'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 }); var constants_1 = require("./constants"); var errors = __importStar(require("./errors")); var abi_coder_1 = require("./utils/abi-coder"); var address_1 = require("./utils/address"); var bignumber_1 = require("./utils/bignumber"); var bytes_1 = require("./utils/bytes"); var interface_1 = require("./utils/interface"); var properties_1 = require("./utils/properties"); /////////////////////////////// // Imported Abstracts var abstract_provider_1 = require("./providers/abstract-provider"); var abstract_signer_1 = require("./abstract-signer"); /////////////////////////////// var VoidSigner = /** @class */ (function (_super) { __extends(VoidSigner, _super); function VoidSigner(address, provider) { var _this = _super.call(this) || this; properties_1.defineReadOnly(_this, 'address', address); properties_1.defineReadOnly(_this, 'provider', provider); return _this; } VoidSigner.prototype.getAddress = function () { return Promise.resolve(this.address); }; VoidSigner.prototype._fail = function (message, operation) { return Promise.resolve().then(function () { errors.throwError(message, errors.UNSUPPORTED_OPERATION, { operation: operation }); }); }; VoidSigner.prototype.signMessage = function (message) { return this._fail('VoidSigner cannot sign messages', 'signMessage'); }; VoidSigner.prototype.sendTransaction = function (transaction) { return this._fail('VoidSigner cannot sign transactions', 'sendTransaction'); }; VoidSigner.prototype.connect = function (provider) { return new VoidSigner(this.address, provider); }; return VoidSigner; }(abstract_signer_1.Signer)); exports.VoidSigner = VoidSigner; var allowedTransactionKeys = { chainId: true, data: true, from: true, gasLimit: true, gasPrice: true, nonce: true, to: true, value: true }; // Recursively replaces ENS names with promises to resolve the name and // stalls until all promises have returned // @TODO: Expand this to resolve any promises too function resolveAddresses(provider, value, paramType) { if (Array.isArray(paramType)) { var promises_1 = []; paramType.forEach(function (paramType, index) { var v = null; if (Array.isArray(value)) { v = value[index]; } else { v = value[paramType.name]; } promises_1.push(resolveAddresses(provider, v, paramType)); }); return Promise.all(promises_1); } if (paramType.type === 'address') { return provider.resolveName(value); } if (paramType.type === 'tuple') { return resolveAddresses(provider, value, paramType.components); } // Strips one level of array indexing off the end to recuse into var isArrayMatch = paramType.type.match(/(.*)(\[[0-9]*\]$)/); if (isArrayMatch) { if (!Array.isArray(value)) { throw new Error('invalid value for array'); } var promises = []; var subParamType = { components: paramType.components, type: isArrayMatch[1], }; value.forEach(function (v) { promises.push(resolveAddresses(provider, v, subParamType)); }); return Promise.all(promises); } return Promise.resolve(value); } function runMethod(contract, functionName, estimateOnly) { var method = contract.interface.functions[functionName]; return function () { var params = []; for (var _i = 0; _i < arguments.length; _i++) { params[_i] = arguments[_i]; } var tx = {}; // If 1 extra parameter was passed in, it contains overrides if (params.length === method.inputs.length + 1 && typeof (params[params.length - 1]) === 'object') { tx = properties_1.shallowCopy(params.pop()); // Check for unexpected keys (e.g. using "gas" instead of "gasLimit") for (var key in tx) { if (!allowedTransactionKeys[key]) { throw new Error('unknown transaction override ' + key); } } } if (params.length != method.inputs.length) { throw new Error('incorrect number of arguments'); } // Check overrides make sense ['data', 'to'].forEach(function (key) { if (tx[key] != null) { errors.throwError('cannot override ' + key, errors.UNSUPPORTED_OPERATION, { operation: key }); } }); // Send to the contract address (after checking the contract is deployed) tx.to = contract.deployed().then(function () { return contract.addressPromise; }); return resolveAddresses(contract.provider, params, method.inputs).then(function (params) { tx.data = method.encode(params); if (method.type === 'call') { // Call (constant functions) always