import * as path from 'path'; import { AbiDefinition, ConstructorAbi, DataItem, DevdocOutput, EventAbi, EventParameter, FallbackAbi, MethodAbi, StandardContractOutput, } from 'ethereum-types'; import ethUtil = require('ethereumjs-util'); import * as _ from 'lodash'; import { Compiler, CompilerOptions } from '@0x/sol-compiler'; import { CustomType, CustomTypeChild, DocAgnosticFormat, DocSection, Event, EventArg, ObjectMap, Parameter, SolidityMethod, Type, TypeDocTypes, } from '@0x/types'; export class SolDoc { private _customTypeHashToName: ObjectMap | undefined; private static _genEventDoc(abiDefinition: EventAbi): Event { const eventDoc: Event = { name: abiDefinition.name, eventArgs: SolDoc._genEventArgsDoc(abiDefinition.inputs), }; return eventDoc; } private static _devdocMethodDetailsIfExist( methodSignature: string, devdocIfExists: DevdocOutput | undefined, ): string | undefined { let details; if (!_.isUndefined(devdocIfExists)) { const devdocMethodsIfExist = devdocIfExists.methods; if (!_.isUndefined(devdocMethodsIfExist)) { const devdocMethodIfExists = devdocMethodsIfExist[methodSignature]; if (!_.isUndefined(devdocMethodIfExists)) { const devdocMethodDetailsIfExist = devdocMethodIfExists.details; if (!_.isUndefined(devdocMethodDetailsIfExist)) { details = devdocMethodDetailsIfExist; } } } } return details; } private static _genFallbackDoc( abiDefinition: FallbackAbi, devdocIfExists: DevdocOutput | undefined, ): SolidityMethod { const methodSignature = `()`; const comment = SolDoc._devdocMethodDetailsIfExist(methodSignature, devdocIfExists); const returnComment = _.isUndefined(devdocIfExists) || _.isUndefined(devdocIfExists.methods[methodSignature]) ? undefined : devdocIfExists.methods[methodSignature].return; const methodDoc: SolidityMethod = { isConstructor: false, name: 'fallback', callPath: '', parameters: [], returnType: { name: 'void', typeDocType: TypeDocTypes.Intrinsic }, returnComment, isConstant: true, isPayable: abiDefinition.payable, isFallback: true, comment: _.isEmpty(comment) ? 'The fallback function. It is executed on a call to the contract if none of the other functions match the given public identifier (or if no data was supplied at all).' : comment, }; return methodDoc; } private static _genEventArgsDoc(args: EventParameter[]): EventArg[] { const eventArgsDoc: EventArg[] = []; for (const arg of args) { const name = arg.name; const type: Type = { name: arg.type, typeDocType: TypeDocTypes.Intrinsic, }; const eventArgDoc: EventArg = { isIndexed: arg.indexed, name, type, }; eventArgsDoc.push(eventArgDoc); } return eventArgsDoc; } private static _dedupStructs(customTypes: CustomType[]): CustomType[] { const uniqueCustomTypes: CustomType[] = []; const seenTypes: { [hash: string]: boolean } = {}; _.each(customTypes, customType => { const hash = SolDoc._generateCustomTypeHash(customType); if (!seenTypes[hash]) { uniqueCustomTypes.push(customType); seenTypes[hash] = true; } }); return uniqueCustomTypes; } private static _capitalize(text: string): string { return `${text.charAt(0).toUpperCase()}${text.slice(1)}`; } private static _generateCustomTypeHash(customType: CustomType): string { const customTypeWithoutName = _.cloneDeep(customType); delete customTypeWithoutName.name; const customTypeWithoutNameStr = JSON.stringify(customTypeWithoutName); const hash = ethUtil.sha256(customTypeWithoutNameStr).toString('hex'); return hash; } private static _makeCompilerOptions(contractsDir: string, contractsToCompile?: string[]): CompilerOptions { const compilerOptions: CompilerOptions = { contractsDir, contracts: '*', compilerSettings: { outputSelection: { ['*']: { ['*']: ['abi', 'devdoc'], }, }, }, }; const shouldOverrideCatchAllContractsConfig = !