"use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { 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 extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __spreadArrays = (this && this.__spreadArrays) || function () { for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length; for (var r = Array(s), k = 0, i = 0; i < il; i++) for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++) r[k] = a[j]; return r; }; Object.defineProperty(exports, "__esModule", { value: true }); var abi_1 = require("@ethersproject/abi"); var abstract_provider_1 = require("@ethersproject/abstract-provider"); var abstract_signer_1 = require("@ethersproject/abstract-signer"); var address_1 = require("@ethersproject/address"); var bignumber_1 = require("@ethersproject/bignumber"); var bytes_1 = require("@ethersproject/bytes"); var properties_1 = require("@ethersproject/properties"); // @TOOD remove dependences transactions var logger_1 = require("@ethersproject/logger"); var _version_1 = require("./_version"); var logger = new logger_1.Logger(_version_1.version); ; ; /////////////////////////////// var allowedTransactionKeys = { chainId: true, data: true, from: true, gasLimit: true, gasPrice: true, nonce: true, to: true, value: true }; function resolveName(resolver, nameOrPromise) { return __awaiter(this, void 0, void 0, function () { var name, address; return __generator(this, function (_a) { switch (_a.label) { case 0: return [4 /*yield*/, nameOrPromise]; case 1: name = _a.sent(); // If it is already an address, just use it (after adding checksum) try { return [2 /*return*/, address_1.getAddress(name)]; } catch (error) { } if (!resolver) { logger.throwError("a provider or signer is needed to resolve ENS names", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "resolveName" }); } return [4 /*yield*/, resolver.resolveName(name)]; case 2: address = _a.sent(); if (address == null) { logger.throwArgumentError("resolver or addr is not configured for ENS name", "name", name); } return [2 /*return*/, address]; } }); }); } // Recursively replaces ENS names with promises to resolve the name and resolves all properties function resolveAddresses(resolver, value, paramType) { return __awaiter(this, void 0, void 0, function () { return __generator(this, function (_a) { switch (_a.label) { case 0: if (!Array.isArray(paramType)) return [3 /*break*/, 2]; return [4 /*yield*/, Promise.all(paramType.map(function (paramType, index) { return resolveAddresses(resolver, ((Array.isArray(value)) ? value[index] : value[paramType.name]), paramType); }))]; case 1: return [2 /*return*/, _a.sent()]; case 2: if (!(paramType.type === "address")) return [3 /*break*/, 4]; return [4 /*yield*/, resolveName(resolver, value)]; case 3: return [2 /*return*/, _a.sent()]; case 4: if (!(paramType.type === "tuple")) return [3 /*break*/, 6]; return [4 /*yield*/, resolveAddresses(resolver, value, paramType.components)]; case 5: return [2 /*return*/, _a.sent()]; case 6: if (!(paramType.baseType === "array")) return [3 /*break*/, 8]; if (!Array.isArray(value)) { return [2 /*return*/, Promise.reject(new Error("invalid value for array"))]; } return [4 /*yield*/, Promise.all(value.map(function (v) { return resolveAddresses(resolver, v, paramType.arrayChildren); }))]; case 7: return [2 /*return*/, _a.sent()]; case 8: return [2 /*return*/, value]; } }); }); } function populateTransaction(contract, fragment, args) { return __awaiter(this, void 0, void 0, function () { var overrides, resolved, data, tx, ro, intrinsic, bytes, i, roValue, leftovers; var _this = this; return __generator(this, function (_a) { switch (_a.label) { case 0: overrides = {}; if (args.length === fragment.inputs.length + 1 && typeof (args[args.length - 1]) === "object") { overrides = properties_1.shallowCopy(args.pop()); } // Make sure the parameter count matches logger.checkArgumentCount(args.length, fragment.inputs.length, "passed to contract"); // Populate "from" override (allow promises) if (contract.signer) { if (overrides.from) { // Contracts with a Signer are from the Signer's frame-of-reference; // but we allow overriding "from" if it matches the signer overrides.from = properties_1.resolveProperties({ override: resolveName(contract.signer, overrides.from), signer: contract.signer.getAddress() }).then(function (check) { return __awaiter(_this, void 0, void 0, function () { return __generator(this, function (_a) { if (address_1.getAddress(check.signer) !