import * as _ from 'lodash'; import { AbstractArtifactAdapter } from './artifact_adapters/abstract_artifact_adapter'; import { collectCoverageEntries } from './collect_coverage_entries'; import { TraceCollectionSubprovider } from './trace_collection_subprovider'; import { SingleFileSubtraceHandler, TraceCollector } from './trace_collector'; import { BranchCoverage, ContractData, Coverage, FunctionCoverage, FunctionDescription, SourceRange, StatementCoverage, StatementDescription, Subtrace, TraceInfo, } from './types'; import { utils } from './utils'; /** * This class implements the [web3-provider-engine](https://github.com/MetaMask/provider-engine) subprovider interface. * It's used to compute your code coverage while running solidity tests. */ export class CoverageSubprovider extends TraceCollectionSubprovider { private _coverageCollector: TraceCollector; /** * Instantiates a CoverageSubprovider instance * @param artifactAdapter Adapter for used artifacts format (0x, truffle, giveth, etc.) * @param defaultFromAddress default from address to use when sending transactions * @param isVerbose If true, we will log any unknown transactions. Otherwise we will ignore them */ constructor(artifactAdapter: AbstractArtifactAdapter, defaultFromAddress: string, isVerbose: boolean = true) { const traceCollectionSubproviderConfig = { shouldCollectTransactionTraces: true, shouldCollectGasEstimateTraces: true, shouldCollectCallTraces: true, }; super(defaultFromAddress, traceCollectionSubproviderConfig); this._coverageCollector = new TraceCollector(artifactAdapter, isVerbose, coverageHandler); } public async handleTraceInfoAsync(traceInfo: TraceInfo): Promise { await this._coverageCollector.computeSingleTraceCoverageAsync(traceInfo); } /** * Write the test coverage results to a file in Istanbul format. */ public async writeCoverageAsync(): Promise { await this._coverageCollector.writeOutputAsync(); } } /** * Computed partial coverage for a single file & subtrace. * @param contractData Contract metadata (source, srcMap, bytecode) * @param subtrace A subset of a transcation/call trace that was executed within that contract * @param pcToSourceRange A mapping from program counters to source ranges * @param fileIndex Index of a file to compute coverage for * @return Partial istanbul coverage for that file & subtrace */ export const coverageHandler: SingleFileSubtraceHandler = ( contractData: ContractData, subtrace: Subtrace, pcToSourceRange: { [programCounter: number]: SourceRange }, fileIndex: number, ): Coverage => { const absoluteFileName = contractData.sources[fileIndex]; const coverageEntriesDescription = collectCoverageEntries(contractData.sourceCodes[fileIndex]); let sourceRanges = _.map(subtrace, structLog => pcToSourceRange[structLog.pc]); sourceRanges = _.compact(sourceRanges); // Some PC's don't map to a source range and we just ignore them. // By default lodash does a shallow object comparasion. We JSON.stringify them and compare as strings. sourceRanges = _.uniqBy(sourceRanges, s => JSON.stringify(s)); // We don't care if one PC was covered multiple times within a single transaction sourceRanges = _.filter(sourceRanges, sourceRange => sourceRange.fileName === absoluteFileName); const branchCoverage: BranchCoverage = {}; const branchIds = _.keys(coverageEntriesDescription.branchMap); for (const branchId of branchIds) { const branchDescription = coverageEntriesDescription.branchMap[branchId]; const isBranchCoveredByBranchIndex = _.map(branchDescription.locations, location => { const isBranchCovered = _.some(sourceRanges, range => utils.isRangeInside(range.location, location)); const timesBranchCovered = Number(isBranchCovered); return timesBranchCovered; }); branchCoverage[branchId] = isBranchCoveredByBranchIndex; } const statementCoverage: StatementCoverage = {}; const statementIds = _.keys(coverageEntriesDescription.statementMap); for (const statementId of statementIds) { const statementDescription = coverageEntriesDescription.statementMap[statementId]; const isStatementCovered = _.some(sourceRanges, range => utils.isRangeInside(range.location, statementDescription), ); const timesStatementCovered = Number(isStatementCovered); statementCoverage[statementId] = timesStatementCovered; } const functionCoverage: FunctionCoverage = {}; const functionIds = _.keys(coverageEntriesDescription.fnMap); for (const fnId of functionIds) { const functionDescription = coverageEntriesDescription.fnMap[fnId]; const isFunctionCovered = _.some(sourceRanges, range => utils.isRangeInside(range.location, functionDescription.loc), ); const timesFunctionCovered = Number(isFunctionCovered); functionCoverage[fnId] = timesFunctionCovered; } // HACK: Solidity doesn't emit any opcodes that map back to modifiers with no args, that's why we map back to the // function range and check if there is any covered statement within that range. for (const modifierStatementId of coverageEntriesDescription.modifiersStatementIds) { if (statementCoverage[modifierStatementId]) { // Already detected as covered continue; } const modifierDescription = coverageEntriesDescription.statementMap[modifierStatementId]; const enclosingFunction = _.find(coverageEntriesDescription.fnMap, functionDescription => utils.isRangeInside(modifierDescription, functionDescription.loc), ) as FunctionDescription; const isModifierCovered = _.some( coverageEntriesDescription.statementMap, (statementDescription: StatementDescription, statementId: number) => { const isInsideTheModifierEnclosingFunction = utils.isRangeInside( statementDescription, enclosingFunction.loc, ); const isCovered = statementCoverage[statementId]; return isInsideTheModifierEnclosingFunction && isCovered; }, ); const timesModifierCovered = Number(isModifierCovered); statementCoverage[modifierStatementId] = timesModifierCovered; } const partialCoverage = { [absoluteFileName]: { ...coverageEntriesDescription, path: absoluteFileName, f: functionCoverage, s: statementCoverage, b: branchCoverage, }, }; return partialCoverage; };