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const chai = require("chai"); const assert = chai.assert;
const fs = require("fs"); var tmp = require("tmp-promise"); const path = require("path"); const compiler = require("../../src/compiler");
const bigInt = require("big-integer"); const utils = require("../../src/utils"); const loadR1cs = require("r1csfile").load; const ZqField = require("ffjavascript").ZqField;
const WitnessCalculatorBuilder = require("circom_runtime").WitnessCalculatorBuilder;
module.exports = wasm_tester;
async function wasm_tester(circomFile, _options) { tmp.setGracefulCleanup();
const dir = await tmp.dir({prefix: "circom_", unsafeCleanup: true });
// console.log(dir.path);
const baseName = path.basename(circomFile, ".circom"); const options = Object.assign({}, _options);
options.wasmWriteStream = fs.createWriteStream(path.join(dir.path, baseName + ".wasm")); options.symWriteStream = fs.createWriteStream(path.join(dir.path, baseName + ".sym")); options.r1csFileName = path.join(dir.path, baseName + ".r1cs");
const promisesArr = []; promisesArr.push(new Promise(fulfill => options.wasmWriteStream.on("finish", fulfill)));
await compiler(circomFile, options);
await Promise.all(promisesArr);
const wasm = await fs.promises.readFile(path.join(dir.path, baseName + ".wasm"));
const wc = await WitnessCalculatorBuilder(wasm);
return new WasmTester(dir, baseName, wc); }
class WasmTester {
constructor(dir, baseName, witnessCalculator) { this.dir=dir; this.baseName = baseName; this.witnessCalculator = witnessCalculator; }
async release() { await this.dir.cleanup(); }
async calculateWitness(input) {
return await this.witnessCalculator.calculateWitness(input); }
async loadSymbols() { if (this.symbols) return; this.symbols = {}; const symsStr = await fs.promises.readFile( path.join(this.dir.path, this.baseName + ".sym"), "utf8" ); const lines = symsStr.split("\n"); for (let i=0; i<lines.length; i++) { const arr = lines[i].split(","); if (arr.length!=4) continue; this.symbols[arr[3]] = { labelIdx: Number(arr[0]), varIdx: Number(arr[1]), componentIdx: Number(arr[2]), }; } }
async loadConstraints() { const self = this; if (this.constraints) return; const r1cs = await loadR1cs(path.join(this.dir.path, this.baseName + ".r1cs"),true, false); self.field = new ZqField(r1cs.prime); self.nVars = r1cs.nVars; self.constraints = r1cs.constraints; }
async assertOut(actualOut, expectedOut) { const self = this; if (!self.symbols) await self.loadSymbols();
checkObject("main", expectedOut);
function checkObject(prefix, eOut) {
if (Array.isArray(eOut)) { for (let i=0; i<eOut.length; i++) { checkObject(prefix + "["+i+"]", eOut[i]); } } else if ((typeof eOut == "object")&&(eOut.constructor.name == "Object")) { for (let k in eOut) { checkObject(prefix + "."+k, eOut[k]); } } else { if (typeof self.symbols[prefix] == "undefined") { assert(false, "Output variable not defined: "+ prefix); } const ba = bigInt(actualOut[self.symbols[prefix].varIdx]).toString(); const be = bigInt(eOut).toString(); assert.strictEqual(ba, be, prefix); } } }
async getDecoratedOutput(witness) { const self = this; const lines = []; if (!self.symbols) await self.loadSymbols(); for (let n in self.symbols) { let v; if (utils.isDefined(witness[self.symbols[n].varIdx])) { v = witness[self.symbols[n].varIdx].toString(); } else { v = "undefined"; } lines.push(`${n} --> ${v}`); } return lines.join("\n"); }
async checkConstraints(witness) { const self = this; if (!self.constraints) await self.loadConstraints(); for (let i=0; i<self.constraints.length; i++) { checkConstraint(self.constraints[i]); }
function checkConstraint(constraint) { const F = self.field; const a = evalLC(constraint[0]); const b = evalLC(constraint[1]); const c = evalLC(constraint[2]);
assert (F.sub(F.mul(a,b), c).isZero(), "Constraint doesn't match"); }
function evalLC(lc) { const F = self.field; let v = F.zero; for (let w in lc) { v = F.add( v, F.mul( lc[w], witness[w] ) ); } return v; } }
}
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