== check.override) { logger.throwError("Contract with a Signer cannot override from", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "overrides.from" }); } return [2 /*return*/, check.override]; }); }); }); } else { overrides.from = contract.signer.getAddress(); } } else if (overrides.from) { overrides.from = resolveName(contract.provider, overrides.from); //} else { // Contracts without a signer can override "from", and if // unspecified the zero address is used //overrides.from = AddressZero; } return [4 /*yield*/, properties_1.resolveProperties({ args: resolveAddresses(contract.signer || contract.provider, args, fragment.inputs), address: contract.resolvedAddress, overrides: (properties_1.resolveProperties(overrides) || {}) })]; case 1: resolved = _a.sent(); data = contract.interface.encodeFunctionData(fragment, resolved.args); tx = { data: data, to: resolved.address }; ro = resolved.overrides; // Populate simple overrides if (ro.nonce != null) { tx.nonce = bignumber_1.BigNumber.from(ro.nonce).toNumber(); } if (ro.gasLimit != null) { tx.gasLimit = bignumber_1.BigNumber.from(ro.gasLimit); } if (ro.gasPrice != null) { tx.gasPrice = bignumber_1.BigNumber.from(ro.gasPrice); } if (ro.from != null) { tx.from = ro.from; } // If there was no "gasLimit" override, but the ABI specifies a default, use it if (tx.gasLimit == null && fragment.gas != null) { intrinsic = 21000; bytes = bytes_1.arrayify(data); for (i = 0; i < bytes.length; i++) { intrinsic += 4; if (bytes[i]) { intrinsic += 64; } } tx.gasLimit = bignumber_1.BigNumber.from(fragment.gas).add(intrinsic); } // Populate "value" override if (ro.value) { roValue = bignumber_1.BigNumber.from(ro.value); if (!roValue.isZero() && !fragment.payable) { logger.throwError("non-payable method cannot override value", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "overrides.value", value: overrides.value }); } tx.value = roValue; } // Remvoe the overrides delete overrides.nonce; delete overrides.gasLimit; delete overrides.gasPrice; delete overrides.from; delete overrides.value; leftovers = Object.keys(overrides).filter(function (key) { return (overrides[key] != null); }); if (leftovers.length) { logger.throwError("cannot override " + leftovers.map(function (l) { return JSON.stringify(l); }).join(","), logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "overrides", overrides: leftovers }); } return [2 /*return*/, tx]; } }); }); } function buildPopulate(contract, fragment) { return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return populateTransaction(contract, fragment, args); }; } function buildEstimate(contract, fragment) { var signerOrProvider = (contract.signer || contract.provider); return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return __awaiter(this, void 0, void 0, function () { var tx; return __generator(this, function (_a) { switch (_a.label) { case 0: if (!signerOrProvider) { logger.throwError("estimate require a provider or signer", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "estimateGas" }); } return [4 /*yield*/, populateTransaction(contract, fragment, args)]; case 1: tx = _a.sent(); return [4 /*yield*/, signerOrProvider.estimateGas(tx)]; case 2: return [2 /*return*/, _a.sent()]; } }); }); }; } function buildCall(contract, fragment, collapseSimple) { var signerOrProvider = (contract.signer || contract.provider); return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return __awaiter(this, void 0, void 0, function () { var blockTag, overrides, tx, result, value; return __generator(this, function (_a) { switch (_a.label) { case 0: blockTag = undefined; if (!(args.length === fragment.inputs.length + 1 && typeof (args[args.length - 1]) === "object")) return [3 /*break*/, 3]; overrides = properties_1.shallowCopy(args.pop()); if (!(overrides.blockTag != null)) return [3 /*break*/, 2]; return [4 /*yield*/, overrides.blockTag]; case 1: blockTag = _a.sent(); _a.label = 2; case 2: delete overrides.blockTag; args.push(overrides); _a.label = 3; case 3: if (!