'use strict'; import { Interface } from './interface'; import { defaultAbiCoder, formatSignature, parseSignature } from '../utils/abi-coder'; import { getAddress, getContractAddress } from '../utils/address'; import { ConstantZero } from '../utils/bignumber'; import { hexDataLength, hexDataSlice, isHexString } from '../utils/bytes'; import { defineReadOnly, jsonCopy, shallowCopy } from '../utils/properties'; import { poll } from '../utils/web'; import { Signer, MinimalProvider, BigNumber, ContractFunction, EventDescription, EventFilter, ParamType, Listener, Log, TransactionRequest, TransactionResponse } from '../utils/types'; import * as errors from '../utils/errors'; var allowedTransactionKeys: { [ key: string ]: boolean } = { 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: MinimalProvider, value: any, paramType: ParamType | Array): Promise { if (Array.isArray(paramType)) { var promises: Array> = []; paramType.forEach((paramType, index) => { var v = null; if (Array.isArray(value)) { v = value[index]; } else { v = value[paramType.name]; } promises.push(resolveAddresses(provider, v, paramType)); }); return Promise.all(promises); } 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 let isArrayMatch = paramType.type.match(/(.*)(\[[0-9]*\]$)/); if (isArrayMatch) { if (!Array.isArray(value)) { throw new Error('invalid value for array'); } var promises: Array> = []; var subParamType = { components: paramType.components, type: isArrayMatch[1], }; value.forEach((v) => { promises.push(resolveAddresses(provider, v, subParamType)); }); return Promise.all(promises); } return Promise.resolve(value); } type RunFunction = (...params: Array) => Promise; function runMethod(contract: Contract, functionName: string, estimateOnly: boolean): RunFunction { let method = contract.interface.functions[functionName]; return function(...params): Promise { var tx: any = {} // If 1 extra parameter was passed in, it contains overrides if (params.length === method.inputs.length + 1 && typeof(params[params.length - 1]) === 'object') { tx = 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 tx.to = contract.addressPromise; return resolveAddresses(contract.provider, params, method.inputs).then((params) => { tx.data = method.encode(params); if (method.type === 'call') { // Call (constant functions) always cost 0 ether if (estimateOnly) { return Promise.resolve(ConstantZero); } 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((value) => { if ((hexDataLength(value) % 32) === 4 && hexDataSlice(value, 0, 4) === '0x08c379a0') { let reason = defaultAbiCoder.decode([ 'string' ], 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 { let 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 (!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: EventFilter): string { return (filter.address || '') + (filter.topics ? filter.topics.join(':'): ''); } interface Bucket { [name: string]: T; } type _EventFilter = { decode: (log: Log) => Array; event?: EventDescription; eventTag: string; filter: EventFilter; }; type _Event = { eventFilter: _EventFilter; listener: Listener; once: boolean; wrappedListener: Listener; }; export class Contract { readonly address: string; readonly interface: Interface; readonly signer: Signer; readonly provider: MinimalProvider; readonly estimate: Bucket<(...params: Array) => Promise>; readonly functions: Bucket; readonly filters: Bucket<(...params: Array) => EventFilter>; readonly [name: string]: ContractFunction | any; readonly addressPromise: Promise; // This is only set if the contract was created with a call to deploy readonly deployTransaction: TransactionResponse; // 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. :) constructor(addressOrName: string, contractInterface: Array | string | Interface, signerOrProvider: Signer | MinimalProvider) { errors.checkNew(this, Contract); // @TODO: Maybe still check the addressOrName looks like a valid address or name? //address = getAddress(address); if (Interface.isInterface(contractInterface)) { defineReadOnly(this, 'interface', contractInterface); } else { defineReadOnly(this, 'interface', new Interface(contractInterface)); } if (Signer.isSigner(signerOrProvider)) { defineReadOnly(this, 'provider', signerOrProvider.provider); defineReadOnly(this, 'signer', signerOrProvider); } else if (MinimalProvider.isProvider(signerOrProvider)) { defineReadOnly(this, 'provider', signerOrProvider); defineReadOnly(this, 'signer', null); } else { errors.throwError('invalid signer or provider', errors.INVALID_ARGUMENT, { arg: 'signerOrProvider', value: