/* Copyright 2018 0KIMS association. This file is part of jaz (Zero Knowledge Circuit Compiler). jaz is a free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. jaz is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with jaz. If not, see . */ /* eslint-disable no-console */ import fs from "fs"; import {load as loadR1cs} from "r1csfile"; import loadSyms from "./src/loadsyms.js"; import * as r1cs from "./src/r1cs.js"; import clProcessor from "./src/clprocessor.js"; import * as powersOfTau from "./src/powersoftau.js"; import { utils } from "ffjavascript"; const {stringifyBigInts, unstringifyBigInts} = utils; import * as zkey from "./src/zkey.js"; import * as groth16 from "./src/groth16.js"; import * as wtns from "./src/wtns.js"; import * as curves from "./src/curves.js"; import path from "path"; import Logger from "logplease"; const logger = Logger.create("snarkJS", {showTimestamp:false}); Logger.setLogLevel("INFO"); const __dirname = path.dirname(new URL(import.meta.url).pathname); const commands = [ { cmd: "powersoftau new [powersoftau_0000.ptau]", description: "Starts a powers of tau ceremony", alias: ["ptn"], options: "-verbose|v", action: powersOfTauNew }, { cmd: "powersoftau contribute ", description: "creates a ptau file with a new contribution", alias: ["ptc"], options: "-verbose|v -name|n -entropy|e", action: powersOfTauContribute }, { cmd: "powersoftau export challenge [challenge]", description: "Creates a challenge", alias: ["ptec"], options: "-verbose|v", action: powersOfTauExportChallenge }, { cmd: "powersoftau challenge contribute [response]", description: "Contribute to a challenge", alias: ["ptcc"], options: "-verbose|v -entropy|e", action: powersOfTauChallengeContribute }, { cmd: "powersoftau import response <", description: "import a response to a ptau file", alias: ["ptir"], options: "-verbose|v -nopoints -nocheck -name|n", action: powersOfTauImport }, { cmd: "powersoftau beacon ", description: "adds a beacon", alias: ["ptb"], options: "-verbose|v -name|n", action: powersOfTauBeacon }, { cmd: "powersoftau prepare phase2 ", description: "Prepares phase 2. ", longDescription: " This process calculates the evaluation of the Lagrange polinomials at tau for alpha*tau and beta tau", alias: ["pt2"], options: "-verbose|v", action: powersOfTauPreparePhase2 }, { cmd: "powersoftau convert ", description: "Convert ptau", longDescription: " This process calculates the evaluation of the Lagrange polinomials at tau for alpha*tau and beta tau", alias: ["ptcv"], options: "-verbose|v", action: powersOfTauConvert }, { cmd: "powersoftau truncate ", description: "Generate diferent powers of tau with smoller sizes ", longDescription: " This process generates smaller ptau files from a bigger power ptau", alias: ["ptt"], options: "-verbose|v", action: powersOfTauTruncate }, { cmd: "powersoftau verify ", description: "verifies a powers of tau file", alias: ["ptv"], options: "-verbose|v", action: powersOfTauVerify }, { cmd: "powersoftau export json ", description: "Exports a power of tau file to a JSON", alias: ["ptej"], options: "-verbose|v", action: powersOfTauExportJson }, { cmd: "r1cs info [circuit.r1cs]", description: "Print statistiscs of a circuit", alias: ["ri", "info -r|r1cs:circuit.r1cs"], action: r1csInfo }, { cmd: "r1cs print [circuit.r1cs] [circuit.sym]", description: "Print the constraints of a circuit", alias: ["rp", "print -r|r1cs:circuit.r1cs -s|sym"], action: r1csPrint }, { cmd: "r1cs export json [circuit.r1cs] [circuit.json]", description: "Export r1cs to JSON file", alias: ["rej"], action: r1csExportJSON }, { cmd: "wtns calculate [circuit.wasm] [input.json] [witness.wtns]", description: "Caclculate specific witness of a circuit given an input", alias: ["wc", "calculatewitness -ws|wasm:circuit.wasm -i|input:input.json -wt|witness:witness.wtns"], action: wtnsCalculate }, { cmd: "wtns debug [circuit.wasm] [input.json] [witness.wtns] [circuit.sym]", description: "Calculate the witness with debug info.", longDescription: "Calculate the witness with debug info. \nOptions:\n-g or --g : Log signal gets\n-s or --s : Log signal sets\n-t or --trigger : Log triggers ", options: "-get|g -set|s -trigger|t", alias: ["wd"], action: wtnsDebug }, { cmd: "wtns export json [witness.wtns] [witnes.json]", description: "Calculate the witness with debug info.", longDescription: "Calculate the witness with debug info. \nOptions:\n-g or --g : Log signal gets\n-s or --s : Log signal sets\n-t or --trigger : Log triggers ", options: "-verbose|v", alias: ["wej"], action: wtnsExportJson }, { cmd: "zkey new [circuit.r1cs] [powersoftau.ptau] [circuit.zkey]", description: "Creates an initial pkey file with zero contributions ", alias: ["zkn"], options: "-verbose|v", action: zkeyNew }, { cmd: "zkey contribute ", description: "creates a zkey file with a new contribution", alias: ["zkc"], options: "-verbose|v -entropy|e -name|n", action: zkeyContribute }, { cmd: "zkey export bellman [circuit.zkey] [circuit.mpcparams]", description: "Export a zKey to a MPCParameters file compatible with kobi/phase2 (Bellman)", alias: ["zkeb"], options: "-verbose|v", action: zkeyExportBellman }, { cmd: "zkey bellman contribute ", description: "contributes to a challenge file in bellman format", alias: ["zkbc"], options: "-verbose|v -entropy|e", action: zkeyBellmanContribute }, { cmd: "zkey import bellman ", description: "Export a zKey to a MPCParameters file compatible with kobi/phase2 (Bellman) ", alias: ["zkib"], options: "-verbose|v -name|n", action: zkeyImportBellman }, { cmd: "zkey beacon ", description: "adds a beacon", alias: ["zkb"], options: "-verbose|v -name|n", action: zkeyBeacon }, { cmd: "zkey verify [circuit.r1cs] [powersoftau.ptau] [circuit.zkey]", description: "Verify zkey file contributions and verify that matches with the original circuit.r1cs and ptau", alias: ["zkv"], options: "-verbose|v", action: zkeyVerify }, { cmd: "zkey export verificationkey [circuit.zkey] [verification_key.json]", description: "Exports a verification key", alias: ["zkev"], action: zkeyExportVKey }, { cmd: "zkey export json [circuit.zkey] [circuit.zkey.json]", description: "Exports a circuit key to a JSON file", alias: ["zkej"], options: "-verbose|v", action: zkeyExportJson }, { cmd: "zkey export solidityverifier [circuit.zkey] [verifier.sol]", description: "Creates a verifier in solidity", alias: ["zkesv", "generateverifier -vk|verificationkey -v|verifier"], action: zkeyExportSolidityVerifier }, { cmd: "zkey export soliditycalldata ", description: "Generates call parameters ready to be called.", alias: ["zkesc", "generatecall -pub|public -p|proof"], action: zkeyExportSolidityCalldata }, { cmd: "groth16 prove [circuit.zkey] [witness.wtns] [proof.json] [public.json]", description: "Generates a zk Proof from witness", alias: ["g16p", "zpw", "zksnark proof", "proof -pk|provingkey -wt|witness -p|proof -pub|public"], options: "-verbose|v -protocol", action: groth16Prove }, { cmd: "groth16 fullprove [input.json] [circuit.wasm] [circuit.zkey] [proof.json] [public.json]", description: "Generates a zk Proof from input", alias: ["g16f", "g16i"], options: "-verbose|v -protocol", action: groth16FullProve }, { cmd: "groth16 verify [verification_key.json] [public.json] [proof.json]", description: "Verify a zk Proof", alias: ["g16v", "verify -vk|verificationkey -pub|public -p|proof"], action: groth16Verify }, ]; clProcessor(commands).then( (res) => { process.exit(res); }, (err) => { logger.error(err); process.exit(1); }); /* TODO COMMANDS ============= { cmd: "zksnark setup [circuit.r1cs] [circuit.zkey] [verification_key.json]", description: "Run a