(contract.deployTransaction != null)) return [3 /*break*/, 5]; return [4 /*yield*/, contract._deployed(blockTag)]; case 4: _a.sent(); _a.label = 5; case 5: return [4 /*yield*/, populateTransaction(contract, fragment, args)]; case 6: tx = _a.sent(); return [4 /*yield*/, signerOrProvider.call(tx, blockTag)]; case 7: result = _a.sent(); try { value = contract.interface.decodeFunctionResult(fragment, result); if (collapseSimple && fragment.outputs.length === 1) { value = value[0]; } return [2 /*return*/, value]; } catch (error) { if (error.code === logger_1.Logger.errors.CALL_EXCEPTION) { error.address = contract.address; error.args = args; error.transaction = tx; } throw error; } return [2 /*return*/]; } }); }); }; } function buildSend(contract, fragment) { return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return __awaiter(this, void 0, void 0, function () { var txRequest, tx, wait; return __generator(this, function (_a) { switch (_a.label) { case 0: if (!contract.signer) { logger.throwError("sending a transaction requires a signer", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "sendTransaction" }); } if (!(contract.deployTransaction != null)) return [3 /*break*/, 2]; return [4 /*yield*/, contract._deployed()]; case 1: _a.sent(); _a.label = 2; case 2: return [4 /*yield*/, populateTransaction(contract, fragment, args)]; case 3: txRequest = _a.sent(); return [4 /*yield*/, contract.signer.sendTransaction(txRequest)]; case 4: tx = _a.sent(); wait = tx.wait.bind(tx); tx.wait = function (confirmations) { return wait(confirmations).then(function (receipt) { receipt.events = receipt.logs.map(function (log) { var event = properties_1.deepCopy(log); var parsed = null; try { parsed = contract.interface.parseLog(log); } catch (e) { } // Successfully parsed the event log; include it if (parsed) { event.args = parsed.args; event.decode = function (data, topics) { return contract.interface.decodeEventLog(parsed.eventFragment, data, topics); }; event.event = parsed.name; event.eventSignature = parsed.signature; } // Useful operations event.removeListener = function () { return contract.provider; }; event.getBlock = function () { return contract.provider.getBlock(receipt.blockHash); }; event.getTransaction = function () { return contract.provider.getTransaction(receipt.transactionHash); }; event.getTransactionReceipt = function () { return Promise.resolve(receipt); }; return event; }); return receipt; }); }; return [2 /*return*/, tx]; } }); }); }; } function buildDefault(contract, fragment, collapseSimple) { if (fragment.constant) { return buildCall(contract, fragment, collapseSimple); } return buildSend(contract, fragment); } function getEventTag(filter) { if (filter.address && (filter.topics == null || filter.topics.length === 0)) { return "*"; } return (filter.address || "*") + "@" + (filter.topics ? filter.topics.map(function (topic) { if (Array.isArray(topic)) { return topic.join("|"); } return topic; }).join(":") : ""); } var RunningEvent = /** @class */ (function () { function RunningEvent(tag, filter) { properties_1.defineReadOnly(this, "tag", tag); properties_1.defineReadOnly(this, "filter", filter); this._listeners = []; } RunningEvent.prototype.addListener = function (listener, once) { this._listeners.push({ listener: listener, once: once }); }; RunningEvent.prototype.removeListener = function (listener) { var done = false; this._listeners = this._listeners.filter(function (item) { if (done || item.listener !== listener) { return true; } done = true; return false; }); }; RunningEvent.prototype.removeAllListeners = function () { this._listeners = []; }; RunningEvent.prototype.listeners = function () { return this._listeners.map(function (i) { return i.listener; }); }; RunningEvent.prototype.listenerCount = function () { return this._listeners.length; }; RunningEvent.prototype.run = function (args) { var _this = this; var listenerCount = this.listenerCount(); this._listeners = this._listeners.filter(function (item) { var argsCopy = args.slice(); // Call the callback in the next event loop setTimeout(function () { item.listener.apply(_this, argsCopy); }, 0); // Reschedule it if it not "once" return !