }; Provider.prototype.getTransactionCount = function (addressOrName, blockTag) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ addressOrName: addressOrName, blockTag: blockTag }).then(function (_a) { var addressOrName = _a.addressOrName, blockTag = _a.blockTag; return _this.resolveName(addressOrName).then(function (address) { var params = { address: address, blockTag: checkBlockTag(blockTag) }; return _this.perform('getTransactionCount', params).then(function (result) { return bignumber_1.bigNumberify(result).toNumber(); }); }); }); }); }; Provider.prototype.getCode = function (addressOrName, blockTag) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ addressOrName: addressOrName, blockTag: blockTag }).then(function (_a) { var addressOrName = _a.addressOrName, blockTag = _a.blockTag; return _this.resolveName(addressOrName).then(function (address) { var params = { address: address, blockTag: checkBlockTag(blockTag) }; return _this.perform('getCode', params).then(function (result) { return bytes_1.hexlify(result); }); }); }); }); }; Provider.prototype.getStorageAt = function (addressOrName, position, blockTag) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ addressOrName: addressOrName, position: position, blockTag: blockTag }).then(function (_a) { var addressOrName = _a.addressOrName, position = _a.position, blockTag = _a.blockTag; return _this.resolveName(addressOrName).then(function (address) { var params = { address: address, blockTag: checkBlockTag(blockTag), position: bytes_1.hexStripZeros(bytes_1.hexlify(position)), }; return _this.perform('getStorageAt', params).then(function (result) { return bytes_1.hexlify(result); }); }); }); }); }; Provider.prototype.sendTransaction = function (signedTransaction) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ signedTransaction: signedTransaction }).then(function (_a) { var signedTransaction = _a.signedTransaction; var params = { signedTransaction: bytes_1.hexlify(signedTransaction) }; return _this.perform('sendTransaction', params).then(function (hash) { if (bytes_1.hexDataLength(hash) !== 32) { throw new Error('invalid response - sendTransaction'); } // A signed transaction always has a from (and we add wait below) var tx = transaction_1.parse(signedTransaction); // Check the hash we expect is the same as the hash the server reported if (tx.hash !== hash) { errors.throwError('Transaction hash mismatch from Proivder.sendTransaction.', errors.UNKNOWN_ERROR, { expectedHash: tx.hash, returnedHash: hash }); } _this._emitted['t:' + tx.hash.toLowerCase()] = 'pending'; tx.wait = function (timeout) { return _this.waitForTransaction(hash, timeout).then(function (receipt) { if (receipt.status === 0) { errors.throwError('transaction failed', errors.CALL_EXCEPTION, { transaction: tx }); } return receipt; }); }; return tx; }); }); }); }; Provider.prototype.call = function (transaction) { var _this = this; var tx = properties_1.shallowCopy(transaction); return this.ready.then(function () { return properties_1.resolveProperties(tx).then(function (tx) { return _this._resolveNames(tx, ['to', 'from']).then(function (tx) { var params = { transaction: checkTransactionRequest(tx) }; return _this.perform('call', params).then(function (result) { return bytes_1.hexlify(result); }); }); }); }); }; Provider.prototype.estimateGas = function (transaction) { var _this = this; var tx = { to: transaction.to, from: transaction.from, data: transaction.data }; return this.ready.then(function () { return properties_1.resolveProperties(tx).then(function (tx) { return _this._resolveNames(tx, ['to', 'from']).then(function (tx) { var params = { transaction: checkTransactionRequest(tx) }; return _this.perform('estimateGas', params).then(function (result) { return bignumber_1.bigNumberify(result); }); }); }); }); }; Provider.prototype.getBlock = function (blockHashOrBlockTag) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ blockHashOrBlockTag: blockHashOrBlockTag }).then(function (_a) { var blockHashOrBlockTag = _a.blockHashOrBlockTag; try { var blockHash = bytes_1.hexlify(blockHashOrBlockTag); if (bytes_1.hexDataLength(blockHash) === 32) { return stallPromise(function () { return (_this._emitted['b:' + blockHash.toLowerCase()] == null); }, function () { return _this.perform('getBlock', { blockHash: blockHash }).then(function (block) { if (block == null) { return null; } return checkBlock(block); }); }); } } catch (error) { } try { var blockTag = checkBlockTag(blockHashOrBlockTag); return stallPromise(function () { if (bytes_1.isHexString(blockTag)) { var blockNumber = parseInt(blockTag.substring(2), 16); return blockNumber > _this._emitted.block; } return true; }, function () { return _this.perform('getBlock', { blockTag: blockTag }).then(function (block) { if (block == null) { return null; } return checkBlock(block); }); }); } catch (error) { } throw new Error('invalid block hash or block tag'); }); }); }; Provider.prototype.getTransaction = function (transactionHash) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ transactionHash: transactionHash }).then(function (_a) { var transactionHash = _a.transactionHash; var params = { transactionHash: checkHash(transactionHash) }; return stallPromise(function () { return (_this._emitted['t:' + transactionHash.toLowerCase()] == null); }, function () { return _this.perform('getTransaction', params).then(function (result) { if (result != null) { result = checkTransactionResponse(result); } return result; }); }); }); }); }; Provider.prototype.getTransactionReceipt = function (transactionHash) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties({ transactionHash: transactionHash }).then(function (_a) { var transactionHash = _a.transactionHash; var params = { transactionHash: checkHash(transactionHash) }; return stallPromise(function () { return (_this._emitted['t:' + transactionHash.toLowerCase()] == null); }, function () { return _this.perform('getTransactionReceipt', params).then(function (result) { if (result != null) { result = checkTransactionReceipt(result); } return result; }); }); }); }); }; Provider.prototype.getLogs = function (filter) { var _this = this; return this.ready.then(function () { return properties_1.resolveProperties(filter).then(function (filter) { return _this._resolveNames(filter, ['address']).then(function (filter) { var params = { filter: checkFilter(filter) }; return _this.perform('getLogs', params).then(function (result) { return arrayOf(checkLog)(result); }); }); }); }); }; Provider.prototype.getEtherPrice = function () { var _this = this; return this.ready.then(function () { return _this.perform('getEtherPrice', {}).then(function (result) { // @TODO: Check valid float return result; }); }); }; // @TODO: Could probably use resolveProperties instead? Provider.prototype._resolveNames = function (object, keys) { var promises = []; var result = properties_1.shallowCopy(object); keys.forEach(function (key) { if (result[key] == null) { return; } promises.push(this.resolveName(result[key]).then(function (address) { result[key] = address; })); }, this); return Promise.all(promises).then(function () { return result; }); }; Provider.prototype._getResolver = function (name) { var _this = this; // Get the resolver from the blockchain return this.getNetwork().then(function (network) { // No ENS... if (!network.ensAddress) { errors.throwError('network does support ENS', errors.UNSUPPORTED_OPERATION, { operation: 'ENS', network: network.name }); } // keccak256('resolver(bytes32)') var data = '0x0178b8bf' + hash_1.namehash(name).substring(2); var transaction = { to: network.ensAddress, data: data }; return _this.call(transaction).then(function (data) { // extract the address from the data if (bytes_1.hexDataLength(data) !== 32) { return null; } return address_1.getAddress(bytes_1.hexDataSlice(data, 12)); }); }); }; Provider.prototype.resolveName = function (name) { var _this = this; // If it is a promise, resolve it then recurse if (name instanceof Promise) { return name.then(function (addressOrName) { return _this.resolveName(addressOrName); }); } // If it is already an address, nothing to resolve try { return Promise.resolve(address_1.getAddress(name)); } catch (error) { } var self = this; var nodeHash = hash_1.namehash(name); // Get the addr from the resovler return this._getResolver(name).then(function (resolverAddress) { // keccak256('addr(bytes32)') var data = '0x3b3b57de' + nodeHash.substring(2); var transaction = { to: resolverAddress, data: data }; return self.call(transaction); // extract the address from the data }).then(function (data) { if (bytes_1.hexDataLength(data) !