cost 0 ether if (estimateOnly) { return Promise.resolve(constants_1.Zero); } if (!contract.provider) { errors.throwError('call (constant functions) require a provider or a signer with a provider', errors.UNSUPPORTED_OPERATION, { operation: 'call' }); } // Check overrides make sense ['gasLimit', 'gasPrice', 'value'].forEach(function (key) { if (tx[key] != null) { throw new Error('call cannot override ' + key); } }); if (tx.from == null && contract.signer) { tx.from = contract.signer.getAddress(); } return contract.provider.call(tx).then(function (value) { if ((bytes_1.hexDataLength(value) % 32) === 4 && bytes_1.hexDataSlice(value, 0, 4) === '0x08c379a0') { var reason = abi_coder_1.defaultAbiCoder.decode(['string'], bytes_1.hexDataSlice(value, 4)); errors.throwError('call revert exception', errors.CALL_EXCEPTION, { address: contract.address, args: params, method: method.signature, errorSignature: 'Error(string)', errorArgs: [reason], reason: reason, transaction: tx }); } try { var result = method.decode(value); if (method.outputs.length === 1) { result = result[0]; } return result; } catch (error) { if (value === '0x' && method.outputs.length > 0) { errors.throwError('call exception', errors.CALL_EXCEPTION, { address: contract.address, method: method.signature, args: params }); } throw error; } }); } else if (method.type === 'transaction') { // Only computing the transaction estimate if (estimateOnly) { if (!contract.provider) { errors.throwError('estimate gas require a provider or a signer with a provider', errors.UNSUPPORTED_OPERATION, { operation: 'estimateGas' }); } if (tx.from == null && contract.signer) { tx.from = contract.signer.getAddress(); } return contract.provider.estimateGas(tx); } if (tx.gasLimit == null && method.gas != null) { tx.gasLimit = bignumber_1.bigNumberify(method.gas).add(21000); } if (!contract.signer) { errors.throwError('sending a transaction require a signer', errors.UNSUPPORTED_OPERATION, { operation: 'sendTransaction' }); } // Make sure they aren't overriding something they shouldn't if (tx.from != null) { errors.throwError('cannot override from in a transaction', errors.UNSUPPORTED_OPERATION, { operation: 'sendTransaction' }); } return contract.signer.sendTransaction(tx); } throw new Error('invalid type - ' + method.type); return null; }); }; } function getEventTag(filter) { if (filter.address && (filter.topics == null || filter.topics.length === 0)) { return '*'; } return (filter.address || '*') + '@' + (filter.topics ? filter.topics.join(':') : ''); } var Contract = /** @class */ (function () { // https://github.com/Microsoft/TypeScript/issues/5453 // Once this issue is resolved (there are open PR) we can do this nicer // by making addressOrName default to null for 2 operand calls. :) function Contract(addressOrName, contractInterface, signerOrProvider) { var _this = this; errors.checkNew(this, Contract); // @TODO: Maybe still check the addressOrName looks like a valid address or name? //address = getAddress(address); if (interface_1.Interface.isInterface(contractInterface)) { properties_1.defineReadOnly(this, 'interface', contractInterface); } else { properties_1.defineReadOnly(this, 'interface', new interface_1.Interface(contractInterface)); } if (abstract_signer_1.Signer.isSigner(signerOrProvider)) { properties_1.defineReadOnly(this, 'provider', signerOrProvider.provider); properties_1.defineReadOnly(this, 'signer', signerOrProvider); } else if (abstract_provider_1.Provider.isProvider(signerOrProvider)) { properties_1.defineReadOnly(this, 'provider', signerOrProvider); properties_1.defineReadOnly(this, 'signer', null); } else { errors.throwError('invalid signer or provider', errors.INVALID_ARGUMENT, { arg: 'signerOrProvider', value: signerOrProvider }); } properties_1.defineReadOnly(this, 'estimate', {}); properties_1.defineReadOnly(this, 'functions', {}); properties_1.defineReadOnly(this, 'filters', {}); Object.keys(this.interface.events).forEach(function (eventName) { var event = _this.interface.events[eventName]; properties_1.defineReadOnly(_this.filters, eventName, function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return { address: _this.address, topics: event.encodeTopics(args) }; }); }); this._events = []; properties_1.defineReadOnly(this, 