mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-12-27 09:05:18 +00:00
487 lines
13 KiB
Go
487 lines
13 KiB
Go
package crypto
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import (
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"go.uber.org/zap"
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rbls48581 "source.quilibrium.com/quilibrium/monorepo/bls48581"
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"source.quilibrium.com/quilibrium/monorepo/node/crypto/kzg"
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)
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type KZGInclusionProver struct {
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prover *kzg.KZGProver
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logger *zap.Logger
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}
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func NewKZGInclusionProver(logger *zap.Logger) *KZGInclusionProver {
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return &KZGInclusionProver{
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prover: kzg.DefaultKZGProver(),
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logger: logger,
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}
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}
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// // Commit implements InclusionProver.
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// func (k *KZGInclusionProver) Commit(
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// data []byte,
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// typeUrl string,
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// ) (*InclusionCommitment, error) {
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// if typeUrl == protobufs.IntrinsicExecutionOutputType {
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// digest := sha3.NewShake256()
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// _, err := digest.Write(data)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// expand := make([]byte, 1024)
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// _, err = digest.Read(expand)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// poly, err := k.prover.BytesToPolynomial(expand)
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// if err != nil {
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// return nil, errors.Wrap(err, "commit")
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// }
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// k.logger.Debug("proving execution output for inclusion")
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// polys, err := kzg.FFT(
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// poly,
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// *curves.BLS48581(
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// curves.BLS48581G1().NewGeneratorPoint(),
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// ),
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// 16,
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// false,
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// )
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// if err != nil {
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// return nil, errors.Wrap(err, "prove")
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// }
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// k.logger.Debug("converted execution output chunk to evaluation form")
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// k.logger.Debug("creating kzg commitment")
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// points, err := k.prover.Commit(polys)
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// if err != nil {
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// return nil, errors.Wrap(err, "prove")
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// }
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// return &InclusionCommitment{
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// TypeUrl: typeUrl,
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// Data: data,
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// Commitment: points.ToAffineCompressed(),
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// }, nil
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// }
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// poly, err := k.prover.BytesToPolynomial(data)
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// if err != nil {
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// return nil, errors.Wrap(err, "commit")
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// }
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// points, err := k.prover.Commit(poly)
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// if err != nil {
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// return nil, errors.Wrap(err, "commit")
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// }
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// return &InclusionCommitment{
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// TypeUrl: typeUrl,
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// Data: data,
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// Commitment: points.ToAffineCompressed(),
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// }, nil
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// }
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// // ProveAggregate implements InclusionProver.
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// func (k *KZGInclusionProver) ProveAggregate(
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// commits []*InclusionCommitment,
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// ) (*InclusionAggregateProof, error) {
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// polys := [][]curves.PairingScalar{}
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// commitPoints := []curves.PairingPoint{}
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// for _, commit := range commits {
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// switch commit.TypeUrl {
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// case protobufs.IntrinsicExecutionOutputType:
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// k.logger.Debug("confirming inclusion in aggregate")
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// digest := sha3.NewShake256()
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// _, err := digest.Write(commit.Data)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// expand := make([]byte, 1024)
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// _, err = digest.Read(expand)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// poly, err := k.prover.BytesToPolynomial(expand)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// evalPoly, err := kzg.FFT(
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// poly,
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// *curves.BLS48581(
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// curves.BLS48581G1().NewGeneratorPoint(),
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// ),
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// 16,
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// false,
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// )
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// if err != nil {
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// k.logger.Error(
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// "error performing fast fourier transform on key bundle",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// k.logger.Debug(
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// "created fft of polynomial",
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// zap.Int("poly_size", len(evalPoly)),
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// )
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// polys = append(polys, evalPoly)
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// c, err := curves.BLS48581G1().NewGeneratorPoint().FromAffineCompressed(
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// commit.Commitment,
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// )
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// if err != nil {
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// commitPoints = append(commitPoints, c.(curves.PairingPoint))
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// default:
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// k.logger.Debug("confirming inclusion in aggregate")
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// poly, err := k.prover.BytesToPolynomial(commit.Data)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// for i := 0; i < 1024-len(poly); i++ {
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// poly = append(
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// poly,
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// curves.BLS48581G1().Scalar.Zero().(curves.PairingScalar),
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// )
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// }
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// evalPoly, err := kzg.FFT(
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// poly,
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// *curves.BLS48581(