(item.once); }); return listenerCount; }; RunningEvent.prototype.prepareEvent = function (event) { }; // Returns the array that will be applied to an emit RunningEvent.prototype.getEmit = function (event) { return [event]; }; return RunningEvent; }()); var ErrorRunningEvent = /** @class */ (function (_super) { __extends(ErrorRunningEvent, _super); function ErrorRunningEvent() { return _super.call(this, "error", null) || this; } return ErrorRunningEvent; }(RunningEvent)); // @TODO Fragment should inherit Wildcard? and just override getEmit? // or have a common abstract super class, with enough constructor // options to configure both. // A Fragment Event will populate all the properties that Wildcard // will, and additioanlly dereference the arguments when emitting var FragmentRunningEvent = /** @class */ (function (_super) { __extends(FragmentRunningEvent, _super); function FragmentRunningEvent(address, contractInterface, fragment, topics) { var _this = this; var filter = { address: address }; var topic = contractInterface.getEventTopic(fragment); if (topics) { if (topic !== topics[0]) { logger.throwArgumentError("topic mismatch", "topics", topics); } filter.topics = topics.slice(); } else { filter.topics = [topic]; } _this = _super.call(this, getEventTag(filter), filter) || this; properties_1.defineReadOnly(_this, "address", address); properties_1.defineReadOnly(_this, "interface", contractInterface); properties_1.defineReadOnly(_this, "fragment", fragment); return _this; } FragmentRunningEvent.prototype.prepareEvent = function (event) { var _this = this; _super.prototype.prepareEvent.call(this, event); event.event = this.fragment.name; event.eventSignature = this.fragment.format(); event.decode = function (data, topics) { return _this.interface.decodeEventLog(_this.fragment, data, topics); }; try { event.args = this.interface.decodeEventLog(this.fragment, event.data, event.topics); } catch (error) { event.args = null; event.decodeError = error; } }; FragmentRunningEvent.prototype.getEmit = function (event) { var errors = abi_1.checkResultErrors(event.args); if (errors.length) { throw errors[0].error; } var args = (event.args || []).slice(); args.push(event); return args; }; return FragmentRunningEvent; }(RunningEvent)); // A Wildard Event will attempt to populate: // - event The name of the event name // - eventSignature The full signature of the event // - decode A function to decode data and topics // - args The decoded data and topics var WildcardRunningEvent = /** @class */ (function (_super) { __extends(WildcardRunningEvent, _super); function WildcardRunningEvent(address, contractInterface) { var _this = _super.call(this, "*", { address: address }) || this; properties_1.defineReadOnly(_this, "address", address); properties_1.defineReadOnly(_this, "interface", contractInterface); return _this; } WildcardRunningEvent.prototype.prepareEvent = function (event) { var _this = this; _super.prototype.prepareEvent.call(this, event); try { var parsed_1 = this.interface.parseLog(event); event.event = parsed_1.name; event.eventSignature = parsed_1.signature; event.decode = function (data, topics) { return _this.interface.decodeEventLog(parsed_1.eventFragment, data, topics); }; event.args = parsed_1.args; } catch (error) { // No matching event } }; return WildcardRunningEvent; }(RunningEvent)); var Contract = /** @class */ (function () { function Contract(addressOrName, contractInterface, signerOrProvider) { var _newTarget = this.constructor; var _this = this; logger.checkNew(_newTarget, Contract); // @TODO: Maybe still check the addressOrName looks like a valid address or name? //address = getAddress(address); properties_1.defineReadOnly(this, "interface", properties_1.getStatic((_newTarget), "getInterface")(contractInterface)); if (signerOrProvider == null) { properties_1.defineReadOnly(this, "provider", null); properties_1.defineReadOnly(this, "signer", null); } else if (abstract_signer_1.Signer.isSigner(signerOrProvider)) { properties_1.defineReadOnly(this, "provider", signerOrProvider.provider || null); 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 { logger.throwArgumentError("invalid signer or