_.isUndefined(contractsToCompile) && contractsToCompile.length > 0; if (shouldOverrideCatchAllContractsConfig) { compilerOptions.contracts = contractsToCompile; } return compilerOptions; } /** * Invoke the Solidity compiler and transform its ABI and devdoc outputs into a * JSON format easily consumed by documentation rendering tools. * @param contractsToDocument list of contracts for which to generate doc objects * @param contractsDir the directory in which to find the `contractsToCompile` as well as their dependencies. * @return doc object for use with documentation generation tools. */ public async generateSolDocAsync( contractsDir: string, contractsToDocument?: string[], customTypeHashToName?: ObjectMap, ): Promise { this._customTypeHashToName = customTypeHashToName; const docWithDependencies: DocAgnosticFormat = {}; const compilerOptions = SolDoc._makeCompilerOptions(contractsDir, contractsToDocument); const compiler = new Compiler(compilerOptions); const compilerOutputs = await compiler.getCompilerOutputsAsync(); let structs: CustomType[] = []; for (const compilerOutput of compilerOutputs) { const contractFileNames = _.keys(compilerOutput.contracts); for (const contractFileName of contractFileNames) { const contractNameToOutput = compilerOutput.contracts[contractFileName]; const contractNames = _.keys(contractNameToOutput); for (const contractName of contractNames) { const compiledContract = contractNameToOutput[contractName]; if (_.isUndefined(compiledContract.abi)) { throw new Error('compiled contract did not contain ABI output'); } docWithDependencies[contractName] = this._genDocSection(compiledContract, contractName); structs = [...structs, ...this._extractStructs(compiledContract)]; } } } structs = SolDoc._dedupStructs(structs); structs = this._overwriteStructNames(structs); let doc: DocAgnosticFormat = {}; if (_.isUndefined(contractsToDocument) || contractsToDocument.length === 0) { doc = docWithDependencies; } else { for (const contractToDocument of contractsToDocument) { const contractBasename = path.basename(contractToDocument); const contractName = contractBasename.lastIndexOf('.sol') === -1 ? contractBasename : contractBasename.substring(0, contractBasename.lastIndexOf('.sol')); doc[contractName] = docWithDependencies[contractName]; } } if (structs.length > 0) { doc.structs = { comment: '', constructors: [], methods: [], properties: [], types: structs, functions: [], events: [], }; } delete this._customTypeHashToName; // Clean up instance state return doc; } private _getCustomTypeFromDataItem(inputOrOutput: DataItem): CustomType { const customType: CustomType = { name: _.capitalize(inputOrOutput.name), kindString: 'Interface', children: [], }; _.each(inputOrOutput.components, (component: DataItem) => { const childType = this._getTypeFromDataItem(component); const customTypeChild = { name: component.name, type: childType, }; // (fabio): Not sure why this type casting is necessary. Seems TS doesn't // deduce that `customType.children` cannot be undefined anymore after being // set to `[]` above. (customType.children as CustomTypeChild[]).push(customTypeChild); }); return customType; } private _getNameFromDataItemIfExists(dataItem: DataItem): string | undefined { if (_.isUndefined(dataItem.components)) { return undefined; } const customType = this._getCustomTypeFromDataItem(dataItem); const hash = SolDoc._generateCustomTypeHash(customType); if (_.isUndefined(this._customTypeHashToName) || _.isUndefined(this._customTypeHashToName[hash])) { return undefined; } return this._customTypeHashToName[hash]; } private _getTypeFromDataItem(dataItem: DataItem): Type { const typeDocType = !