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examples: improve ZKP production example
Add more detailed errors and comments. Signed-off-by: Anna Shaleva <shaleva.ann@nspcc.ru>
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1 changed files with 20 additions and 7 deletions
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@ -1,6 +1,7 @@
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package cubic
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import (
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"fmt"
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"math"
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"os"
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"path/filepath"
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@ -156,6 +157,12 @@ func TestCubicCircuit_EndToEnd(t *testing.T) {
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// result for proving/verifying keys generation and demonstrates how to contribute
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// some randomness into it.
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func TestCubicCircuit_EndToEnd_Prod(t *testing.T) {
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const (
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// Response file generated locally for 2^8 powers.
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pathToResponseFile = "./response8"
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// The order of Powers of Tau ceremony, it depends on the response file.
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orderOfResponseFile = 8
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)
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var (
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circuit CubicCircuit
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assignment = CubicCircuit{X: 3, Y: 35}
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@ -166,8 +173,10 @@ func TestCubicCircuit_EndToEnd_Prod(t *testing.T) {
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require.NoError(t, err)
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// Setup (groth16 zkSNARK), use MPC-based solution for proving and verifying
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// keys generation.
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pk, vk := setup(t, ccs, "./response8", 8) // the order of Powers of Tau ceremony, depends on the response file.
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// keys generation. Please, be careful while adopting this code for your circuit.
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// Ensure that response file that you've provided contains enough powers computed
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// so that the number of constraints in your circuit can be handled.
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pk, vk := setup(t, ccs, pathToResponseFile, orderOfResponseFile)
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// Intermediate step: witness definition.
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witness, err := frontend.NewWitness(&assignment, ecc.BLS12_381.ScalarField())
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@ -262,20 +271,21 @@ func setup(t *testing.T, ccs constraint.ConstraintSystem, phase1ResponsePath str
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beta_coef_g1 := make([]curve.G1Affine, inN)
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// Accumulator serialization: https://github.com/filecoin-project/powersoftau/blob/ab8f85c28f04af5a99cfcc93a3b1f74c06f94105/src/accumulator.rs#L111
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errMessage := fmt.Sprintf("ensure your response file contains exactly 2^%d powers of tau for BLS12-381 curve", inPow)
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for i := range coef_g1 {
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require.NoError(t, dec.Decode(&coef_g1[i]))
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require.NoError(t, dec.Decode(&coef_g1[i]), errMessage)
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}
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for i := range coef_g2 {
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require.NoError(t, dec.Decode(&coef_g2[i]))
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require.NoError(t, dec.Decode(&coef_g2[i]), errMessage)
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}
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for i := range alpha_coef_g1 {
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require.NoError(t, dec.Decode(&alpha_coef_g1[i]))
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require.NoError(t, dec.Decode(&alpha_coef_g1[i]), errMessage)
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}
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for i := range beta_coef_g1 {
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require.NoError(t, dec.Decode(&beta_coef_g1[i]))
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require.NoError(t, dec.Decode(&beta_coef_g1[i]), errMessage)
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}
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beta_g2 := &curve.G2Affine{}
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require.NoError(t, dec.Decode(beta_g2))
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require.NoError(t, dec.Decode(beta_g2), errMessage)
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// Transform (take exactly those number of powers that needed for the given number of constraints).
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var (
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@ -286,6 +296,9 @@ func setup(t *testing.T, ccs constraint.ConstraintSystem, phase1ResponsePath str
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}
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outN := int64(math.Pow(2, float64(outPow)))
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if len(coef_g1) < int(2*outN-1) {
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t.Fatalf("number of circuit constraints is too large for the provided response file: nbConstraints is %d, required at least %d powers to be computed", numConstraints, outN)
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}
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srs1 := mpcsetup.Phase1{}
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srs1.Parameters.G1.Tau = coef_g1[:2*outN-1] // outN + (outN-1)
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srs1.Parameters.G2.Tau = coef_g2[:outN] // outN
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