simple setup for a circuit generating the proving key.", alias: ["zs", "setup -r1cs|r -provingkey|pk -verificationkey|vk"], options: "-verbose|v -protocol", action: zksnarkSetup }, { cmd: "witness verify ", description: "Verify a witness agains a r1cs", alias: ["wv"], action: witnessVerify }, { cmd: "powersOfTau export response" } */ function p256(n) { let nstr = n.toString(16); while (nstr.length < 64) nstr = "0"+nstr; nstr = `"0x${nstr}"`; return nstr; } function changeExt(fileName, newExt) { let S = fileName; while ((S.length>0) && (S[S.length-1] != ".")) S = S.slice(0, S.length-1); if (S.length>0) { return S + newExt; } else { return fileName+"."+newExt; } } // r1cs export circomJSON [circuit.r1cs] [circuit.json] async function r1csInfo(params, options) { const r1csName = params[0] || "circuit.r1cs"; if (options.verbose) Logger.setLogLevel("DEBUG"); await r1cs.info(r1csName, logger); return 0; } // r1cs print [circuit.r1cs] [circuit.sym] async function r1csPrint(params, options) { const r1csName = params[0] || "circuit.r1cs"; const symName = params[1] || changeExt(r1csName, "sym"); if (options.verbose) Logger.setLogLevel("DEBUG"); const cir = await loadR1cs(r1csName, true, true); const sym = await loadSyms(symName); await r1cs.print(cir, sym, logger); return 0; } // r1cs export json [circuit.r1cs] [circuit.json] async function r1csExportJSON(params, options) { const r1csName = params[0] || "circuit.r1cs"; const jsonName = params[1] || changeExt(r1csName, "json"); if (options.verbose) Logger.setLogLevel("DEBUG"); const r1csObj = await r1cs.exportJson(r1csName, logger); const S = JSON.stringify(utils.stringifyBigInts(r1csObj), null, 1); await fs.promises.writeFile(jsonName, S); return 0; } // wtns calculate async function wtnsCalculate(params, options) { const wasmName = params[0] || "circuit.wasm"; const inputName = params[1] || "input.json"; const witnessName = params[2] || "witness.wtns"; if (options.verbose) Logger.setLogLevel("DEBUG"); const input = unstringifyBigInts(JSON.parse(await fs.promises.readFile(inputName, "utf8"))); await wtns.calculate(input, wasmName, witnessName, {}); return 0; } // wtns debug // -get|g -set|s -trigger|t async function wtnsDebug(params, options) { const wasmName = params[0] || "circuit.wasm"; const inputName = params[1] || "input.json"; const witnessName = params[2] || "witness.wtns"; const symName = params[3] || changeExt(wasmName, "sym"); if (options.verbose) Logger.setLogLevel("DEBUG"); const input = unstringifyBigInts(JSON.parse(await fs.promises.readFile(inputName, "utf8"))); await wtns.debug(input, wasmName, witnessName, symName, options, logger); return 0; } // wtns export json [witness.wtns] [witness.json] // -get|g -set|s -trigger|t async function wtnsExportJson(params, options) { const wtnsName = params[0] || "witness.wtns"; const jsonName = params[1] || "witness.json"; if (options.verbose) Logger.setLogLevel("DEBUG"); const w = await wtns.exportJson(wtnsName); await fs.promises.writeFile(jsonName, JSON.stringify(stringifyBigInts(w), null, 1)); return 0; } /* // zksnark setup [circuit.r1cs] [circuit.zkey] [verification_key.json] async function zksnarkSetup(params, options) { const r1csName = params[0] || "circuit.r1cs"; const zkeyName = params[1] || changeExt(r1csName, "zkey"); const verificationKeyName = params[2] || "verification_key.json"; const protocol = options.protocol || "groth16"; const cir = await loadR1cs(r1csName, true); if (!zkSnark[protocol]) throw new Error("Invalid protocol"); const setup = zkSnark[protocol].setup(cir, options.verbose); await zkey.utils.write(zkeyName, setup.vk_proof); // await fs.promises.writeFile(provingKeyName, JSON.stringify(stringifyBigInts(setup.vk_proof), null, 1), "utf-8"); await fs.promises.writeFile(verificationKeyName, JSON.stringify(stringifyBigInts(setup.vk_verifier), null, 