import { stripHexPrefix } from 'ethereumjs-util';
import * as _ from 'lodash';
import { getLogger, levels, Logger } from 'loglevel';
import { AbstractArtifactAdapter } from './artifact_adapters/abstract_artifact_adapter';
import { constants } from './constants';
import { getSourceRangeSnippet } from './get_source_range_snippet';
import { getRevertTrace } from './revert_trace';
import { parseSourceMap } from './source_maps';
import { TraceCollectionSubprovider } from './trace_collection_subprovider';
import { ContractData, EvmCallStack, SourceRange, SourceSnippet } from './types';
import { utils } from './utils';
/**
* This class implements the [web3-provider-engine](https://github.com/MetaMask/provider-engine) subprovider interface.
* It is used to report call stack traces whenever a revert occurs.
*/
export class RevertTraceSubprovider extends TraceCollectionSubprovider {
// Lock is used to not accept normal transactions while doing call/snapshot magic because they'll be reverted later otherwise
private _contractsData!: ContractData[];
private readonly _artifactAdapter: AbstractArtifactAdapter;
private readonly _logger: Logger;
/**
* Instantiates a RevertTraceSubprovider 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._artifactAdapter = artifactAdapter;
this._logger = getLogger('sol-cov');
this._logger.setLevel(isVerbose ? levels.TRACE : levels.ERROR);
}
// tslint:disable-next-line:no-unused-variable
protected async _recordTxTraceAsync(address: string, data: string | undefined, txHash: string): Promise<void> {
await this._web3Wrapper.awaitTransactionMinedAsync(txHash, 0);
const trace = await this._web3Wrapper.getTransactionTraceAsync(txHash, {
disableMemory: true,
disableStack: false,
disableStorage: true,
});
const evmCallStack = getRevertTrace(trace.structLogs, address);
if (evmCallStack.length > 0) {
// if getRevertTrace returns a call stack it means there was a
// revert.
await this._printStackTraceAsync(evmCallStack);
}
}
private async _printStackTraceAsync(evmCallStack: EvmCallStack): Promise<void> {
const sourceSnippets: SourceSnippet[] = [];
if (_.isUndefined(this._contractsData)) {
this._contractsData = await this._artifactAdapter.collectContractsDataAsync();
}
for (const evmCallStackEntry of evmCallStack) {
const isContractCreation = evmCallStackEntry.address === constants.NEW_CONTRACT;
if (isContractCreation) {
this._logger.error('Contract creation not supported');
continue;
}
const bytecode = await this._web3Wrapper.getContractCodeAsync(evmCallStackEntry.address);
const contractData = utils.getContractDataIfExists(this._contractsData, bytecode);
if (_.isUndefined(contractData)) {
const errMsg = isContractCreation
? `Unknown contract creation transaction`
: `Transaction to an unknown address: ${evmCallStackEntry.address}`;
this._logger.warn(errMsg);
continue;
}
const bytecodeHex = stripHexPrefix(bytecode);
const sourceMap = isContractCreation ? contractData.sourceMap : contractData.sourceMapRuntime;
const pcToSourceRange = parseSourceMap(
contractData.sourceCodes,
sourceMap,
bytecodeHex,
contractData.sources,
);
// tslint:disable-next-line:no-unnecessary-initializer
let sourceRange: SourceRange | undefined = undefined;
let pc = evmCallStackEntry.structLog.pc;
// Sometimes there is not a mapping for this pc (e.g. if the revert
// actually happens in assembly). In that case, we want to keep
// searching backwards by decrementing the pc until we find a
// mapped source range.
while (_.isUndefined(sourceRange) && pc > 0) {
sourceRange = pcToSourceRange[pc];
pc -= 1;
}
if (_.isUndefined(sourceRange)) {
this._logger.warn(
`could not find matching sourceRange for structLog: ${JSON.stringify(
_.omit(evmCallStackEntry.structLog, 'stack'),
)}`,
);
continue;
}
const fileIndex = contractData.sources.indexOf(sourceRange.fileName);
const sourceSnippet = getSourceRangeSnippet(sourceRange, contractData.sourceCodes[fileIndex]);
if (sourceSnippet !== null) {
sourceSnippets.push(sourceSnippet);
}
}
const filteredSnippets = filterSnippets(sourceSnippets);
if (filteredSnippets.length > 0) {
this._logger.error('\n\nStack trace for REVERT:\n');
_.forEach(_.reverse(filteredSnippets), snippet => {
const traceString = getStackTraceString(snippet);
this._logger.error(traceString);
});
this._logger.error('\n');
} else {
this._logger.error('REVERT detected but could not determine stack trace');
}
}
}
// removes duplicates and if statements
function filterSnippets(sourceSnippets: SourceSnippet[]): SourceSnippet[] {
if (sourceSnippets.length === 0) {
return [];
}
const results: SourceSnippet[] = [sourceSnippets[0]];
let prev = sourceSnippets[0];
for (const sourceSnippet of sourceSnippets) {
if (sourceSnippet.type === 'IfStatement') {
continue;
} else if (sourceSnippet.source === prev.source) {
prev = sourceSnippet;
continue;
}
results.push(sourceSnippet);
prev = sourceSnippet;
}
return results;
}
function getStackTraceString(sourceSnippet: SourceSnippet): string {
let result = `${sourceSnippet.fileName}:${sourceSnippet.range.start.line}:${sourceSnippet.range.start.column}`;
const snippetString = getSourceSnippetString(sourceSnippet);
if (snippetString !== '') {
result += `:\n ${snippetString}`;
}
return result;
}
function getSourceSnippetString(sourceSnippet: SourceSnippet): string {
switch (sourceSnippet.type) {
case 'ContractDefinition':
return `contract ${sourceSnippet.name}`;
case 'FunctionDefinition':
return `function ${sourceSnippet.name}`;
default:
return `${sourceSnippet.source}`;
}
}
