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ceremony.go
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ceremony.go
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package towersofpau
import (
"crypto/rand"
"errors"
"fmt"
"math/big"
"sync"
"sync/atomic"
"github.com/ethereum/go-ethereum/common"
blst "github.com/supranational/blst/bindings/go"
)
// UpdateTranscript adds our contribution to the ceremony
func UpdateTranscript(ceremony *Ceremony) error {
for _, transcript := range ceremony.Transcripts {
rnd := createRandom()
secret := common.LeftPadBytes(rnd.Bytes(), 32)
if err := UpdatePowersOfTauFast(transcript, secret); err != nil {
return err
}
if err := UpdateWitness(transcript, secret); err != nil {
return err
}
// Clear secret
rand.Read(secret)
}
return nil
}
func VerifySubmission(prevCeremony, newCeremony *Ceremony) error {
if err := checkLength(prevCeremony, newCeremony); err != nil {
return err
}
if !NonZeroCheck(newCeremony) {
return errors.New("nonZero check failed")
}
if !SubgroupChecksCoordinator(newCeremony) {
return errors.New("subgroup check failed")
}
if !WitnessContinuityCheck(prevCeremony, newCeremony) {
return errors.New("continuity check failed")
}
/*
// TODO enable when better initial ceremony is available
if !PubkeyUniquenessCheck(newCeremony) {
return errors.New("pubkey uniqueness check failed")
}*/
if !VerifyPairing(newCeremony) {
return errors.New("pairing check failed")
}
return nil
}
func checkLength(prev, next *Ceremony) error {
for i, t := range prev.Transcripts {
if len(t.Witness.PotPubkeys) >= len(next.Transcripts[i].Witness.PotPubkeys) {
errors.New("pot_pubkeys did not increase")
}
if len(t.Witness.RunningProducts) >= len(next.Transcripts[i].Witness.RunningProducts) {
errors.New("running_products did not increase")
}
}
return nil
}
// UpdatePowersOfTau updates the powers of tau with a secret
func UpdatePowersOfTau(transcript *Transcript, secret []byte) error {
sec := new(blst.Scalar).Deserialize(secret)
if sec == nil {
return errors.New("invalid secret")
}
scalar := &(*sec)
for i := 0; i < transcript.NumG1Powers; i++ {
transcript.PowersOfTau.G1Powers[i] = transcript.PowersOfTau.G1Powers[i].Mult(scalar)
if i < transcript.NumG2Powers {
transcript.PowersOfTau.G2Powers[i] = transcript.PowersOfTau.G2Powers[i].Mult(scalar)
}
var ok bool
scalar, ok = scalar.Mul(sec)
if !ok {
return errors.New("Scalar mult returned false")
}
}
return nil
}
func UpdatePowersOfTauFast(transcript *Transcript, secret []byte) error {
sec := new(blst.Scalar).Deserialize(secret)
if sec == nil {
return errors.New("invalid secret")
}
scalar := &(*sec)
scalars := make([]*blst.Scalar, transcript.NumG1Powers)
for i := 0; i < transcript.NumG1Powers; i++ {
scalars[i] = &(*scalar)
var ok bool
scalar, ok = scalar.Mul(sec)
if !ok {
panic("Scalar mult returned false")
}
}
wg := new(sync.WaitGroup)
wg.Add(transcript.NumG1Powers)
for i := 0; i < transcript.NumG1Powers; i++ {
go func(i int) {
defer wg.Done()
transcript.PowersOfTau.G1Powers[i] = transcript.PowersOfTau.G1Powers[i].Mult(scalars[i])
if i < transcript.NumG2Powers {
transcript.PowersOfTau.G2Powers[i] = transcript.PowersOfTau.G2Powers[i].Mult(scalars[i])
}
}(i)
}
wg.Wait()
return nil
}
// UpdateWitness updates the witness with our secret.