'address', addressOrName); if (this.provider) { properties_1.defineReadOnly(this, 'addressPromise', this.provider.resolveName(addressOrName).then(function (address) { if (address == null) { throw new Error('name not found'); } return address; }).catch(function (error) { console.log('ERROR: Cannot find Contract - ' + addressOrName); throw error; })); } else { try { properties_1.defineReadOnly(this, 'addressPromise', Promise.resolve(address_1.getAddress(addressOrName))); } catch (error) { // Without a provider, we cannot use ENS names errors.throwError('provider is required to use non-address contract address', errors.INVALID_ARGUMENT, { argument: 'addressOrName', value: addressOrName }); } } Object.keys(this.interface.functions).forEach(function (name) { var run = runMethod(_this, name, false); if (_this[name] == null) { properties_1.defineReadOnly(_this, name, run); } else { console.log('WARNING: Multiple definitions for ' + name); } if (_this.functions[name] == null) { properties_1.defineReadOnly(_this.functions, name, run); properties_1.defineReadOnly(_this.estimate, name, runMethod(_this, name, true)); } }); } // @TODO: Allow timeout? Contract.prototype.deployed = function () { var _this = this; if (!this._deployed) { // If we were just deployed, we know the transaction we should occur in if (this.deployTransaction) { this._deployed = this.deployTransaction.wait().then(function () { return _this; }); } else { // @TODO: Once we allow a timeout to be passed in, we will wait // up to that many blocks for getCode // Otherwise, poll for our code to be deployed this._deployed = this.provider.getCode(this.address).then(function (code) { if (code === '0x') { errors.throwError('contract not deployed', errors.UNSUPPORTED_OPERATION, { contractAddress: _this.address, operation: 'getDeployed' }); } return _this; }); } } return this._deployed; }; // @TODO: // estimateFallback(overrides?: TransactionRequest): Promise // @TODO: // estimateDeploy(bytecode: string, ...args): Promise Contract.prototype.fallback = function (overrides) { var _this = this; if (!this.signer) { errors.throwError('sending a transaction require a signer', errors.UNSUPPORTED_OPERATION, { operation: 'sendTransaction(fallback)' }); } var tx = properties_1.shallowCopy(overrides || {}); ['from', 'to'].forEach(function (key) { if (tx[key] == null) { return; } errors.throwError('cannot override ' + key, errors.UNSUPPORTED_OPERATION, { operation: key }); }); tx.to = this.addressPromise; return this.deployed().then(function () { return _this.signer.sendTransaction(tx); }); }; // Reconnect to a different signer or provider Contract.prototype.connect = function (signerOrProvider) { if (typeof (signerOrProvider) === 'string') { signerOrProvider = new VoidSigner(signerOrProvider, this.provider); } var contract = new Contract(this.address, this.interface, signerOrProvider); if (this.deployTransaction) { properties_1.defineReadOnly(contract, 'deployTransaction', this.deployTransaction); } return contract; }; // Re-attach to a different on=chain instance of this contract Contract.prototype.attach = function (addressOrName) { return new Contract(addressOrName, this.interface, this.signer || this.provider); }; Contract.isIndexed = function (value) { return interface_1.Interface.isIndexed(value); }; Contract.prototype._getEventFilter = function (eventName) { var _this = this; if (typeof (eventName) === 'string') { // Listen for any event if (eventName === '*') { return { prepareEvent: function (e) { var parsed = _this.interface.parseLog(e); if (parsed) { e.args = parsed.values; e.decode = parsed.decode; e.event = parsed.name; e.eventSignature = parsed.signature; } return [e]; }, eventTag: '*', filter: { address: this.address }, }; } // Normalize the eventName if (eventName.indexOf('(') !