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// curves.BLS48581G1().NewGeneratorPoint(),
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// ),
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// 1024,
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// false,
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// )
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// if err != nil {
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// k.logger.Error(
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// "error performing fast fourier transform on key bundle",
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// zap.Error(err),
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// )
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// k.logger.Debug(
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// "created fft of polynomial",
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// zap.Int("poly_size", len(evalPoly)),
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// )
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// polys = append(polys, evalPoly)
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// c, err := curves.BLS48581G1().NewGeneratorPoint().FromAffineCompressed(
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// commit.Commitment,
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// )
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// if err != nil {
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// k.logger.Error("could not verify clock frame", zap.Error(err))
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// commitPoints = append(commitPoints, c.(curves.PairingPoint))
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// }
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// }
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// proof, commitment, err := k.prover.ProveAggregate(
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// polys,
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// commitPoints,
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// )
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// if err != nil {
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// return nil, errors.Wrap(err, "prove aggregate")
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// }
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// if proof.IsIdentity() {
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// return nil, errors.Wrap(errors.New("invalid proof"), "prove aggregate")
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// }
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// return &InclusionAggregateProof{
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// InclusionCommitments: commits,
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// AggregateCommitment: commitment.ToAffineCompressed(),
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// Proof: proof.ToAffineCompressed(),
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// }, nil
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// }
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// // VerifyAggregate implements InclusionProver.
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// func (k *KZGInclusionProver) VerifyAggregate(
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// proof *InclusionAggregateProof,
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// ) (bool, error) {
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// polys := [][]curves.PairingScalar{}
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// commitPoints := []curves.PairingPoint{}
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// for _, commit := range proof.InclusionCommitments {
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// poly, err := k.prover.BytesToPolynomial(commit.Data)
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// if err != nil {
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// return false, errors.Wrap(err, "verify aggregate")
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// }
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// polys = append(polys, poly)
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// point, err := curves.BLS48581G1().Point.FromAffineCompressed(
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// commit.Commitment,
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// )
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// if err != nil {
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// return false, errors.Wrap(err, "verify aggregate")
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// }
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// commitPoints = append(commitPoints, point.(curves.PairingPoint))
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// }
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// aggregate, err := curves.BLS48581G1().Point.FromAffineCompressed(
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// proof.AggregateCommitment,
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// )
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// if err != nil {
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// return false, errors.Wrap(err, "verify aggregate")
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// }
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// proofPoint, err := curves.BLS48581G1().Point.FromAffineCompressed(
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// proof.Proof,
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// )
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// if err != nil {
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// return false, errors.Wrap(err, "verify aggregate")
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// }
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// verify, err := k.prover.VerifyAggregateProof(
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// polys,
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// commitPoints,
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// aggregate.(curves.PairingPoint),
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// proofPoint.(curves.PairingPoint),
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// )
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// return verify, errors.Wrap(err, "verify aggregate")
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// }
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// func (k *KZGInclusionProver) VerifyFrame(
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// frame *protobufs.ClockFrame,
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// ) error {
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// aggregateCommitments := []curves.PairingPoint{}
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// for i := 0; i < (len(frame.Input)-516)/74; i++ {
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// c, err := curves.BLS48581G1().NewGeneratorPoint().FromAffineCompressed(
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// frame.Input[516+(i*74) : 516+(i*74)+74],
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// )
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// if err != nil {
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// k.logger.Error("could not verify clock frame", zap.Error(err))
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// return errors.Wrap(err, "verify frame")
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// }
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// aggregateCommitments = append(aggregateCommitments, c.(curves.PairingPoint))
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// }
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// if len(aggregateCommitments) != len(frame.AggregateProofs) {
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// k.logger.Error(
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// "commit length mismatched proof for frame",
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// zap.Int("commit_length", len(aggregateCommitments)),
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// zap.Int("proof_length", len(frame.AggregateProofs)),
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// )
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// return errors.Wrap(
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// errors.New("commit length mismatched proof for frame"),
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// "verify frame",
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// )
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// }
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// for i, proof := range frame.AggregateProofs {
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// aggregatePoly := [][]curves.PairingScalar{}
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// commitments := []curves.PairingPoint{}
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// for _, commit := range proof.GetInclusionCommitments() {
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// switch commit.TypeUrl {
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// case protobufs.IntrinsicExecutionOutputType:
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// k.logger.Debug("confirming inclusion in aggregate")
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// digest := sha3.NewShake256()
