|
|
package main
import ( "bufio" "bytes" "encoding/json" "errors" "fmt" "io/ioutil" "log" "math/big" "os"
snark "github.com/arnaucube/go-snark" "github.com/arnaucube/go-snark/circuitcompiler" "github.com/arnaucube/go-snark/r1csqap" "github.com/urfave/cli" )
func panicErr(err error) { if err != nil { panic(err) } }
var commands = []cli.Command{ { Name: "compile", Aliases: []string{}, Usage: "compile a circuit", Action: CompileCircuit, }, { Name: "trustedsetup", Aliases: []string{}, Usage: "generate trusted setup for a circuit", Action: TrustedSetup, }, { Name: "genproofs", Aliases: []string{}, Usage: "generate the snark proofs", Action: GenerateProofs, }, { Name: "verify", Aliases: []string{}, Usage: "verify the snark proofs", Action: VerifyProofs, }, }
func main() { app := cli.NewApp() app.Name = "go-snarks-cli" app.Version = "0.0.1-alpha" app.Flags = []cli.Flag{ cli.StringFlag{Name: "config"}, } app.Commands = commands
err := app.Run(os.Args) if err != nil { log.Fatal(err) } }
func CompileCircuit(context *cli.Context) error { fmt.Println("cli")
circuitPath := context.Args().Get(0)
// read circuit file
circuitFile, err := os.Open(circuitPath) panicErr(err)
// parse circuit code
parser := circuitcompiler.NewParser(bufio.NewReader(circuitFile)) circuit, err := parser.Parse() panicErr(err) fmt.Println("\ncircuit data:", circuit)
// read privateInputs file
privateInputsFile, err := ioutil.ReadFile("privateInputs.json") panicErr(err) // read publicInputs file
publicInputsFile, err := ioutil.ReadFile("publicInputs.json") panicErr(err)
// parse inputs from inputsFile
var inputs circuitcompiler.Inputs err = json.Unmarshal([]byte(string(privateInputsFile)), &inputs.Private) panicErr(err) err = json.Unmarshal([]byte(string(publicInputsFile)), &inputs.Public) panicErr(err)
// calculate wittness
w, err := circuit.CalculateWitness(inputs.Private, inputs.Public) panicErr(err) fmt.Println("\nwitness", w)
// flat code to R1CS
fmt.Println("\ngenerating R1CS from flat code") a, b, c := circuit.GenerateR1CS() fmt.Println("\nR1CS:") fmt.Println("a:", a) fmt.Println("b:", b) fmt.Println("c:", c)
// R1CS to QAP
alphas, betas, gammas, zx := snark.Utils.PF.R1CSToQAP(a, b, c) fmt.Println("qap") fmt.Println(alphas) fmt.Println(betas) fmt.Println(gammas)
ax, bx, cx, px := snark.Utils.PF.CombinePolynomials(w, alphas, betas, gammas)
hx := snark.Utils.PF.DivisorPolynomial(px, zx)
// hx==px/zx so px==hx*zx
// assert.Equal(t, px, snark.Utils.PF.Mul(hx, zx))
if !r1csqap.BigArraysEqual(px, snark.Utils.PF.Mul(hx, zx)) { panic(errors.New("px != hx*zx")) }
// p(x) = a(x) * b(x) - c(x) == h(x) * z(x)
abc := snark.Utils.PF.Sub(snark.Utils.PF.Mul(ax, bx), cx) // assert.Equal(t, abc, px)
if !r1csqap.BigArraysEqual(abc, px) { panic(errors.New("abc != px")) } hz := snark.Utils.PF.Mul(hx, zx) if !r1csqap.BigArraysEqual(abc, hz) { panic(errors.New("abc != hz")) } // assert.Equal(t, abc, hz)
div, rem := snark.Utils.PF.Div(px, zx) if !r1csqap.BigArraysEqual(hx, div) { panic(errors.New("hx != div")) } // assert.Equal(t, hx, div)
// assert.Equal(t, rem, r1csqap.ArrayOfBigZeros(4))
for _, r := range rem { if !bytes.Equal(r.Bytes(), big.NewInt(int64(0)).Bytes()) { panic(errors.New("error:error: px/zx rem not equal to zeros")) } }
// store circuit to json
jsonData, err := json.Marshal(circuit) panicErr(err) // store setup into file
jsonFile, err := os.Create("compiledcircuit.json") panicErr(err) defer jsonFile.Close() jsonFile.Write(jsonData) jsonFile.Close() fmt.Println("Compiled Circuit data written to ", jsonFile.Name())
return nil }
func TrustedSetup(context *cli.Context) error { // open compiledcircuit.json
compiledcircuitFile, err := ioutil.ReadFile("compiledcircuit.json") panicErr(err) var circuit circuitcompiler.Circuit json.Unmarshal([]byte(string(compiledcircuitFile)), &circuit) panicErr(err)
// read privateInputs file
privateInputsFile, err := ioutil.ReadFile("privateInputs.json") panicErr(err) // read publicInputs file
publicInputsFile, err := ioutil.ReadFile("publicInputs.json") panicErr(err)
