mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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6c567a04c1
* v1.4.20 base * add inmemory dev mock for hypergraph * add simple rdf + tr * Update config.go (#234) 2 of bootstrap nodes are going to be closed due to low performances. Will consider to replace with better specs. * go mod tidy * go mod tidy * bump name in readme --------- Co-authored-by: 0xOzgur <29779769+0xOzgur@users.noreply.github.com>
338 lines
8.7 KiB
Go
338 lines
8.7 KiB
Go
package channel
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import (
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"bytes"
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"crypto/rand"
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"crypto/sha256"
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"fmt"
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"math/big"
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"github.com/pkg/errors"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/core/curves"
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)
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type Feldman struct {
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threshold int
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total int
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id int
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fragsForCounterparties map[int][]byte
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fragsFromCounterparties map[int]curves.Scalar
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zkpok curves.Scalar
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secret curves.Scalar
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scalar curves.Scalar
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generator curves.Point
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publicKey curves.Point
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point curves.Point
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randomCommitmentPoint curves.Point
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round FeldmanRound
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zkcommitsFromCounterparties map[int][]byte
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pointsFromCounterparties map[int]curves.Point
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curve curves.Curve
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}
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type FeldmanReveal struct {
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Point []byte
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RandomCommitmentPoint []byte
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ZKPoK []byte
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}
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var ErrWrongRound = errors.New("wrong round for feldman")
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type FeldmanRound int
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const (
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FELDMAN_ROUND_UNINITIALIZED = FeldmanRound(0)
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FELDMAN_ROUND_INITIALIZED = FeldmanRound(1)
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FELDMAN_ROUND_COMMITTED = FeldmanRound(2)
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FELDMAN_ROUND_REVEALED = FeldmanRound(3)
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FELDMAN_ROUND_RECONSTRUCTED = FeldmanRound(4)
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)
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func NewFeldman(
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threshold, total, id int,
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secret curves.Scalar,
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curve curves.Curve,
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generator curves.Point,
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) (*Feldman, error) {
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return &Feldman{
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threshold: threshold,
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total: total,
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id: id,
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fragsForCounterparties: make(map[int][]byte),
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fragsFromCounterparties: make(map[int]curves.Scalar),
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zkpok: nil,
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secret: secret,
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scalar: nil,
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generator: generator,
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publicKey: secret.Point().Generator(),
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point: secret.Point().Generator(),
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round: FELDMAN_ROUND_UNINITIALIZED,
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zkcommitsFromCounterparties: make(map[int][]byte),
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pointsFromCounterparties: make(map[int]curves.Point),
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curve: curve,
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}, nil
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}
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func (f *Feldman) SamplePolynomial() error {
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if f.round != FELDMAN_ROUND_UNINITIALIZED {
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return errors.Wrap(ErrWrongRound, "sample polynomial")
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}
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coeffs := append([]curves.Scalar{}, f.secret)
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for i := 1; i < f.threshold; i++ {
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secret := f.curve.NewScalar()
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secret = secret.Random(rand.Reader)
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coeffs = append(coeffs, secret)
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}
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for i := 1; i <= f.total; i++ {
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result := coeffs[0].Clone()
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x := f.curve.Scalar.New(i)
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for j := 1; j < f.threshold; j++ {
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term := coeffs[j].Mul(x)
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result = result.Add(term)
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x = x.Mul(f.curve.Scalar.New(i))
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}
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if i == f.id {
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f.scalar = result
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} else {
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fragBytes := result.Bytes()
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f.fragsForCounterparties[i] = fragBytes
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}
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}
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f.round = FELDMAN_ROUND_INITIALIZED
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return nil
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}
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func (f *Feldman) Scalar() curves.Scalar {
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return f.scalar
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}
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func (f *Feldman) GetPolyFrags() (map[int][]byte, error) {
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if f.round != FELDMAN_ROUND_INITIALIZED {
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return nil, errors.Wrap(ErrWrongRound, "get poly frags")
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}
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return f.fragsForCounterparties, nil
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}
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func (f *Feldman) SetPolyFragForParty(id int, frag []byte) ([]byte, error) {
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if f.round != FELDMAN_ROUND_INITIALIZED {
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return nil, errors.Wrap(ErrWrongRound, "set poly frag for party")
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}
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var err error
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f.fragsFromCounterparties[id], err = f.curve.NewScalar().SetBytes(frag)
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if err != nil {
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return nil, errors.Wrap(err, "set poly frag for party")
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}
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if len(f.fragsFromCounterparties) == f.total-1 {
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for _, v := range f.fragsFromCounterparties {
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f.scalar = f.scalar.Add(v)
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}
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f.point = f.generator.Mul(f.scalar)
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randCommitment := f.curve.NewScalar().Random(rand.Reader)
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f.randomCommitmentPoint = f.generator.Mul(randCommitment)
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randCommitmentPointBytes := f.randomCommitmentPoint.ToAffineCompressed()
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publicPointBytes := f.point.ToAffineCompressed()
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challenge := sha256.Sum256(
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append(
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append([]byte{}, publicPointBytes...),
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randCommitmentPointBytes...,
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),
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)
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challengeBig, err := f.curve.NewScalar().SetBigInt(
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new(big.Int).SetBytes(challenge[:]),
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)
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if err != nil {
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return nil, errors.Wrap(err, "set poly frag for party")
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}
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f.zkpok = f.scalar.Mul(challengeBig).Add(randCommitment)
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zkpokBytes := f.zkpok.Bytes()
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zkcommit := sha256.Sum256(
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append(
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append([]byte{}, randCommitmentPointBytes...),