signerOrProvider }); } defineReadOnly(this, 'estimate', { }); defineReadOnly(this, 'functions', { }); defineReadOnly(this, 'filters', { }); Object.keys(this.interface.events).forEach((eventName) => { let event = this.interface.events[eventName]; defineReadOnly(this.filters, eventName, (...args: Array) => { return { address: this.address, topics: event.encodeTopics(args) } }); }); // Not connected to an on-chain instance, so do not connect functions and events if (!addressOrName) { defineReadOnly(this, 'address', null); defineReadOnly(this, 'addressPromise', Promise.resolve(null)); return; } this._events = []; defineReadOnly(this, 'address', addressOrName); if (this.provider) { defineReadOnly(this, 'addressPromise', this.provider.resolveName(addressOrName).then((address) => { if (address == null) { throw new Error('name not found'); } return address; }).catch((error: Error) => { console.log('ERROR: Cannot find Contract - ' + addressOrName); throw error; })); } else { try { defineReadOnly(this, 'addressPromise', Promise.resolve(getAddress(addressOrName))); } catch (error) { errors.throwError('provider is required to use non-address contract address', errors.INVALID_ARGUMENT, { argument: 'addressOrName', value: addressOrName }); } } Object.keys(this.interface.functions).forEach((name) => { var run = runMethod(this, name, false); if ((this)[name] == null) { defineReadOnly(this, name, run); } else { console.log('WARNING: Multiple definitions for ' + name); } if (this.functions[name] == null) { defineReadOnly(this.functions, name, run); defineReadOnly(this.estimate, name, runMethod(this, name, true)); } }); } // @TODO: Allow timeout? deployed(): Promise { // If we were just deployed, we know the transaction we should occur in if (this.deployTransaction) { return this.deployTransaction.wait().then(() => { return this; }); } // Otherwise, poll for our code to be deployed return poll(() => { return this.provider.getCode(this.address).then((code) => { if (code === '0x') { return undefined; } return this; }); }, { onceBlock: this.provider }); } // @TODO: // estimateFallback(overrides?: TransactionRequest): Promise // @TODO: // estimateDeploy(bytecode: string, ...args): Promise fallback(overrides?: TransactionRequest): Promise { if (!this.signer) { errors.throwError('sending a transaction require a signer', errors.UNSUPPORTED_OPERATION, { operation: 'sendTransaction(fallback)' }) } var tx: TransactionRequest = 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.signer.sendTransaction(tx); } // Reconnect to a different signer or provider connect(signerOrProvider: Signer | MinimalProvider): Contract { return new Contract(this.address, this.interface, signerOrProvider); } // Re-attach to a different on=chain instance of this contract attach(addressOrName: string): Contract { return new Contract(addressOrName, this.interface, this.signer || this.provider); } // Deploy the contract with the bytecode, resolving to the deployed address. // Use contract.deployTransaction.wait() to wait until the contract has // been mined. deploy(bytecode: string, ...args: Array): Promise { if (this.signer == null) { throw new Error('missing signer'); // @TODO: errors.throwError } // A lot of common tools do not prefix bytecode with a 0x if (typeof(bytecode) === 'string' && bytecode.match(/^[0-9a-f]*$/i) && (bytecode.length % 2) == 0) { bytecode = '0x' + bytecode; } if (!isHexString(bytecode)) { errors.throwError('bytecode must be a valid hex string', errors.INVALID_ARGUMENT, { arg: 'bytecode', value: bytecode }); } if ((bytecode.length % 2) !== 0) { errors.throwError('bytecode must be valid data (even length)', errors.INVALID_ARGUMENT, { arg: 'bytecode', value: bytecode }); } let tx: TransactionRequest = { }; if (args.length === this.interface.deployFunction.inputs.length + 1) { tx = shallowCopy(args.pop()); for (var key in tx) { if (!allowedTransactionKeys[key]) { throw new Error('unknown transaction override ' + key); } } } ['data', 'from', 'to'].forEach(function(key) { if ((tx)[key] == null) { return; } errors.throwError('cannot override ' + key, errors.UNSUPPORTED_OPERATION, { operation: key }) }); tx.data = this.interface.deployFunction.encode(bytecode, args); errors.checkArgumentCount(args.length, this.interface.deployFunction.inputs.length, 'in Contract constructor'); // @TODO: overrides of args.length = this.interface.deployFunction.inputs.length + 1 return this.signer.sendTransaction(tx).then((tx) => { let contract = new Contract(getContractAddress(tx), this.interface, this.signer || this.provider); defineReadOnly(contract, 'deployTransaction', tx); return contract; }); } private _events: Array<_Event>; private _getEventFilter(eventName: EventFilter | string): _EventFilter { if (typeof(eventName) === 'string') { // Listen for any event if (eventName === '*') { return { decode: (log: Log) => { return [ this.interface.parseLog(log) ]; }, eventTag: '*', filter: { address: this.address }, }; } // Normalize the eventName if (eventName.indexOf('(') !