# JavaScript implementation of zkSNARKs. This is a JavaScript implementation of zkSNARK schemes. This library allows to do the trusted setup, generate proofs and verify the proofs. This library uses the compiled circuits generated by the jaz compiler. ## Install. ``` npm install zksnark ``` ## Usage. ### Import. ``` const zkSnark = require("zksnark"); ``` ### Load a circuit. ``` // "myCircuit.cir" is the output of the jaz compiler const circuitDef = JSON.parse(fs.readFileSync("myCircuit.cir", "utf8")); const circuit = new zkSnark.Circuit(circuitDef); ``` ### Inspect the circuit. ``` // `signalId` can always be a number or an alias string circuit.nConstraints; // number of constraints circuit.nSignals; // number of signals circuit.nPublic; // number of public signals (nOutputs + nPublicInputs) // The array of signals is always sorted in this order: // [ 1, outputs, publicInputs, privateInputs, internalSignals, constants] // returns a,b and c coeficients of the `signalId` on a given `constraint` circuit.a(constraint, signalId) circuit.b(constraint, signalId) circuit.c(constraint, signalId) circuit.nOutputs // number of public outputs circuit.pubInputs // number of public inputs circuit.nPrvInputs // number of private inputs circuit.nInputs // number of inputs ( nPublicInputs + nPrivateInputs) circuit.nVars // number of variables ( not including constants (one is a variable) ) circuit.nSignals // number of signals ( including constants ) circuit.outputIdx(i) // returns the index of the i'th output circuit.inputIdx(i) // returns the index of the i'th input circuit.pubInputIdx(i) // returns the index of the i'th public input circuit.prvInputIdx(i) // returns the index of the i'th private input circuit.varIdx(i) // returns the index of the i'th variable circuit.constantIdx(i) // returns the index of the i'th constant circuit.signalIdx(i) // returns the index of the i'th signal // returns signal Idx given a signalId // if the idx >= n , it is a constant // if the idx == -1, the signal does not exist circuit.getSignalIdx(name); // returns an array aliases names of the i'th signal circuit.signalNames(i) // input is a key value object where keys are the signal names // of all the inputs (public and private) // returns an array of values representing the witness circuit.calculateWitness(input) ``` ### Trusted setup. ``` const setup = zkSnark.setup(circuit); fs.writeFileSink("myCircuit.vk_proof", JSON.stringify(setup.vk_proof), "utf8"); fs.writeFileSink("myCircuit.vk_verifier", JSON.stringify(setup.vk_verifier), "utf8"); setup.toxic // Must be discarded. ``` ### Generate proof. ``` const circuitDef = JSON.parse(fs.readFileSync("myCircuit.cir", "utf8")); const circuit = new zkSnark.Circuit(circuitDef); const input = { "main.pubIn1": "123", "main.out1": "456" } const witness = circuit.calculateWitness(input); const vk_proof = JSON.parse(fs.readFileSync("myCircuit.vk_proof", "utf8")); const {proof, publicSignals} = zkSnark.genProof(vk_proof, witness); ``` ### Verifier. ``` const vk_verifier = JSON.parse(fs.readFileSync("myCircuit.vk_verifier", "utf8")); if (zkSnark.isValid(vk_verifier, proof, publicSignals)) { console.log("The proof is valid"); } else { console.log("The proof is not valid"); } ```