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zkpokBytes...,
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),
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)
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f.round = FELDMAN_ROUND_COMMITTED
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return zkcommit[:], nil
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}
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return []byte{}, nil
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}
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func (f *Feldman) ReceiveCommitments(
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id int,
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zkcommit []byte,
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) (*FeldmanReveal, error) {
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if f.round != FELDMAN_ROUND_COMMITTED {
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return nil, errors.Wrap(ErrWrongRound, "receive commitments")
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}
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f.zkcommitsFromCounterparties[id] = zkcommit
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if len(f.zkcommitsFromCounterparties) == f.total-1 {
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publicPointBytes := f.point.ToAffineCompressed()
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randCommitmentPointBytes := f.randomCommitmentPoint.ToAffineCompressed()
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f.round = FELDMAN_ROUND_REVEALED
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zkpokBytes := f.zkpok.Bytes()
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return &FeldmanReveal{
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Point: publicPointBytes,
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RandomCommitmentPoint: randCommitmentPointBytes,
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ZKPoK: zkpokBytes,
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}, nil
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}
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return nil, nil
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}
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func (f *Feldman) Recombine(id int, reveal *FeldmanReveal) (bool, error) {
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if f.round != FELDMAN_ROUND_REVEALED {
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return false, errors.Wrap(ErrWrongRound, "recombine")
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}
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counterpartyPoint, err := f.curve.NewGeneratorPoint().FromAffineCompressed(
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reveal.Point,
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)
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if err != nil {
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return false, errors.Wrap(err, "recombine")
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}
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if counterpartyPoint.Equal(f.curve.NewGeneratorPoint()) ||
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counterpartyPoint.Equal(f.generator) {
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return false, errors.Wrap(errors.New("counterparty sent generator"), "recombine")
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}
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counterpartyRandomCommitmentPoint, err := f.curve.NewGeneratorPoint().
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FromAffineCompressed(reveal.RandomCommitmentPoint)
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if err != nil {
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return false, errors.Wrap(err, "recombine")
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}
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if counterpartyRandomCommitmentPoint.Equal(f.curve.NewGeneratorPoint()) ||
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counterpartyRandomCommitmentPoint.Equal(f.generator) {
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return false, errors.Wrap(errors.New("counterparty sent generator"), "recombine")
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}
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counterpartyZKPoK, err := f.curve.NewScalar().SetBytes(reveal.ZKPoK)
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if err != nil {
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return false, errors.Wrap(err, "recombine")
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}
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counterpartyZKCommit := f.zkcommitsFromCounterparties[id]
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challenge := sha256.Sum256(append(
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append([]byte{}, reveal.Point...),
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reveal.RandomCommitmentPoint...,
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))
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challengeBig, err := f.curve.NewScalar().SetBigInt(
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new(big.Int).SetBytes(challenge[:]),
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)
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if err != nil {
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return false, errors.Wrap(err, "recombine")
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}
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proof := f.generator.Mul(counterpartyZKPoK)
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counterpartyRandomCommitmentPoint = counterpartyRandomCommitmentPoint.Add(
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counterpartyPoint.Mul(challengeBig),
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)
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if !proof.Equal(counterpartyRandomCommitmentPoint) {
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return false, errors.Wrap(
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errors.New(fmt.Sprintf("invalid proof from %d", id)),
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"recombine",
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)
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}
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verifier := sha256.Sum256(append(
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append([]byte{}, reveal.RandomCommitmentPoint...),
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reveal.ZKPoK...,
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))
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if !bytes.Equal(counterpartyZKCommit, verifier[:]) {
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return false, errors.Wrap(
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errors.New(fmt.Sprintf("%d changed zkpok after commit", id)),
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"recombine",
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)
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}
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f.pointsFromCounterparties[id] = counterpartyPoint
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if len(f.pointsFromCounterparties) == f.total-1 {
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f.pointsFromCounterparties[f.id] = f.point
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for i := 1; i <= f.total-f.threshold+1; i++ {
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var reconstructedSum curves.Point = nil
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for j := i; j < f.threshold+i; j++ {
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num := f.curve.Scalar.One()
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den := f.curve.Scalar.One()
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for k := i; k < f.threshold+i; k++ {
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if j != k {
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j := f.curve.NewScalar().New(j)
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k := f.curve.NewScalar().New(k)
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num = num.Mul(k)
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den = den.Mul(k.Sub(j))
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}
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}
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den, _ = den.Invert()
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reconstructedFragment := f.pointsFromCounterparties[j].Mul(num.Mul(den))
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if reconstructedSum == nil {
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reconstructedSum = reconstructedFragment
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} else {
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reconstructedSum = reconstructedSum.Add(reconstructedFragment)
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}
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}
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if f.publicKey.Equal(f.curve.NewGeneratorPoint()) ||
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f.publicKey.Equal(f.generator) {
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f.publicKey = reconstructedSum
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} else if !f.publicKey.Equal(reconstructedSum) {
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return false, errors.Wrap(
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errors.New("recombination mismatch"),
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"recombine",
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)
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}
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}
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f.round = FELDMAN_ROUND_RECONSTRUCTED
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}
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return f.round == FELDMAN_ROUND_RECONSTRUCTED, nil
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}
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func (f *Feldman) PublicKey() curves.Point {
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return f.publicKey
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}
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func (f *Feldman) PublicKeyBytes() []byte {
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return f.publicKey.ToAffineCompressed()
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}
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func ReverseScalarBytes(inBytes []byte, length int) []byte {
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outBytes := make([]byte, length)
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for i, j := 0, len(inBytes)-1; j >= 0; i, j = i+1, j-1 {
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outBytes[i] = inBytes[j]
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}
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return outBytes
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}
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