// parse inputs from inputsFile
var inputs circuitcompiler.Inputs err = json.Unmarshal([]byte(string(privateInputsFile)), &inputs.Private) panicErr(err) err = json.Unmarshal([]byte(string(publicInputsFile)), &inputs.Public) panicErr(err)
// calculate wittness
w, err := circuit.CalculateWitness(inputs.Private, inputs.Public) panicErr(err)
// R1CS to QAP
alphas, betas, gammas, _ := snark.Utils.PF.R1CSToQAP(circuit.R1CS.A, circuit.R1CS.B, circuit.R1CS.C) fmt.Println("qap") fmt.Println(alphas) fmt.Println(betas) fmt.Println(gammas)
// calculate trusted setup
setup, err := snark.GenerateTrustedSetup(len(w), circuit, alphas, betas, gammas) panicErr(err) fmt.Println("\nt:", setup.Toxic.T)
// remove setup.Toxic
var tsetup snark.Setup tsetup.Pk = setup.Pk tsetup.Vk = setup.Vk tsetup.G1T = setup.G1T tsetup.G2T = setup.G2T
// store setup to json
jsonData, err := json.Marshal(tsetup) panicErr(err) // store setup into file
jsonFile, err := os.Create("trustedsetup.json") panicErr(err) defer jsonFile.Close() jsonFile.Write(jsonData) jsonFile.Close() fmt.Println("Trusted Setup data written to ", jsonFile.Name()) return nil }
func GenerateProofs(context *cli.Context) error { // open compiledcircuit.json
compiledcircuitFile, err := ioutil.ReadFile("compiledcircuit.json") panicErr(err) var circuit circuitcompiler.Circuit json.Unmarshal([]byte(string(compiledcircuitFile)), &circuit) panicErr(err)
// open trustedsetup.json
trustedsetupFile, err := ioutil.ReadFile("trustedsetup.json") panicErr(err) var trustedsetup snark.Setup json.Unmarshal([]byte(string(trustedsetupFile)), &trustedsetup) panicErr(err)
// read privateInputs file
privateInputsFile, err := ioutil.ReadFile("privateInputs.json") panicErr(err) // read publicInputs file
publicInputsFile, err := ioutil.ReadFile("publicInputs.json") panicErr(err) // parse inputs from inputsFile
var inputs circuitcompiler.Inputs err = json.Unmarshal([]byte(string(privateInputsFile)), &inputs.Private) panicErr(err) err = json.Unmarshal([]byte(string(publicInputsFile)), &inputs.Public) panicErr(err)
// calculate wittness
w, err := circuit.CalculateWitness(inputs.Private, inputs.Public) panicErr(err) fmt.Println("witness", w)
// flat code to R1CS
a := circuit.R1CS.A b := circuit.R1CS.B c := circuit.R1CS.C // R1CS to QAP
alphas, betas, gammas, _ := snark.Utils.PF.R1CSToQAP(a, b, c) _, _, _, px := snark.Utils.PF.CombinePolynomials(w, alphas, betas, gammas) hx := snark.Utils.PF.DivisorPolynomial(px, trustedsetup.Pk.Z)
fmt.Println(circuit) fmt.Println(trustedsetup.G1T) fmt.Println(hx) fmt.Println(w) proof, err := snark.GenerateProofs(circuit, trustedsetup, w, px) panicErr(err)
fmt.Println("\n proofs:") fmt.Println(proof)
// store proofs to json
jsonData, err := json.Marshal(proof) panicErr(err) // store proof into file
jsonFile, err := os.Create("proofs.json") panicErr(err) defer jsonFile.Close() jsonFile.Write(jsonData) jsonFile.Close() fmt.Println("Proofs data written to ", jsonFile.Name()) return nil }
func VerifyProofs(context *cli.Context) error { // open proofs.json
proofsFile, err := ioutil.ReadFile("proofs.json") panicErr(err) var proof snark.Proof json.Unmarshal([]byte(string(proofsFile)), &proof) panicErr(err)
// open compiledcircuit.json
compiledcircuitFile, err := ioutil.ReadFile("compiledcircuit.json") panicErr(err) var circuit circuitcompiler.Circuit json.Unmarshal([]byte(string(compiledcircuitFile)), &circuit) panicErr(err)
// open trustedsetup.json
trustedsetupFile, err := ioutil.ReadFile("trustedsetup.json") panicErr(err) var trustedsetup snark.Setup json.Unmarshal([]byte(string(trustedsetupFile)), &trustedsetup) panicErr(err)
// read publicInputs file
publicInputsFile, err := ioutil.ReadFile("publicInputs.json") panicErr(err) var publicSignals []*big.Int err = json.Unmarshal([]byte(string(publicInputsFile)), &publicSignals) panicErr(err)
verified := snark.VerifyProof(circuit, trustedsetup, proof, publicSignals, true) if !verified { fmt.Println("ERROR: proofs not verified") } else { fmt.Println("Proofs verified") } return nil }
|