_.isUndefined(dataItem.components) ? TypeDocTypes.Reference : TypeDocTypes.Intrinsic; let typeName: string; if (typeDocType === TypeDocTypes.Reference) { const nameIfExists = this._getNameFromDataItemIfExists(dataItem); typeName = _.isUndefined(nameIfExists) ? SolDoc._capitalize(dataItem.name) : nameIfExists; } else { typeName = dataItem.type; } const isArrayType = _.endsWith(dataItem.type, '[]'); let type: Type; if (isArrayType) { // tslint:disable-next-line:custom-no-magic-numbers typeName = typeDocType === TypeDocTypes.Intrinsic ? typeName.slice(0, -2) : typeName; type = { elementType: { name: typeName, typeDocType }, typeDocType: TypeDocTypes.Array, name: '', }; } else { type = { name: typeName, typeDocType }; } return type; } private _overwriteStructNames(customTypes: CustomType[]): CustomType[] { if (_.isUndefined(this._customTypeHashToName)) { return customTypes; } const localCustomTypes = _.cloneDeep(customTypes); _.each(localCustomTypes, (customType, i) => { const hash = SolDoc._generateCustomTypeHash(customType); if (!_.isUndefined(this._customTypeHashToName) && !_.isUndefined(this._customTypeHashToName[hash])) { localCustomTypes[i].name = this._customTypeHashToName[hash]; } }); return localCustomTypes; } private _extractStructs(compiledContract: StandardContractOutput): CustomType[] { let customTypes: CustomType[] = []; for (const abiDefinition of compiledContract.abi) { let types: CustomType[] = []; switch (abiDefinition.type) { case 'constructor': { types = this._getStructsAsCustomTypes(abiDefinition); break; } case 'function': { types = this._getStructsAsCustomTypes(abiDefinition); break; } case 'event': case 'fallback': // No types exist break; default: throw new Error( `unknown and unsupported AbiDefinition type '${(abiDefinition as AbiDefinition).type}'`, // tslint:disable-line:no-unnecessary-type-assertion ); } customTypes = [...customTypes, ...types]; } return customTypes; } private _genDocSection(compiledContract: StandardContractOutput, contractName: string): DocSection { const docSection: DocSection = { comment: _.isUndefined(compiledContract.devdoc) ? '' : compiledContract.devdoc.title, constructors: [], methods: [], properties: [], types: [], functions: [], events: [], }; for (const abiDefinition of compiledContract.abi) { switch (abiDefinition.type) { case 'constructor': docSection.constructors.push( // tslint:disable-next-line:no-unnecessary-type-assertion this._genConstructorDoc(contractName, abiDefinition as ConstructorAbi, compiledContract.devdoc), ); break; case 'event': // tslint:disable-next-line:no-unnecessary-type-assertion (docSection.events as Event[]).push(SolDoc._genEventDoc(abiDefinition as EventAbi)); // note that we're not sending devdoc to this._genEventDoc(). // that's because the type of the events array doesn't have any fields for documentation! break; case 'function': // tslint:disable-next-line:no-unnecessary-type-assertion docSection.methods.push(this._genMethodDoc(abiDefinition as MethodAbi, compiledContract.devdoc)); break; case 'fallback': // tslint:disable-next-line:no-unnecessary-type-assertion docSection.methods.push( SolDoc._genFallbackDoc(abiDefinition as FallbackAbi, compiledContract.devdoc), ); break; default: throw new Error( `unknown and unsupported AbiDefinition type '${(abiDefinition as AbiDefinition).type}'`, // tslint:disable-line:no-unnecessary-type-assertion ); } } return docSection; } private _genConstructorDoc( contractName: string, abiDefinition: ConstructorAbi, devdocIfExists: DevdocOutput | undefined, ): SolidityMethod { const { parameters, methodSignature } = this._genMethodParamsDoc('', abiDefinition.inputs, devdocIfExists); const comment = SolDoc._devdocMethodDetailsIfExist(methodSignature, devdocIfExists); const constructorDoc: SolidityMethod = { isConstructor: true, name: contractName, callPath: '', parameters, returnType: { name: contractName, typeDocType: TypeDocTypes.Reference }, // sad we have to specify this isConstant: false, isPayable: abiDefinition.payable, comment, }; return constructorDoc; } private _genMethodDoc(abiDefinition: MethodAbi, devdocIfExists: DevdocOutput | undefined): SolidityMethod { const name = abiDefinition.name; const { parameters, methodSignature } = this._genMethodParamsDoc(name, abiDefinition.inputs, devdocIfExists); const devDocComment = SolDoc._devdocMethodDetailsIfExist(methodSignature, devdocIfExists); const returnType = this._genMethodReturnTypeDoc(abiDefinition.outputs); const returnComment = _.isUndefined(devdocIfExists) || _.isUndefined(devdocIfExists.methods[methodSignature]) ? undefined : devdocIfExists.methods[methodSignature].return; const hasNoNamedParameters = _.isUndefined(_.find(parameters, p => !