== 32) { return null; } var address = address_1.getAddress(bytes_1.hexDataSlice(data, 12)); if (address === '0x0000000000000000000000000000000000000000') { return null; } return address; }); }; Provider.prototype.lookupAddress = function (address) { var _this = this; if (address instanceof Promise) { return address.then(function (address) { return _this.lookupAddress(address); }); } address = address_1.getAddress(address); var name = address.substring(2) + '.addr.reverse'; var nodehash = hash_1.namehash(name); var self = this; return this._getResolver(name).then(function (resolverAddress) { if (!resolverAddress) { return null; } // keccak('name(bytes32)') var data = '0x691f3431' + nodehash.substring(2); var transaction = { to: resolverAddress, data: data }; return self.call(transaction); }).then(function (data) { // Strip off the "0x" data = data.substring(2); // Strip off the dynamic string pointer (0x20) if (data.length < 64) { return null; } data = data.substring(64); if (data.length < 64) { return null; } var length = bignumber_1.bigNumberify('0x' + data.substring(0, 64)).toNumber(); data = data.substring(64); if (2 * length > data.length) { return null; } var name = utf8_1.toUtf8String('0x' + data.substring(0, 2 * length)); // Make sure the reverse record matches the foward record return self.resolveName(name).then(function (addr) { if (addr != address) { return null; } return name; }); }); }; Provider.prototype.doPoll = function () { }; Provider.prototype.perform = function (method, params) { errors.throwError(method + ' not implemented', errors.NOT_IMPLEMENTED, { operation: method }); return null; }; Provider.prototype._startPending = function () { console.log('WARNING: this provider does not support pending events'); }; Provider.prototype._stopPending = function () { }; Provider.prototype.on = function (eventName, listener) { var key = getEventString(eventName); if (!this._events[key]) { this._events[key] = []; } this._events[key].push({ eventName: eventName, listener: listener, type: 'on' }); if (key === 'pending') { this._startPending(); } this.polling = true; return this; }; Provider.prototype.once = function (eventName, listener) { var key = getEventString(eventName); if (!this._events[key]) { this._events[key] = []; } this._events[key].push({ eventName: eventName, listener: listener, type: 'once' }); if (key === 'pending') { this._startPending(); } this.polling = true; return this; }; Provider.prototype.emit = function (eventName) { var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } var result = false; var key = getEventString(eventName); //var args = Array.prototype.slice.call(arguments, 1); var listeners = this._events[key]; if (!listeners) { return result; } for (var i = 0; i < listeners.length; i++) { var listener = listeners[i]; if (listener.type === 'once') { listeners.splice(i, 1); i--; } try { listener.listener.apply(this, args); result = true; } catch (error) { console.log('Event Listener Error: ' + error.message); } } if (listeners.length === 0) { delete this._events[key]; if (key === 'pending') { this._stopPending(); } } if (this.listenerCount() === 0) { this.polling = false; } return result; }; // @TODO: type EventName Provider.prototype.listenerCount = function (eventName) { if (!eventName) { var result = 0; for (var key in this._events) { result += this._events[key].length; } return result; } var listeners = this._events[getEventString(eventName)]; if (!listeners) { return 0; } return listeners.length; }; Provider.prototype.listeners = function (eventName) { var listeners = this._events[getEventString(eventName)]; if (!listeners) { return []; } var result = []; for (var i = 0; i < listeners.length; i++) { result.push(listeners[i].listener); } return result; }; Provider.prototype.removeAllListeners = function (eventName) { delete this._events[getEventString(eventName)]; if (this.listenerCount() === 0) { this.polling = false; } return this; }; Provider.prototype.removeListener = function (eventName, listener) { var eventNameString = getEventString(eventName); var listeners = this._events[eventNameString]; if (!listeners) { return this; } for (var i = 0; i < listeners.length; i++) { if (listeners[i].listener === listener) { listeners.splice(i, 1); break; } } if (listeners.length === 0) { this.removeAllListeners(eventName); } return this; }; return Provider; }()); exports.Provider = Provider;