== -1) { eventName = abi_coder_1.formatSignature(abi_coder_1.parseSignature('event ' + eventName)); } var event_1 = this.interface.events[eventName]; if (!event_1) { errors.throwError('unknown event - ' + eventName, errors.INVALID_ARGUMENT, { argumnet: 'eventName', value: eventName }); } var filter_1 = { address: this.address, topics: [event_1.topic] }; return { prepareEvent: function (e) { var args = event_1.decode(e.data, e.topics); e.args = args; var result = Array.prototype.slice.call(args); result.push(e); return result; }, event: event_1, eventTag: getEventTag(filter_1), filter: filter_1 }; } var filter = { address: this.address }; // Find the matching event in the ABI; if none, we still allow filtering // since it may be a filter for an otherwise unknown event var event = null; if (eventName.topics && eventName.topics[0]) { filter.topics = eventName.topics; for (var name_1 in this.interface.events) { if (name_1.indexOf('(') === -1) { continue; } var e = this.interface.events[name_1]; if (e.topic === eventName.topics[0].toLowerCase()) { event = e; break; } } } return { prepareEvent: function (e) { if (!event) { return [e]; } var args = event.decode(e.data, e.topics); e.args = args; var result = Array.prototype.slice.call(args); result.push(e); return result; }, event: event, eventTag: getEventTag(filter), filter: filter }; }; Contract.prototype._addEventListener = function (eventFilter, listener, once) { var _this = this; if (!this.provider) { errors.throwError('events require a provider or a signer with a provider', errors.UNSUPPORTED_OPERATION, { operation: 'once' }); } var wrappedListener = function (log) { var event = properties_1.deepCopy(log); var args = eventFilter.prepareEvent(event); if (eventFilter.event) { event.decode = eventFilter.event.decode; event.event = eventFilter.event.name; event.eventSignature = eventFilter.event.signature; } event.removeListener = function () { _this.removeListener(eventFilter.filter, listener); }; event.getBlock = function () { return _this.provider.getBlock(log.blockHash); }; event.getTransaction = function () { return _this.provider.getTransaction(log.transactionHash); }; event.getTransactionReceipt = function () { return _this.provider.getTransactionReceipt(log.transactionHash); }; _this.emit.apply(_this, [eventFilter.filter].concat(args)); }; this.provider.on(eventFilter.filter, wrappedListener); this._events.push({ eventFilter: eventFilter, listener: listener, wrappedListener: wrappedListener, once: once }); }; Contract.prototype.on = function (event, listener) { this._addEventListener(this._getEventFilter(event), listener, false); return this; }; Contract.prototype.once = function (event, listener) { this._addEventListener(this._getEventFilter(event), listener, true); return this; }; Contract.prototype.addListener = function (eventName, listener) { return this.on(eventName, listener); }; Contract.prototype.emit = function (eventName) { var _this = this; var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } if (!this.provider) { return false; } var result = false; var eventFilter = this._getEventFilter(eventName); this._events = this._events.filter(function (event) { // Not this event (keep it for later) if (event.eventFilter.eventTag !== eventFilter.eventTag) { return true; } // Call the callback in the next event loop setTimeout(function () { event.listener.apply(_this, args); }, 0); result = true; // Reschedule it if it not "once" return !(event.once); }); return result; }; Contract.prototype.listenerCount = function (eventName) { if (!this.provider) { return 0; } var eventFilter = this._getEventFilter(eventName); return this._events.filter(function (event) { return event.eventFilter.eventTag === eventFilter.eventTag; }).length; }; Contract.prototype.listeners = function (eventName) { if (!this.provider) { return []; } var eventFilter = this._getEventFilter(eventName); return this._events.filter(function (event) { return event.eventFilter.eventTag === eventFilter.eventTag; }).map(function (event) { return event.listener; }); }; Contract.prototype.removeAllListeners = function (eventName) { if (!this.provider) { return this; } var eventFilter = this._getEventFilter(eventName); this._events = this._events.filter(function (event) { return event.eventFilter.eventTag !== eventFilter.eventTag; }); return this; }; Contract.prototype.removeListener = function (eventName, listener) { var _this = this; if (!this.provider) { return this; } var found = false; var eventFilter = this._getEventFilter(eventName); this._events = this._events.filter(function (event) { // Make sure this event and listener match if (event.eventFilter.eventTag !== eventFilter.eventTag) { return true; } if (event.listener !