_.isEmpty(p.name))); const isGeneratedGetter = hasNoNamedParameters; const comment = _.isEmpty(devDocComment) && isGeneratedGetter ? `This is an auto-generated accessor method of the '${name}' contract instance variable.` : devDocComment; const methodDoc: SolidityMethod = { isConstructor: false, name, callPath: '', parameters, returnType, returnComment, isConstant: abiDefinition.constant, isPayable: abiDefinition.payable, comment, }; return methodDoc; } /** * Extract documentation for each method parameter from @param params. */ private _genMethodParamsDoc( name: string, abiParams: DataItem[], devdocIfExists: DevdocOutput | undefined, ): { parameters: Parameter[]; methodSignature: string } { const parameters: Parameter[] = []; for (const abiParam of abiParams) { const type = this._getTypeFromDataItem(abiParam); const parameter: Parameter = { name: abiParam.name, comment: '', isOptional: false, // Unsupported in Solidity, until resolution of https://github.com/ethereum/solidity/issues/232 type, }; parameters.push(parameter); } const methodSignature = `${name}(${abiParams .map(abiParam => { if (!_.startsWith(abiParam.type, 'tuple')) { return abiParam.type; } else { // Need to expand tuples: // E.g: fillOrder(tuple,uint256,bytes) -> fillOrder((address,address,address,address,uint256,uint256,uint256,uint256,uint256,uint256,bytes,bytes),uint256,bytes) const isArray = _.endsWith(abiParam.type, '[]'); const expandedTypes = _.map(abiParam.components, c => c.type); const type = `(${expandedTypes.join(',')})${isArray ? '[]' : ''}`; return type; } }) .join(',')})`; if (!_.isUndefined(devdocIfExists)) { const devdocMethodIfExists = devdocIfExists.methods[methodSignature]; if (!_.isUndefined(devdocMethodIfExists)) { const devdocParamsIfExist = devdocMethodIfExists.params; if (!_.isUndefined(devdocParamsIfExist)) { for (const parameter of parameters) { parameter.comment = devdocParamsIfExist[parameter.name]; } } } } return { parameters, methodSignature }; } private _genMethodReturnTypeDoc(outputs: DataItem[]): Type { let type: Type; if (outputs.length > 1) { type = { name: '', typeDocType: TypeDocTypes.Tuple, tupleElements: [], }; for (const output of outputs) { const tupleType = this._getTypeFromDataItem(output); (type.tupleElements as Type[]).push(tupleType); } return type; } else if (outputs.length === 1) { const output = outputs[0]; type = this._getTypeFromDataItem(output); } else { type = { name: 'void', typeDocType: TypeDocTypes.Intrinsic, }; } return type; } private _getStructsAsCustomTypes(abiDefinition: AbiDefinition): CustomType[] { const customTypes: CustomType[] = []; // We cast to `any` here because we do not know yet if this type of abiDefinition contains // an `input` key if (!_.isUndefined((abiDefinition as any).inputs)) { const methodOrConstructorAbi = abiDefinition as MethodAbi | ConstructorAbi; _.each(methodOrConstructorAbi.inputs, input => { if (!_.isUndefined(input.components)) { const customType = this._getCustomTypeFromDataItem(input); customTypes.push(customType); } }); } if (!_.isUndefined((abiDefinition as any).outputs)) { const methodAbi = abiDefinition as MethodAbi; // tslint:disable-line:no-unnecessary-type-assertion _.each(methodAbi.outputs, output => { if (!_.isUndefined(output.components)) { const customType = this._getCustomTypeFromDataItem(output); customTypes.push(customType); } }); } return customTypes; } } // tslint:disable:max-file-line-count