import abi from 'ethereumjs-abi'; import { toChecksumAddress, addHexPrefix } from 'ethereumjs-util'; import BN from 'bn.js'; import { FuncParams, FunctionOutputMappings, Output, Input, ITypeMapping, ISuppliedArgs } from './types'; export default class AbiFunction { public constant: boolean; public outputs: Output[]; public inputs: Input[]; private funcParams: FuncParams; private inputNames: string[]; private inputTypes: string[]; private outputNames: string[]; private outputTypes: string[]; private methodSelector: string; private name: string; constructor(abiFunc: any, outputMappings: FunctionOutputMappings) { Object.assign(this, abiFunc); this.init(outputMappings); } public encodeInput = (suppliedInputs: object = {}) => { const args = this.processSuppliedArgs(suppliedInputs); const encodedCall = this.makeEncodedFuncCall(args); return encodedCall; }; public decodeInput = (argString: string) => { // Remove method selector from data, if present argString = argString.replace(addHexPrefix(this.methodSelector), ''); // Convert argdata to a hex buffer for ethereumjs-abi const argBuffer = new Buffer(argString, 'hex'); // Decode! const argArr = abi.rawDecode(this.inputTypes, argBuffer); //TODO: parse checksummed addresses return argArr.reduce((argObj, currArg, index) => { const currName = this.inputNames[index]; const currType = this.inputTypes[index]; return { ...argObj, [currName]: this.parsePostDecodedValue(currType, currArg) }; }, {}); }; public decodeOutput = (argString: string) => { // Remove method selector from data, if present argString = argString.replace(addHexPrefix(this.methodSelector), ''); // Remove 0x prefix argString = argString.replace('0x', ''); // Convert argdata to a hex buffer for ethereumjs-abi const argBuffer = new Buffer(argString, 'hex'); // Decode! const argArr = abi.rawDecode(this.outputTypes, argBuffer); //TODO: parse checksummed addresses return argArr.reduce((argObj, currArg, index) => { const currName = this.outputNames[index]; const currType = this.outputTypes[index]; return { ...argObj, [currName]: this.parsePostDecodedValue(currType, currArg) }; }, {}); }; private init(outputMappings: FunctionOutputMappings = []) { this.funcParams = this.makeFuncParams(); //TODO: do this in O(n) this.inputTypes = this.inputs.map(({ type }) => type); this.outputTypes = this.outputs.map(({ type }) => type); this.inputNames = this.inputs.map(({ name }) => name); this.outputNames = this.outputs.map(({ name }, i) => outputMappings[i] || name || `${i}`); this.methodSelector = abi.methodID(this.name, this.inputTypes).toString('hex'); } private parsePostDecodedValue = (type: string, value: any) => { const valueMapping: ITypeMapping = { address: (val: any) => toChecksumAddress(val.toString(16)) }; const mapppedType = valueMapping[type]; return mapppedType ? mapppedType(value) : BN.isBN(value) ? value.toString() : value; }; private parsePreEncodedValue = (_: string, value: any) => BN.isBN(value) ? value.toString() : value; private makeFuncParams = () => this.inputs.reduce((accumulator, currInput) => { const { name, type } = currInput; const inputHandler = (inputToParse: any) => //TODO: introduce typechecking and typecasting mapping for inputs ({ name, type, value: this.parsePreEncodedValue(type, inputToParse) }); return { ...accumulator, [name]: { processInput: inputHandler, type, name } }; }, {}); private makeEncodedFuncCall = (args: string[]) => { const encodedArgs = abi.rawEncode(this.inputTypes, args).toString('hex'); return addHexPrefix(`${this.methodSelector}${encodedArgs}`); }; private processSuppliedArgs = (suppliedArgs: ISuppliedArgs) => this.inputNames.map(name => { const type = this.funcParams[name].type; //TODO: parse args based on type if (!suppliedArgs[name]) { throw Error( `Expected argument "${name}" of type "${type}" missing, suppliedArgs: ${JSON.stringify( suppliedArgs, null, 2 )}` ); } const value = suppliedArgs[name]; const processedArg = this.funcParams[name].processInput(value); return processedArg.value; }); }