== listener) { return true; } _this.provider.removeListener(event.eventFilter.filter, event.wrappedListener); // Already found a matching event in a previous loop if (found) { return true; } // REmove this event (returning false filters us out) found = true; return false; }); return this; }; return Contract; }()); exports.Contract = Contract; var ContractFactory = /** @class */ (function () { function ContractFactory(contractInterface, bytecode, signer) { var bytecodeHex = null; // Allow the bytecode object from the Solidity compiler if (typeof (bytecode) === 'string') { bytecodeHex = bytecode; } else if (bytes_1.isArrayish(bytecode)) { bytecodeHex = bytes_1.hexlify(bytecode); } else if (typeof (bytecode.object) === 'string') { bytecodeHex = bytecode.object; } else { errors.throwError('bytecode must be a valid hex string', errors.INVALID_ARGUMENT, { arg: 'bytecode', value: bytecode }); } // Make sure it is 0x prefixed if (bytecodeHex.substring(0, 2) !== '0x') { bytecodeHex = '0x' + bytecodeHex; } if (!bytes_1.isHexString(bytecodeHex)) { errors.throwError('bytecode must be a valid hex string', errors.INVALID_ARGUMENT, { arg: 'bytecode', value: bytecode }); } if ((bytecodeHex.length % 2) !== 0) { errors.throwError('bytecode must be valid data (even length)', errors.INVALID_ARGUMENT, { arg: 'bytecode', value: bytecode }); } properties_1.defineReadOnly(this, 'bytecode', bytecodeHex); if (interface_1.Interface.isInterface(contractInterface)) { properties_1.defineReadOnly(this, 'interface', contractInterface); } else { properties_1.defineReadOnly(this, 'interface', new interface_1.Interface(contractInterface)); } if (signer && !abstract_signer_1.Signer.isSigner(signer)) { errors.throwError('invalid signer', errors.INVALID_ARGUMENT, { arg: 'signer', value: null }); } properties_1.defineReadOnly(this, 'signer', signer || null); } ContractFactory.prototype.getDeployTransaction = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } var tx = {}; // If we have 1 additional argument, we allow transaction overrides if (args.length === this.interface.deployFunction.inputs.length + 1) { tx = properties_1.shallowCopy(args.pop()); for (var key in tx) { if (!allowedTransactionKeys[key]) { throw new Error('unknown transaction override ' + key); } } } // Do not allow these to be overridden in a deployment transaction ['data', 'from', 'to'].forEach(function (key) { if (tx[key] == null) { return; } errors.throwError('cannot override ' + key, errors.UNSUPPORTED_OPERATION, { operation: key }); }); // Make sure the call matches the constructor signature errors.checkArgumentCount(args.length, this.interface.deployFunction.inputs.length, 'in Contract constructor'); // Set the data to the bytecode + the encoded constructor arguments tx.data = this.interface.deployFunction.encode(this.bytecode, args); return tx; }; ContractFactory.prototype.deploy = function () { var _this = this; var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } // Get the deployment transaction (with optional overrides) var tx = this.getDeployTransaction.apply(this, args); // Send the deployment transaction return this.signer.sendTransaction(tx).then(function (tx) { var contract = new Contract(address_1.getContractAddress(tx), _this.interface, _this.signer); properties_1.defineReadOnly(contract, 'deployTransaction', tx); return contract; }); }; ContractFactory.prototype.attach = function (address) { return new Contract(address, this.interface, this.signer); }; ContractFactory.prototype.connect = function (signer) { return new ContractFactory(this.interface, this.bytecode, signer); }; ContractFactory.fromSolidity = function (compilerOutput, signer) { if (compilerOutput == null) { errors.throwError('missing compiler output', errors.MISSING_ARGUMENT, { argument: 'compilerOutput' }); } if (typeof (compilerOutput) === 'string') { compilerOutput = JSON.parse(compilerOutput); } var abi = compilerOutput.abi; var bytecode = null; if (compilerOutput.bytecode) { bytecode = compilerOutput.bytecode; } else if (compilerOutput.evm && compilerOutput.evm.bytecode) { bytecode = compilerOutput.evm.bytecode; } return new ContractFactory(abi, bytecode, signer); }; return ContractFactory; }()); exports.ContractFactory = ContractFactory;