/** * Writes data from the VM step to the in-memory * coverage map constructed by the Instrumenter. */ class DataCollector { constructor(instrumentationData={}, viaIR){ this.instrumentationData = instrumentationData; this.validOpcodes = this._getOpcodes(viaIR); this.lastHash = null; this.viaIR = viaIR; this.pcZeroCounter = 0; this.lastPcZeroCount = 0; } /** * VM step event handler. Detects instrumentation hashes when they are pushed to the * top of the stack. This runs millions of times - trying to keep it fast. * @param {Object} info vm step info */ step(info){ if (info.pc === 0) this.pcZeroCounter++; try { if (this.validOpcodes[info.opcode.name] && info.stack.length > 0){ const idx = info.stack.length - 1; let hash = '0x' + info.stack[idx].toString(16); this._registerHash(hash); } } catch (err) { /*Ignore*/ }; } /** * Normalizes has string and marks hit. * @param {String} hash bytes32 hash */ _registerHash(hash){ hash = this._normalizeHash(hash); if(this.instrumentationData[hash]){ // abi.encode (used to circumvent viaIR) sometimes puts the hash on the stack twice // We should only skip duplicate hashes *within* a transaction (see issue #863) if (this.lastHash !== hash || this.lastPcZeroCount !== this.pcZeroCounter) { this.lastHash = hash; this.lastPcZeroCount = this.pcZeroCounter; this.instrumentationData[hash].hits++ } return; } } /** * Left-pads zero prefixed bytes8 hashes to length 18. The '11' in the * comparison below is arbitrary. It provides a margin for recurring zeros * but prevents left-padding shorter irrelevant hashes * * @param {String} hash data hash from evm stack. * @return {String} 0x prefixed hash of length 18. */ _normalizeHash(hash){ // viaIR sometimes right-pads the hashes out to 32 bytes // but it doesn't preserve leading zeroes when it does this if (this.viaIR && hash.length >= 18) { hash = hash.slice(0,18); // Detect and recover from viaIR mangled hashes by left-padding single `0` if(!this.instrumentationData[hash]) { hash = hash.slice(2); hash = '0' + hash; hash = hash.slice(0,16); hash = '0x' + hash; } } else if (hash.length < 18 && hash.length > 11){ hash = hash.slice(2); while(hash.length < 16) hash = '0' + hash; hash = '0x' + hash } return hash; } /** * Generates a list of all the opcodes to inspect for instrumentation hashes * When viaIR is true, it includes all DUPs and PUSHs, so things are a little slower. * @param {boolean} viaIR */ _getOpcodes(viaIR) { let opcodes = { "PUSH1": true }; for (let i = 2; i <= 32; i++) { const key = "PUSH" + i; opcodes[key] = viaIR; }; for (let i = 1; i <= 16; i++ ) { const key = "DUP" + i; opcodes[key] = viaIR; } for (let i = 1; i <= 16; i++ ) { const key = "SWAP" + i; opcodes[key] = viaIR; } return opcodes; } /** * Unit test helper * @param {Object} data Instrumenter.instrumentationData */ _setInstrumentationData(data){ this.instrumentationData = data; } } module.exports = DataCollector;