== -1) { eventName = formatSignature(parseSignature('event ' + eventName)); } let event = this.interface.events[eventName]; if (!event) { errors.throwError('unknown event - ' + eventName, errors.INVALID_ARGUMENT, { argumnet: 'eventName', value: eventName }); } let filter = { address: this.address, topics: [ event.topic ] } return { decode: (log: Log) => { return event.decode(log.data, log.topics) }, event: event, eventTag: getEventTag(filter), filter: filter }; } let filter: EventFilter = { 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 let event: EventDescription = null; if (eventName.topics && eventName.topics[0]) { filter.topics = eventName.topics; for (var name in this.interface.events) { if (name.indexOf('(') === -1) { continue; } let e = this.interface.events[name]; if (e.topic === eventName.topics[0].toLowerCase()) { event = e; break; } } } return { decode: (log: Log) => { if (event) { return event.decode(log.data, log.topics) } return [ log ] }, event: event, eventTag: getEventTag(filter), filter: filter } } private _addEventListener(eventFilter: _EventFilter, listener: Listener, once: boolean): void { if (!this.provider) { errors.throwError('events require a provider or a signer with a provider', errors.UNSUPPORTED_OPERATION, { operation: 'once' }) } let wrappedListener = (log: Log) => { let decoded = Array.prototype.slice.call(eventFilter.decode(log)); let event = jsonCopy(log); event.args = decoded; event.decode = eventFilter.event.decode; event.event = eventFilter.event.name; event.eventSignature = eventFilter.event.signature; event.removeListener = () => { this.removeListener(eventFilter.filter, listener); }; event.getBlock = () => { return this.provider.getBlock(log.blockHash); } event.getTransaction = () => { return this.provider.getTransactionReceipt(log.transactionHash); } event.getTransactionReceipt = () => { return this.provider.getTransactionReceipt(log.transactionHash); } decoded.push(event); this.emit(eventFilter.filter, ...decoded); }; this.provider.on(eventFilter.filter, wrappedListener); this._events.push({ eventFilter: eventFilter, listener: listener, wrappedListener: wrappedListener, once: once }); } on(event: EventFilter | string, listener: Listener): Contract { this._addEventListener(this._getEventFilter(event), listener, false); return this; } once(event: EventFilter | string, listener: Listener): Contract { this._addEventListener(this._getEventFilter(event), listener, true); return this; } addEventLisener(eventName: EventFilter | string, listener: Listener): Contract { return this.on(eventName, listener); } emit(eventName: EventFilter | string, ...args: Array): boolean { if (!this.provider) { return false; } let result = false; let eventFilter = this._getEventFilter(eventName); this._events = this._events.filter((event) => { if (event.eventFilter.eventTag !== eventFilter.eventTag) { return true; } setTimeout(() => { event.listener.apply(this, args); }, 0); result = true; return !(event.once); }); return result; } listenerCount(eventName?: EventFilter | string): number { if (!this.provider) { return 0; } let eventFilter = this._getEventFilter(eventName); return this._events.filter((event) => { return event.eventFilter.eventTag === eventFilter.eventTag }).length; } listeners(eventName: EventFilter | string): Array { if (!this.provider) { return []; } let eventFilter = this._getEventFilter(eventName); return this._events.filter((event) => { return event.eventFilter.eventTag === eventFilter.eventTag }).map((event) => { return event.listener; }); } removeAllListeners(eventName: EventFilter | string): Contract { if (!this.provider) { return this; } let eventFilter = this._getEventFilter(eventName); this._events = this._events.filter((event) => { return event.eventFilter.eventTag !== eventFilter.eventTag }); return this; } removeListener(eventName: any, listener: Listener): Contract { if (!this.provider) { return this; } let found = false; let eventFilter = this._getEventFilter(eventName); this._events = this._events.filter((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; } }