provider", "signerOrProvider", signerOrProvider); } properties_1.defineReadOnly(this, "callStatic", {}); properties_1.defineReadOnly(this, "estimateGas", {}); properties_1.defineReadOnly(this, "functions", {}); properties_1.defineReadOnly(this, "populateTransaction", {}); properties_1.defineReadOnly(this, "filters", {}); { var uniqueFilters_1 = {}; Object.keys(this.interface.events).forEach(function (eventSignature) { var event = _this.interface.events[eventSignature]; properties_1.defineReadOnly(_this.filters, eventSignature, function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return { address: _this.address, topics: _this.interface.encodeFilterTopics(event, args) }; }); if (!uniqueFilters_1[event.name]) { uniqueFilters_1[event.name] = []; } uniqueFilters_1[event.name].push(eventSignature); }); Object.keys(uniqueFilters_1).forEach(function (name) { var filters = uniqueFilters_1[name]; if (filters.length === 1) { properties_1.defineReadOnly(_this.filters, name, _this.filters[filters[0]]); } else { logger.warn("Duplicate definition of " + name + " (" + filters.join(", ") + ")"); } }); } properties_1.defineReadOnly(this, "_runningEvents", {}); properties_1.defineReadOnly(this, "_wrappedEmits", {}); properties_1.defineReadOnly(this, "address", addressOrName); if (this.provider) { properties_1.defineReadOnly(this, "resolvedAddress", resolveName(this.provider, addressOrName)); } else { try { properties_1.defineReadOnly(this, "resolvedAddress", Promise.resolve(address_1.getAddress(addressOrName))); } catch (error) { // Without a provider, we cannot use ENS names logger.throwError("provider is required to use ENS name as contract address", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "new Contract" }); } } var uniqueNames = {}; var uniqueSignatures = {}; Object.keys(this.interface.functions).forEach(function (signature) { var fragment = _this.interface.functions[signature]; // Check that the signature is unique; if not the ABI generation has // not been cleaned or may be incorrectly generated if (uniqueSignatures[signature]) { logger.warn("Duplicate ABI entry for " + JSON.stringify(name)); return; } uniqueSignatures[signature] = true; // Track unique names; we only expose bare named functions if they // are ambiguous { var name_1 = fragment.name; if (!uniqueNames[name_1]) { uniqueNames[name_1] = []; } uniqueNames[name_1].push(signature); } if (_this[signature] == null) { properties_1.defineReadOnly(_this, signature, buildDefault(_this, fragment, true)); } // We do not collapse simple calls on this bucket, which allows // frameworks to safely use this without introspection as well as // allows decoding error recovery. if (_this.functions[signature] == null) { properties_1.defineReadOnly(_this.functions, signature, buildDefault(_this, fragment, false)); } if (_this.callStatic[signature] == null) { properties_1.defineReadOnly(_this.callStatic, signature, buildCall(_this, fragment, true)); } if (_this.populateTransaction[signature] == null) { properties_1.defineReadOnly(_this.populateTransaction, signature, buildPopulate(_this, fragment)); } if (_this.estimateGas[signature] == null) { properties_1.defineReadOnly(_this.estimateGas, signature, buildEstimate(_this, fragment)); } }); Object.keys(uniqueNames).forEach(function (name) { // Ambiguous names to not get attached as bare names var signatures = uniqueNames[name]; if (signatures.length > 1) { return; } var signature = signatures[0]; if (_this[name] == null) { properties_1.defineReadOnly(_this, name, _this[signature]); } if (_this.functions[name] == null) { properties_1.defineReadOnly(_this.functions, name, _this.functions[signature]); } if (_this.callStatic[name] == null) { properties_1.defineReadOnly(_this.callStatic, name, _this.callStatic[signature]); } if (_this.populateTransaction[name] == null) { properties_1.defineReadOnly(_this.populateTransaction, name, _this.populateTransaction[signature]); } if (_this.estimateGas[name] == null) { properties_1.defineReadOnly(_this.estimateGas, name, _this.estimateGas[signature]); } }); } Contract.getContractAddress = function (transaction) { return address_1.getContractAddress(transaction); }; Contract.getInterface = function (contractInterface) { if (abi_1.Interface.isInterface(contractInterface)) { return contractInterface; } return new