go-ethereum/tests/fuzzers/bls12381/bls12381_fuzz.go

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// Copyright 2021 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library 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 Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
//go:build cgo
// +build cgo
package bls
import (
"bytes"
"crypto/rand"
"fmt"
"io"
"math/big"
"github.com/consensys/gnark-crypto/ecc"
gnark "github.com/consensys/gnark-crypto/ecc/bls12-381"
"github.com/consensys/gnark-crypto/ecc/bls12-381/fp"
"github.com/consensys/gnark-crypto/ecc/bls12-381/fr"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/crypto/bls12381"
blst "github.com/supranational/blst/bindings/go"
)
func fuzzCrossPairing(data []byte) int {
input := bytes.NewReader(data)
// get random G1 points
kpG1, cpG1, blG1, err := getG1Points(input)
if err != nil {
return 0
}
// get random G2 points
kpG2, cpG2, blG2, err := getG2Points(input)
if err != nil {
return 0
}
// compute pairing using geth
engine := bls12381.NewPairingEngine()
engine.AddPair(kpG1, kpG2)
kResult := engine.Result()
// compute pairing using gnark
cResult, err := gnark.Pair([]gnark.G1Affine{*cpG1}, []gnark.G2Affine{*cpG2})
if err != nil {
panic(fmt.Sprintf("gnark/bls12381 encountered error: %v", err))
}
// compare result
if !(bytes.Equal(cResult.Marshal(), bls12381.NewGT().ToBytes(kResult))) {
panic("pairing mismatch gnark / geth ")
}
// compute pairing using blst
blstResult := blst.Fp12MillerLoop(blG2, blG1)
blstResult.FinalExp()
res := massageBLST(blstResult.ToBendian())
if !(bytes.Equal(res, bls12381.NewGT().ToBytes(kResult))) {
panic("pairing mismatch blst / geth")
}
return 1
}
func massageBLST(in []byte) []byte {
out := make([]byte, len(in))
len := 12 * 48
// 1
copy(out[0:], in[len-1*48:len])
copy(out[1*48:], in[len-2*48:len-1*48])
// 2
copy(out[6*48:], in[len-3*48:len-2*48])
copy(out[7*48:], in[len-4*48:len-3*48])
// 3
copy(out[2*48:], in[len-5*48:len-4*48])
copy(out[3*48:], in[len-6*48:len-5*48])
// 4
copy(out[8*48:], in[len-7*48:len-6*48])
copy(out[9*48:], in[len-8*48:len-7*48])
// 5
copy(out[4*48:], in[len-9*48:len-8*48])
copy(out[5*48:], in[len-10*48:len-9*48])
// 6
copy(out[10*48:], in[len-11*48:len-10*48])
copy(out[11*48:], in[len-12*48:len-11*48])
return out
}
func fuzzCrossG1Add(data []byte) int {
input := bytes.NewReader(data)
// get random G1 points
kp1, cp1, bl1, err := getG1Points(input)
if err != nil {
return 0
}
// get random G1 points
kp2, cp2, bl2, err := getG1Points(input)
if err != nil {
return 0
}
// compute kp = kp1 + kp2
g1 := bls12381.NewG1()
kp := bls12381.PointG1{}
g1.Add(&kp, kp1, kp2)
// compute cp = cp1 + cp2
_cp1 := new(gnark.G1Jac).FromAffine(cp1)
_cp2 := new(gnark.G1Jac).FromAffine(cp2)
cp := new(gnark.G1Affine).FromJacobian(_cp1.AddAssign(_cp2))
// compare result
if !(bytes.Equal(cp.Marshal(), g1.ToBytes(&kp))) {
panic("G1 point addition mismatch gnark / geth ")
}
bl3 := blst.P1AffinesAdd([]*blst.P1Affine{bl1, bl2})
if !(bytes.Equal(cp.Marshal(), bl3.Serialize())) {
panic("G1 point addition mismatch blst / geth ")
}
return 1
}
func fuzzCrossG2Add(data []byte) int {
input := bytes.NewReader(data)
// get random G2 points
kp1, cp1, bl1, err := getG2Points(input)
if err != nil {
return 0
}
// get random G2 points
kp2, cp2, bl2, err := getG2Points(input)
if err != nil {
return 0
}
// compute kp = kp1 + kp2
g2 := bls12381.NewG2()
kp := bls12381.PointG2{}
g2.Add(&kp, kp1, kp2)
// compute cp = cp1 + cp2
_cp1 := new(gnark.G2Jac).FromAffine(cp1)
_cp2 := new(gnark.G2Jac).FromAffine(cp2)
cp := new(gnark.G2Affine).FromJacobian(_cp1.AddAssign(_cp2))