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// _, err := digest.Write(commit.Data)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// expand := make([]byte, 1024)
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// _, err = digest.Read(expand)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// poly, err := k.prover.BytesToPolynomial(expand)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// evalPoly, err := kzg.FFT(
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// poly,
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// *curves.BLS48581(
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// curves.BLS48581G1().NewGeneratorPoint(),
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// ),
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// 16,
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// false,
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// )
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// if err != nil {
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// k.logger.Error(
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// "error performing fast fourier transform on key bundle",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// k.logger.Debug(
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// "created fft of polynomial",
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// zap.Int("poly_size", len(evalPoly)),
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// )
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// aggregatePoly = append(aggregatePoly, evalPoly)
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// c, err := curves.BLS48581G1().NewGeneratorPoint().FromAffineCompressed(
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// commit.Commitment,
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// )
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// if err != nil {
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// k.logger.Error("could not verify clock frame", zap.Error(err))
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// return errors.Wrap(err, "verify frame")
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// }
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// commitments = append(commitments, c.(curves.PairingPoint))
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// default:
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// k.logger.Debug("confirming inclusion in aggregate")
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// poly, err := k.prover.BytesToPolynomial(commit.Data)
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// if err != nil {
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// k.logger.Error(
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// "error converting key bundle to polynomial",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// for i := 0; i < 1024-len(poly); i++ {
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// poly = append(
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// poly,
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// curves.BLS48581G1().Scalar.Zero().(curves.PairingScalar),
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// )
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// }
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// evalPoly, err := kzg.FFT(
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// poly,
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// *curves.BLS48581(
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// curves.BLS48581G1().NewGeneratorPoint(),
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// ),
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// 1024,
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// false,
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// )
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// if err != nil {
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// k.logger.Error(
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// "error performing fast fourier transform on key bundle",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// k.logger.Debug(
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// "created fft of polynomial",
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// zap.Int("poly_size", len(evalPoly)),
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// )
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// aggregatePoly = append(aggregatePoly, evalPoly)
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// c, err := curves.BLS48581G1().NewGeneratorPoint().FromAffineCompressed(
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// commit.Commitment,
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// )
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// if err != nil {
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// k.logger.Error("could not verify clock frame", zap.Error(err))
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// return errors.Wrap(err, "verify frame")
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// }
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// commitments = append(commitments, c.(curves.PairingPoint))
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// }
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// }
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// p, err := curves.BLS48581G1().Point.FromAffineCompressed(
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// proof.Proof,
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// )
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// if err != nil {
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// k.logger.Error("could not verify clock frame", zap.Error(err))
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// return errors.Wrap(err, "verify frame")
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// }
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// result, err := k.prover.VerifyAggregateProof(
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// aggregatePoly,
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// commitments,
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// aggregateCommitments[i],
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// p.(curves.PairingPoint),
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// )
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// if err != nil {
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// k.logger.Error(
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// "could not verify clock frame",
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// zap.Error(err),
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// )
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// return errors.Wrap(err, "verify frame")
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// }
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// if !result {
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// k.logger.Error("could not verify clock frame", zap.Error(err))
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// return errors.Wrap(
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// errors.New("invalid proof"),
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// "verify frame",
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// )
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// }
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// }
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// return nil
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// }
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func (k *KZGInclusionProver) CommitRaw(
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data []byte,
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polySize uint64,
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) ([]byte, error) {
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return rbls48581.CommitRaw(data, polySize), nil
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}
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func (k *KZGInclusionProver) ProveRaw(
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data []byte,
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index int,
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polySize uint64,
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) ([]byte, error) {
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return rbls48581.ProveRaw(data, uint64(index), polySize), nil
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}
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func (k *KZGInclusionProver) VerifyRaw(
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data []byte,
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commit []byte,
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index int,
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proof []byte,
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polySize uint64,
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) (bool, error) {
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return rbls48581.VerifyRaw(data, commit, uint64(index), proof, polySize), nil
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}
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var _ InclusionProver = (*KZGInclusionProver)(nil)
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