abi_1.Interface(contractInterface); }; // @TODO: Allow timeout? Contract.prototype.deployed = function () { return this._deployed(); }; Contract.prototype._deployed = function (blockTag) { var _this = this; if (!this._deployedPromise) { // If we were just deployed, we know the transaction we should occur in if (this.deployTransaction) { this._deployedPromise = 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._deployedPromise = this.provider.getCode(this.address, blockTag).then(function (code) { if (code === "0x") { logger.throwError("contract not deployed", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { contractAddress: _this.address, operation: "getDeployed" }); } return _this; }); } } return this._deployedPromise; }; // @TODO: // estimateFallback(overrides?: TransactionRequest): Promise // @TODO: // estimateDeploy(bytecode: string, ...args): Promise Contract.prototype.fallback = function (overrides) { var _this = this; if (!this.signer) { logger.throwError("sending a transactions require a signer", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "sendTransaction(fallback)" }); } var tx = properties_1.shallowCopy(overrides || {}); ["from", "to"].forEach(function (key) { if (tx[key] == null) { return; } logger.throwError("cannot override " + key, logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: key }); }); tx.to = this.resolvedAddress; 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 abstract_signer_1.VoidSigner(signerOrProvider, this.provider); } var contract = new (this.constructor)(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 (this.constructor)(addressOrName, this.interface, this.signer || this.provider); }; Contract.isIndexed = function (value) { return abi_1.Indexed.isIndexed(value); }; Contract.prototype._normalizeRunningEvent = function (runningEvent) { // Already have an instance of this event running; we can re-use it if (this._runningEvents[runningEvent.tag]) { return this._runningEvents[runningEvent.tag]; } return runningEvent; }; Contract.prototype._getRunningEvent = function (eventName) { if (typeof (eventName) === "string") { // Listen for "error" events (if your contract has an error event, include // the full signature to bypass this special event keyword) if (eventName === "error") { return this._normalizeRunningEvent(new ErrorRunningEvent()); } // Listen for any event that is registered if (eventName === "event") { return this._normalizeRunningEvent(new RunningEvent("event", null)); } // Listen for any event if (eventName === "*") { return this._normalizeRunningEvent(new WildcardRunningEvent(this.address, this.interface)); } // Get the event Fragment (throws if ambiguous/unknown event) var fragment = this.interface.getEvent(eventName); return this._normalizeRunningEvent(new FragmentRunningEvent(this.address, this.interface, fragment)); } // We have topics to filter by... if (eventName.topics && eventName.topics.length > 0) { // Is it a known topichash? (throws if no matching topichash) try { var topic = eventName.topics[0]; if (typeof (topic) !== "string") { throw new Error("invalid topic"); // @TODO: May happen for anonymous events } var fragment = this.interface.getEvent(topic); return this._normalizeRunningEvent(new FragmentRunningEvent(this.address, this.interface, fragment, eventName.topics)); } catch (error) { } // Filter by the unknown topichash var filter = { address: this.address, topics: eventName.topics }; return this._normalizeRunningEvent(new RunningEvent(getEventTag(filter), filter)); } return this._normalizeRunningEvent(new WildcardRunningEvent(this.address, this.interface)); }; Contract.prototype._checkRunningEvents = function (runningEvent) { if (runningEvent.listenerCount() === 0) { delete this._runningEvents[runningEvent.tag]; // If we have a poller for this, remove it var emit = this._wrappedEmits[runningEvent.tag]; if (emit) { this.provider.off(runningEvent.filter, emit); delete this._wrappedEmits[runningEvent.tag]; } } }; // Subclasses can override this to gracefully recover // from parse errors if they wish Contract.prototype._wrapEvent = function (runningEvent, log, listener) { var _this = this; var event = properties_1.deepCopy(log); event.removeListener = function () { if (!listener) { return; } runningEvent.removeListener(listener); _this._checkRunningEvents(runningEvent); }; 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 may throw if the topics and data mismatch the signature runningEvent.prepareEvent(event); return event; }; Contract.prototype._addEventListener = function (runningEvent, listener, once) { var _this = this; if (!this.provider) { logger.throwError("events require a provider or a signer with a provider", logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "once" }); } runningEvent.addListener(listener, once); // Track this running event and its listeners (may already be there; but no hard in updating) this._runningEvents[runningEvent.tag] = runningEvent; // If we are not polling the provider, start polling if (!this._wrappedEmits[runningEvent.tag]) { var wrappedEmit = function (log) { var event = _this._wrapEvent(runningEvent, log, listener); // Try to emit the result for the parameterized event... if (event.decodeError == null) { try { var args = runningEvent.getEmit(event); _this.emit.apply(_this, __spreadArrays([runningEvent.filter], args)); } catch (error) { event.decodeError = error.error; } } // Always emit "event" for fragment-base events if (runningEvent.filter != null) { _this.emit("event", event); } // Emit "error" if there was an error if (event.decodeError != null) { _this.emit("error", event.decodeError, event); } }; this._wrappedEmits[runningEvent.tag] = wrappedEmit; // Special events, like "error" do not have a filter if (runningEvent.filter != null) { this.provider.on(runningEvent.filter, wrappedEmit); } } }; Contract.prototype.queryFilter = function (event, fromBlockOrBlockhash, toBlock) { var _this = this; var runningEvent = this._getRunningEvent(event); var filter = properties_1.shallowCopy(runningEvent.filter); if (typeof (fromBlockOrBlockhash) === "string" && bytes_1.isHexString(fromBlockOrBlockhash, 32)) { if (toBlock != null) { logger.throwArgumentError("cannot specify toBlock with blockhash", "toBlock", toBlock); } filter.blockHash = fromBlockOrBlockhash; } else { filter.fromBlock = ((fromBlockOrBlockhash != null) ? fromBlockOrBlockhash : 0); filter.toBlock = ((toBlock != null) ? toBlock : "latest"); } return this.provider.getLogs(filter).then(function (logs) { return logs.map(function (log) { return _this._wrapEvent(runningEvent, log, null); }); }); }; Contract.prototype.on = function (event, listener) { this._addEventListener(this._getRunningEvent(event), listener, false); return this; }; Contract.prototype.once = function (event, listener) { this._addEventListener(this._getRunningEvent(event), listener, true); return this; }; Contract.prototype.emit = function (eventName) { var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } if (!this.provider) { return false; } var runningEvent = this._getRunningEvent(eventName); var result = (runningEvent.run(args) > 0); // May have drained all the "once" events; check for living events this._checkRunningEvents(runningEvent); return result; }; Contract.prototype.listenerCount = function (eventName) { if (!this.provider) { return 0; } return this._getRunningEvent(eventName).listenerCount(); }; Contract.prototype.listeners = function (eventName) { if (!this.provider) { return []; } if (eventName == null) { var result_1 = []; for (var tag in this._runningEvents) { this._runningEvents[tag].listeners().forEach(function (listener) { result_1.push(listener); }); } return result_1; } return this._getRunningEvent(eventName).listeners(); }; Contract.prototype.removeAllListeners = function (eventName) { if (!this.provider) { return this; } if (eventName == null) { for (var tag in this._runningEvents) { var runningEvent_1 = this._runningEvents[tag]; runningEvent_1.removeAllListeners(); this._checkRunningEvents(runningEvent_1); } return this; } // Delete any listeners var runningEvent = this._getRunningEvent(eventName); runningEvent.removeAllListeners(); this._checkRunningEvents(runningEvent); return this; }; Contract.prototype.off = function (eventName, listener) { if (!this.provider) { return this; } var runningEvent = this._getRunningEvent(eventName); runningEvent.removeListener(listener); this._checkRunningEvents(runningEvent); return