// compare result
if !(bytes.Equal(cp.Marshal(), g2.ToBytes(&kp))) {
panic("G2 point addition mismatch gnark / geth ")
}
bl3 := blst.P2AffinesAdd([]*blst.P2Affine{bl1, bl2})
if !(bytes.Equal(cp.Marshal(), bl3.Serialize())) {
panic("G1 point addition mismatch blst / geth ")
}
return 1
}
func fuzzCrossG1MultiExp(data []byte) int {
var (
input = bytes.NewReader(data)
gethScalars []*big.Int
gnarkScalars []fr.Element
gethPoints []*bls12381.PointG1
gnarkPoints []gnark.G1Affine
)
// n random scalars (max 17)
for i := 0; i < 17; i++ {
// note that geth/crypto/bls12381 works only with scalars <= 32bytes
s, err := randomScalar(input, fr.Modulus())
if err != nil {
break
}
// get a random G1 point as basis
kp1, cp1, _, err := getG1Points(input)
if err != nil {
break
}
gethScalars = append(gethScalars, s)
var gnarkScalar = &fr.Element{}
gnarkScalar = gnarkScalar.SetBigInt(s)
gnarkScalars = append(gnarkScalars, *gnarkScalar)
gethPoints = append(gethPoints, new(bls12381.PointG1).Set(kp1))
gnarkPoints = append(gnarkPoints, *cp1)
}
if len(gethScalars) == 0 {
return 0
}
// compute multi exponentiation
g1 := bls12381.NewG1()
kp := bls12381.PointG1{}
if _, err := g1.MultiExp(&kp, gethPoints, gethScalars); err != nil {
panic(fmt.Sprintf("G1 multi exponentiation errored (geth): %v", err))
}
// note that geth/crypto/bls12381.MultiExp mutates the scalars slice (and sets all the scalars to zero)
// gnark multi exp
cp := new(gnark.G1Affine)
cp.MultiExp(gnarkPoints, gnarkScalars, ecc.MultiExpConfig{})
// compare result
if !(bytes.Equal(cp.Marshal(), g1.ToBytes(&kp))) {
panic("G1 multi exponentiation mismatch gnark / geth ")
}
return 1
}
func getG1Points(input io.Reader) (*bls12381.PointG1, *gnark.G1Affine, *blst.P1Affine, error) {
// sample a random scalar
s, err := randomScalar(input, fp.Modulus())
if err != nil {
return nil, nil, nil, err
}
// compute a random point
cp := new(gnark.G1Affine)
_, _, g1Gen, _ := gnark.Generators()
cp.ScalarMultiplication(&g1Gen, s)
cpBytes := cp.Marshal()
// marshal gnark point -> geth point
g1 := bls12381.NewG1()
kp, err := g1.FromBytes(cpBytes)
if err != nil {
panic(fmt.Sprintf("Could not marshal gnark.G1 -> geth.G1: %v", err))
}
if !bytes.Equal(g1.ToBytes(kp), cpBytes) {
panic("bytes(gnark.G1) != bytes(geth.G1)")
}
// marshal gnark point -> blst point
scalar := new(blst.Scalar).FromBEndian(common.LeftPadBytes(s.Bytes(), 32))
p1 := new(blst.P1Affine).From(scalar)
if !bytes.Equal(p1.Serialize(), cpBytes) {
panic("bytes(blst.G1) != bytes(geth.G1)")
}
return kp, cp, p1, nil
}
func getG2Points(input io.Reader) (*bls12381.PointG2, *gnark.G2Affine, *blst.P2Affine, error) {
// sample a random scalar
s, err := randomScalar(input, fp.Modulus())
if err != nil {
return nil, nil, nil, err
}
// compute a random point
cp := new(gnark.G2Affine)
_, _, _, g2Gen := gnark.Generators()
cp.ScalarMultiplication(&g2Gen, s)
cpBytes := cp.Marshal()
// marshal gnark point -> geth point
g2 := bls12381.NewG2()
kp, err := g2.FromBytes(cpBytes)
if err != nil {
panic(fmt.Sprintf("Could not marshal gnark.G2 -> geth.G2: %v", err))
}
if !bytes.Equal(g2.ToBytes(kp), cpBytes) {
panic("bytes(gnark.G2) != bytes(geth.G2)")
}
// marshal gnark point -> blst point
// Left pad the scalar to 32 bytes
scalar := new(blst.Scalar).FromBEndian(common.LeftPadBytes(s.Bytes(), 32))
p2 := new(blst.P2Affine).From(scalar)
if !bytes.Equal(p2.Serialize(), cpBytes) {
panic("bytes(blst.G2) != bytes(geth.G2)")
}
return kp, cp, p2, nil
}
func randomScalar(r io.Reader, max *big.Int) (k *big.Int, err error) {
for {
k, err = rand.Int(r, max)
if err != nil || k.Sign() > 0 {
return
}
}
}