1), "utf-8"); return 0; } */ // groth16 prove [circuit.zkey] [witness.wtns] [proof.json] [public.json] async function groth16Prove(params, options) { const zkeyName = params[0] || "circuit.zkey"; const witnessName = params[1] || "witness.wtns"; const proofName = params[2] || "proof.json"; const publicName = params[3] || "public.json"; if (options.verbose) Logger.setLogLevel("DEBUG"); const {proof, publicSignals} = await groth16.prove(zkeyName, witnessName, logger); await fs.promises.writeFile(proofName, JSON.stringify(stringifyBigInts(proof), null, 1), "utf-8"); await fs.promises.writeFile(publicName, JSON.stringify(stringifyBigInts(publicSignals), null, 1), "utf-8"); return 0; } // groth16 fullprove [input.json] [circuit.wasm] [circuit.zkey] [proof.json] [public.json] async function groth16FullProve(params, options) { const inputName = params[0] || "input.json"; const wasmName = params[1] || "circuit.wasm"; const zkeyName = params[2] || "circuit.zkey"; const proofName = params[3] || "proof.json"; const publicName = params[4] || "public.json"; if (options.verbose) Logger.setLogLevel("DEBUG"); const input = unstringifyBigInts(JSON.parse(await fs.promises.readFile(inputName, "utf8"))); const {proof, publicSignals} = await groth16.fullProve(input, wasmName, zkeyName, logger); await fs.promises.writeFile(proofName, JSON.stringify(stringifyBigInts(proof), null, 1), "utf-8"); await fs.promises.writeFile(publicName, JSON.stringify(stringifyBigInts(publicSignals), null, 1), "utf-8"); return 0; } // groth16 verify [verification_key.json] [public.json] [proof.json] async function groth16Verify(params, options) { const verificationKeyName = params[0] || "verification_key.json"; const publicName = params[1] || "public.json"; const proofName = params[2] || "proof.json"; const verificationKey = unstringifyBigInts(JSON.parse(fs.readFileSync(verificationKeyName, "utf8"))); const pub = unstringifyBigInts(JSON.parse(fs.readFileSync(publicName, "utf8"))); const proof = unstringifyBigInts(JSON.parse(fs.readFileSync(proofName, "utf8"))); if (options.verbose) Logger.setLogLevel("DEBUG"); const isValid = await groth16.verify(verificationKey, pub, proof, logger); if (isValid) { return 0; } else { return 1; } } // zkey export vkey [circuit.zkey] [verification_key.json]", async function zkeyExportVKey(params, options) { const zkeyName = params[0] || "circuit.zkey"; const verificationKeyName = params[1] || "verification_key.json"; if (options.verbose) Logger.setLogLevel("DEBUG"); const vKey = await zkey.exportVerificationKey(zkeyName); const S = JSON.stringify(utils.stringifyBigInts(vKey), null, 1); await fs.promises.writeFile(verificationKeyName, S); } // zkey export json [circuit.zkey] [circuit.zkey.json]", async function zkeyExportJson(params, options) { const zkeyName = params[0] || "circuit.zkey"; const zkeyJsonName = params[1] || "circuit.zkey.json"; if (options.verbose) Logger.setLogLevel("DEBUG"); const zKey = await zkey.exportJson(zkeyName, logger); const S = JSON.stringify(utils.stringifyBigInts(zKey), null, 1); await fs.promises.writeFile(zkeyJsonName, S); } // solidity genverifier [circuit.zkey] [verifier.sol] async function zkeyExportSolidityVerifier(params, options) { let zkeyName; let verifierName; if (params.length < 1) { zkeyName = "circuit.zkey"; } else { zkeyName = params[0]; } if (params.length < 2) { verifierName = "verifier.sol"; } else { verifierName = params[1]; } if (options.verbose) Logger.setLogLevel("DEBUG"); let templateName; try { templateName = path.join( __dirname, "templates", "verifier_groth16.sol"); await fs.promises.stat(templateName); } catch (err) { templateName = path.join( __dirname, "..", "templates", "verifier_groth16.sol"); } const verifierCode = await zkey.exportSolidityVerifier(zkeyName, templateName, logger); fs.writeFileSync(verifierName, verifierCode, "utf-8"); return 