this; }; Contract.prototype.removeListener = function (eventName, listener) { return this.off(eventName, listener); }; return Contract; }()); exports.Contract = Contract; var ContractFactory = /** @class */ (function () { function ContractFactory(contractInterface, bytecode, signer) { var _newTarget = this.constructor; var bytecodeHex = null; if (typeof (bytecode) === "string") { bytecodeHex = bytecode; } else if (bytes_1.isBytes(bytecode)) { bytecodeHex = bytes_1.hexlify(bytecode); } else if (bytecode && typeof (bytecode.object) === "string") { // Allow the bytecode object from the Solidity compiler bytecodeHex = bytecode.object; } else { // Crash in the next verification step bytecodeHex = "!"; } // Make sure it is 0x prefixed if (bytecodeHex.substring(0, 2) !== "0x") { bytecodeHex = "0x" + bytecodeHex; } // Make sure the final result is valid bytecode if (!bytes_1.isHexString(bytecodeHex) || (bytecodeHex.length % 2)) { logger.throwArgumentError("invalid bytecode", "bytecode", bytecode); } // If we have a signer, make sure it is valid if (signer && !abstract_signer_1.Signer.isSigner(signer)) { logger.throwArgumentError("invalid signer", "signer", signer); } properties_1.defineReadOnly(this, "bytecode", bytecodeHex); properties_1.defineReadOnly(this, "interface", properties_1.getStatic((_newTarget), "getInterface")(contractInterface)); properties_1.defineReadOnly(this, "signer", signer || null); } // @TODO: Future; rename to populteTransaction? 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.deploy.inputs.length + 1 && typeof (args[args.length - 1]) === "object") { 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; } logger.throwError("cannot override " + key, logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: key }); }); // Make sure the call matches the constructor signature logger.checkArgumentCount(args.length, this.interface.deploy.inputs.length, " in Contract constructor"); // Set the data to the bytecode + the encoded constructor arguments tx.data = bytes_1.hexlify(bytes_1.concat([ this.bytecode, this.interface.encodeDeploy(args) ])); return tx; }; ContractFactory.prototype.deploy = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return __awaiter(this, void 0, void 0, function () { var overrides, params, unsignedTx, tx, address, contract; return __generator(this, function (_a) { switch (_a.label) { case 0: overrides = {}; // If 1 extra parameter was passed in, it contains overrides if (args.length === this.interface.deploy.inputs.length + 1) { overrides = args.pop(); } // Make sure the call matches the constructor signature logger.checkArgumentCount(args.length, this.interface.deploy.inputs.length, " in Contract constructor"); return [4 /*yield*/, resolveAddresses(this.signer, args, this.interface.deploy.inputs)]; case 1: params = _a.sent(); params.push(overrides); unsignedTx = this.getDeployTransaction.apply(this, params); return [4 /*yield*/, this.signer.sendTransaction(unsignedTx)]; case 2: tx = _a.sent(); address = properties_1.getStatic(this.constructor, "getContractAddress")(tx); contract = properties_1.getStatic(this.constructor, "getContract")(address, this.interface, this.signer); properties_1.defineReadOnly(contract, "deployTransaction", tx); return [2 /*return*/, contract]; } }); }); }; ContractFactory.prototype.attach = function (address) { return (this.constructor).getContract(address, this.interface, this.signer); }; ContractFactory.prototype.connect = function (signer) { return new (this.constructor)(this.interface, this.bytecode, signer); }; ContractFactory.fromSolidity = function (compilerOutput, signer) { if (compilerOutput == null) { logger.throwError("missing compiler output", logger_1.Logger.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 this(abi, bytecode, signer); }; ContractFactory.getInterface = function (contractInterface) { return Contract.getInterface(contractInterface); }; ContractFactory.getContractAddress = function (tx) { return address_1.getContractAddress(tx); }; ContractFactory.getContract = function (address, contractInterface, signer) { return new Contract(address, contractInterface, signer); }; return ContractFactory; }()); exports.ContractFactory = ContractFactory; //# sourceMappingURL=index.js.map