'use strict'; // See: https://github.com/ethereum/wiki/wiki/Ethereum-Contract-ABI import { defaultAbiCoder, EventFragment, formatSignature, FunctionFragment, ParamType, parseSignature } from '../utils/abi-coder'; import { BigNumber, bigNumberify, BigNumberish } from '../utils/bignumber'; import { arrayify, concat, isHexString } from '../utils/bytes'; import { id } from '../utils/hash'; import { defineReadOnly, defineFrozen } from '../utils/properties'; import * as errors from '../utils/errors'; export class Description { readonly type: string; constructor(info: any) { for (var key in info) { let value = info[key]; if (value != null && typeof(value) === 'object') { defineFrozen(this, key, info[key]); } else { defineReadOnly(this, key, info[key]); } } } } export class Indexed extends Description { readonly hash: string; } export class DeployDescription extends Description { readonly inputs: Array; readonly payable: boolean; encode(bytecode: string, params: Array): string { if (!isHexString(bytecode)) { errors.throwError('invalid contract bytecode', errors.INVALID_ARGUMENT, { arg: 'bytecode', value: bytecode }); } errors.checkArgumentCount(params.length, this.inputs.length, 'in Interface constructor'); try { return (bytecode + defaultAbiCoder.encode(this.inputs, params).substring(2)); } catch (error) { errors.throwError('invalid constructor argument', errors.INVALID_ARGUMENT, { arg: error.arg, reason: error.reason, value: error.value }); } return null; } } export class FunctionDescription extends Description { readonly name: string; readonly signature: string; readonly sighash: string; readonly inputs: Array; readonly outputs: Array; readonly payable: boolean; encode(params: Array): string { errors.checkArgumentCount(params.length, this.inputs.length, 'in interface function ' + this.name); try { return this.sighash + defaultAbiCoder.encode(this.inputs, params).substring(2); } catch (error) { errors.throwError('invalid input argument', errors.INVALID_ARGUMENT, { arg: error.arg, reason: error.reason, value: error.value }); } return null; } decode(data: string): any { try { return defaultAbiCoder.decode(this.outputs, arrayify(data)); } catch(error) { errors.throwError('invalid data for function output', errors.INVALID_ARGUMENT, { arg: 'data', errorArg: error.arg, errorValue: error.value, value: data, reason: error.reason }); } } } class Result extends Description { [key: string]: any; [key: number]: any; } export class EventDescription extends Description { readonly name: string; readonly signature: string; readonly inputs: Array; readonly anonymous: boolean; readonly topic: string; decode(data: string, topics?: Array): any { // Strip the signature off of non-anonymous topics if (topics != null && !this.anonymous) { topics = topics.slice(1); } let inputIndexed: Array = []; let inputNonIndexed: Array = []; let inputDynamic: Array = []; this.inputs.forEach(function(param, index) { if (param.indexed) { if (param.type === 'string' || param.type === 'bytes' || param.type.indexOf('[') >= 0 || param.type.substring(0, 5) === 'tuple') { inputIndexed.push({ type: 'bytes32', name: (param.name || '')}); inputDynamic.push(true); } else { inputIndexed.push(param); inputDynamic.push(false); } } else { inputNonIndexed.push(param); inputDynamic.push(false); } }); if (topics != null) { var resultIndexed = defaultAbiCoder.decode( inputIndexed, concat(topics) ); } var resultNonIndexed = defaultAbiCoder.decode( inputNonIndexed, arrayify(data) ); var result = new Result({}); var nonIndexedIndex = 0, indexedIndex = 0; this.inputs.forEach(function(input, index) { if (input.indexed) { if (topics == null) { result[index] = new Indexed({ type: 'indexed', hash: null }); } else if (inputDynamic[index]) { result[index] = new Indexed({ type: 'indexed', hash: resultIndexed[indexedIndex++] }); } else { result[index] = resultIndexed[indexedIndex++]; } } else { result[index] = resultNonIndexed[nonIndexedIndex++]; } if (input.name) { result[input.name] = result[index]; } }); result.length = this.inputs.length; return result; } } class TransactionDescription extends Description { readonly name: string; readonly args: Array; readonly signature: string; readonly sighash: string; readonly decode: (data: string) => any; readonly value: BigNumber; } class LogDescription extends Description { readonly name: string; readonly signature: string; readonly topic: string; readonly values: Array } function addMethod(method: any): void { switch (method.type) { case 'constructor': { let description = new DeployDescription({ inputs: method.inputs, payable: (method.payable == null || !!method.payable), type: 'deploy' }); if (!this.deployFunction) { this.deployFunction = description; } break; } case 'function': { let signature = formatSignature(method).replace(/tuple/g, ''); let sighash = id(signature).substring(0, 10); let description = new FunctionDescription({ inputs: method.inputs, outputs: method.outputs, payable: (method.payable == null || !!method.payable), type: ((method.constant) ? 'call': 'transaction'), signature: signature, sighash: sighash, }); // Expose the first (and hopefully unique named function if (method.name && this.functions[method.name] == null) { defineReadOnly(this.functions, method.name, description); } // Expose all methods by their signature, for overloaded functions if (this.functions[description.signature] == null) { defineReadOnly(this.functions, description.signature, description); } break; } case 'event': { let signature = formatSignature(method).replace(/tuple/g, ''); let description = new EventDescription({ name: method.name, signature: signature, inputs: method.inputs, topic: id(signature), anonymous: (!!method.anonymous), type: 'event' }); // Expose the first (and hopefully unique) event name if (method.name && this.events[method.name] == null) { defineReadOnly(this.events, method.name, description); } // Expose all events by their signature, for overloaded functions if (this.events[description.signature] == null) { defineReadOnly(this.events, description.signature, description); } break; } case 'fallback': // Nothing to do for fallback break; default: console.log('WARNING: unsupported ABI type - ' + method.type); break; } } export class Interface { readonly abi: Array; readonly functions: { [ name: string ]: FunctionDescription }; readonly events: { [ name: string ]: EventDescription }; readonly deployFunction: DeployDescription; constructor(abi: Array | string) { errors.checkNew(this, Interface); if (typeof(abi) === 'string') { try { abi = JSON.parse(abi); } catch (error) { errors.throwError('could not parse ABI JSON', errors.INVALID_ARGUMENT, { arg: 'abi', errorMessage: error.message, value: abi }); } if (!Array.isArray(abi)) { errors.throwError('invalid abi', errors.INVALID_ARGUMENT, { arg: 'abi', value: abi }); return null; } } defineReadOnly(this, 'functions', { }); defineReadOnly(this, 'events', { }); // Convert any supported ABI format into a standard ABI format let _abi: Array = []; abi.forEach((fragment) => { if (typeof(fragment) === 'string') { fragment = parseSignature(fragment); } // @TODO: We should probable do some validation; create abiCoder.formatSignature for checking _abi.push(fragment); }); defineFrozen(this, 'abi', _abi); _abi.forEach(addMethod, this); // If there wasn't a constructor, create the default constructor if (!this.deployFunction) { addMethod.call(this, {type: 'constructor', inputs: []}); } } parseTransaction(tx: { data: string, value?: BigNumberish }): TransactionDescription { var sighash = tx.data.substring(0, 10).toLowerCase(); for (var name in this.functions) { if (name.indexOf('(') === -1) { continue; } var func = this.functions[name]; if (func.sighash === sighash) { var result = defaultAbiCoder.decode(func.inputs, '0x' + tx.data.substring(10)); return new TransactionDescription({ args: result, decode: func.decode, name: name, signature: func.signature, sighash: func.sighash, type: 'transaction', value: bigNumberify(tx.value || 0), }); } } return null; } parseLog(log: { topics: Array, data: string}): LogDescription { for (var name in this.events) { if (name.indexOf('(') === -1) { continue; } var event = this.events[name]; if (event.anonymous) { continue; } if (event.topic !== log.topics[0]) { continue; } // @TODO: If anonymous, and the only method, and the input count matches, should we parse and return it? return new LogDescription({ name: event.name, signature: event.signature, topic: event.topic, type: 'log', values: event.decode(log.data, log.topics) }); } return null; } }