0; } // solidity gencall async function zkeyExportSolidityCalldata(params, options) { let publicName; let proofName; if (params.length < 1) { publicName = "public.json"; } else { publicName = params[0]; } if (params.length < 2) { proofName = "proof.json"; } else { proofName = params[1]; } if (options.verbose) Logger.setLogLevel("DEBUG"); const pub = unstringifyBigInts(JSON.parse(fs.readFileSync(publicName, "utf8"))); const proof = unstringifyBigInts(JSON.parse(fs.readFileSync(proofName, "utf8"))); let inputs = ""; for (let i=0; i [powersoftau_0000.ptau]", async function powersOfTauNew(params, options) { let curveName; let power; let ptauName; curveName = params[0]; power = parseInt(params[1]); if ((power<1) || (power>28)) { throw new Error("Power must be between 1 and 28"); } if (params.length < 3) { ptauName = "powersOfTau" + power + "_0000.ptau"; } else { ptauName = params[2]; } const curve = await curves.getCurveFromName(curveName); if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.newAccumulator(curve, power, ptauName, logger); } async function powersOfTauExportChallenge(params, options) { let ptauName; let challengeName; ptauName = params[0]; if (params.length < 2) { challengeName = "challenge"; } else { challengeName = params[1]; } if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.exportChallenge(ptauName, challengeName, logger); } // powersoftau challenge contribute [response] async function powersOfTauChallengeContribute(params, options) { let challengeName; let responseName; const curve = await curves.getCurveFromName(params[0]); challengeName = params[1]; if (params.length < 3) { responseName = changeExt(challengeName, "response"); } else { responseName = params[2]; } if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.challengeContribute(curve, challengeName, responseName, options.entropy, logger); } async function powersOfTauImport(params, options) { let oldPtauName; let response; let newPtauName; let importPoints = true; let doCheck = true; oldPtauName = params[0]; response = params[1]; newPtauName = params[2]; if (options.nopoints) importPoints = false; if (options.nocheck) doCheck = false; if (options.verbose) Logger.setLogLevel("DEBUG"); const res = await powersOfTau.importResponse(oldPtauName, response, newPtauName, options.name, importPoints, logger); if (res) return res; if (!doCheck) return; // TODO Verify } async function powersOfTauVerify(params, options) { let ptauName; ptauName = params[0]; if (options.verbose) Logger.setLogLevel("DEBUG"); const res = await powersOfTau.verify(ptauName, logger); if (res === true) { return 0; } else { return 1; } } async function powersOfTauBeacon(params, options) { let oldPtauName; let newPtauName; let beaconHashStr; let numIterationsExp; oldPtauName = params[0]; newPtauName = params[1]; beaconHashStr = params[2]; numIterationsExp = params[3]; if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.beacon(oldPtauName, newPtauName, options.name ,beaconHashStr, numIterationsExp, logger); } async function powersOfTauContribute(params, options) { let oldPtauName; let newPtauName; oldPtauName = params[0]; newPtauName = params[1]; if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.contribute(oldPtauName, newPtauName, options.name , options.entropy, logger); } async function powersOfTauPreparePhase2(params, options) { let oldPtauName; let newPtauName; oldPtauName = params[0]; newPtauName = params[1]; if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.preparePhase2(oldPtauName, newPtauName, logger); } async function powersOfTauConvert(params, options) { let oldPtauName; let newPtauName; oldPtauName = params[0]; newPtauName = params[1]; if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.convert(oldPtauName, newPtauName, logger); } async function powersOfTauTruncate(params, options) { let ptauName; ptauName = params[0]; let template = ptauName; while ((template.length>0) && (template[template.length-1] != ".")) template = template.slice(0, template.length-1); template = template.slice(0, template.length-1); template = template+"_"; if (options.verbose) Logger.setLogLevel("DEBUG"); return await powersOfTau.truncate(ptauName, template, logger); } // powersoftau export json ", async function powersOfTauExportJson(params, options) { let ptauName; let jsonName; ptauName = params[0]; jsonName = params[1]; if (options.verbose) Logger.setLogLevel("DEBUG"); const pTau = await powersOfTau.exportJson(ptauName, logger); const S = JSON.stringify(stringifyBigInts(pTau), null, 1); await fs.promises.writeFile(jsonName, S); } // phase2 new async function zkeyNew(params, options) { let r1csName; let ptauName; let zkeyName; if (params.length < 1) { r1csName = "circuit.r1cs"; } else { r1csName = params[0]; } if (params.length < 2) { ptauName = "powersoftau.ptau"; } else { ptauName = params[1]; } if (params.length < 3) { zkeyName = "circuit.zkey"; } else { zkeyName = params[2]; } if (options.verbose) Logger.setLogLevel("DEBUG"); return zkey.newZKey(r1csName, ptauName, zkeyName, logger); } // zkey export bellman [circuit.zkey] [circuit.mpcparams] async function zkeyExportBellman(params, options) { let zkeyName; let mpcparamsName; if (params.length < 1) { zkeyName = "circuit.zkey"; } else { zkeyName = params[0]; } if (params.length < 2) { mpcparamsName = "circuit.mpcparams"; } else { mpcparamsName = params[1]; } if (options.verbose) Logger.setLogLevel("DEBUG"); return zkey.exportBellman(zkeyName, mpcparamsName, logger); } // zkey import bellman async function zkeyImportBellman(params, options) { let zkeyNameOld; let mpcParamsName; let zkeyNameNew; zkeyNameOld = params[0]; mpcParamsName = params[1]; zkeyNameNew = params[2]; if (options.verbose) Logger.setLogLevel("DEBUG"); return zkey.importBellman(zkeyNameOld, mpcParamsName, zkeyNameNew, options.name, logger); } // phase2 verify [circuit.r1cs] [powersoftau.ptau] [circuit.zkey] async function zkeyVerify(params, options) { let r1csName; let ptauName; let zkeyName; if (params.length < 1) { r1csName = "circuit.r1cs"; } else { r1csName = params[0]; } if (params.length < 2) { ptauName = "powersoftau.ptau"; } else { ptauName = params[1]; } if (params.length < 3) { zkeyName = "circuit.zkey"; } else { zkeyName = params[2]; } if (options.verbose) Logger.setLogLevel("DEBUG"); const res = await zkey.verify(r1csName, ptauName, zkeyName, logger); if (res === true) { return 0; } else { return 1; } } // zkey contribute async function zkeyContribute(params, options) { let zkeyOldName; let zkeyNewName; zkeyOldName = params[0]; zkeyNewName = params[1]; if (options.verbose) Logger.setLogLevel("DEBUG"); return zkey.contribute(zkeyOldName, zkeyNewName, options.name, options.entropy, logger); } // zkey beacon async function zkeyBeacon(params, options) { let zkeyOldName; let zkeyNewName; let beaconHashStr; let numIterationsExp; zkeyOldName = params[0]; zkeyNewName = params[1]; beaconHashStr = params[2]; numIterationsExp = params[3]; if (options.verbose) Logger.setLogLevel("DEBUG"); return await zkey.beacon(zkeyOldName, zkeyNewName, options.name ,beaconHashStr, numIterationsExp, logger); } // zkey challenge contribute [response]", async function zkeyBellmanContribute(params, options) { let challengeName; let responseName; const curve = await curves.getCurveFromName(params[0]); challengeName = params[1]; if (params.length < 3) { responseName = changeExt(challengeName, "response"); } else { responseName = params[2]; } if (options.verbose) Logger.setLogLevel("DEBUG"); return zkey.bellmanContribute(curve, challengeName, responseName, options.entropy, logger); }