func UpdateWitness(transcript *Transcript, secret []byte) error {
newProduct := &(*transcript.Witness.RunningProducts[len(transcript.Witness.RunningProducts)-1])
sec := new(blst.Scalar).Deserialize(secret)
if sec == nil {
return errors.New("invalid secret")
}
newProduct = newProduct.Mult(sec)
transcript.Witness.RunningProducts = append(transcript.Witness.RunningProducts, newProduct)
newPk := new(blst.P2Affine).From(sec)
if newPk == nil {
return errors.New("invalid pk")
}
transcript.Witness.PotPubkeys = append(transcript.Witness.PotPubkeys, *newPk)
return nil
}
func createRandom() *big.Int {
for i := 0; i < 1000000; i++ {
b := make([]byte, 32)
n, err := rand.Read(b)
if err != nil || n != 32 {
panic("could not get good randomness")
}
sec := new(blst.Scalar).Deserialize(b)
if sec != nil {
return new(big.Int).SetBytes(b)
}
}
panic("could not find secret in 1 million tries")
}
// SubgroupChecks verifies that a ceremony looks correctly
func SubgroupChecksParticipant(ceremony *Ceremony) bool {
for _, transcript := range ceremony.Transcripts {
for _, p := range transcript.PowersOfTau.G1Powers {
if !p.ToAffine().InG1() {
return false
}
}
for _, p := range transcript.PowersOfTau.G2Powers {
if !p.ToAffine().InG2() {
return false
}
}
for _, p := range transcript.Witness.RunningProducts {
if !p.ToAffine().InG1() {
return false
}
}
}
return true
}
// SubgroupChecksCoordinator verifies that a ceremony looks correctly
func SubgroupChecksCoordinator(ceremony *Ceremony) bool {
for _, transcript := range ceremony.Transcripts {
for _, p := range transcript.PowersOfTau.G1Powers {
if !p.ToAffine().InG1() {
return false
}
}
for _, p := range transcript.PowersOfTau.G2Powers {
if !p.ToAffine().InG2() {
return false
}
}
for _, p := range transcript.Witness.RunningProducts {
if !p.ToAffine().InG1() {
return false
}
}
for _, p := range transcript.Witness.PotPubkeys {
if !p.InG2() {
return false
}
}
}
return true
}
// NonZeroCheck checks that no running_products are equal to infinity
func NonZeroCheck(ceremony *Ceremony) bool {
for _, transcript := range ceremony.Transcripts {
for _, p := range transcript.Witness.RunningProducts {
_ = p
// TODO reenable this check1
// if !p.IsInfinite() { return false}
}
}
return true
}
func PubkeyUniquenessCheck(ceremony *Ceremony) bool {
keys := make(map[blst.P2Affine]struct{}, 0)
var numKeys int
for _, transcript := range ceremony.Transcripts {
for _, key := range transcript.Witness.PotPubkeys {
keys[key] = struct{}{}
numKeys++
}
}
return len(keys) == numKeys
}
func WitnessContinuityCheck(prevCeremony, newCeremony *Ceremony) bool {
for index := range prevCeremony.Transcripts {
oldWitness := prevCeremony.Transcripts[index].Witness
newWitness := newCeremony.Transcripts[index].Witness
// TODO check that we do a correct check
if !p1ArrayEquals(oldWitness.RunningProducts, newWitness.RunningProducts[:len(newWitness.RunningProducts)-1]) {
panic(fmt.Sprintf("%v %v %v", index, oldWitness.RunningProducts, newWitness.RunningProducts))
return false
}
if !p2ArrayEquals(oldWitness.PotPubkeys, newWitness.PotPubkeys[:len(newWitness.PotPubkeys)-1]) {
panic(fmt.Sprintf("%v %v %v", index, oldWitness.PotPubkeys, newWitness.PotPubkeys))
return false
}
}
return true
}
func p1ArrayEquals(p1, p2 []*blst.P1) bool {
if len(p1) != len(p2) {
return false
}
for idx := range p1 {
if !p1[idx].Equals(p2[idx]) {
return false
}
}
return true
}
func p2ArrayEquals(p1, p2 blst.P2Affines) bool {
if len(p1) != len(p2) {
return false
}
for idx := range p1 {
if !p1[idx].Equals(&p2[idx]) {
return false
}
}
return true
}
func VerifyPairing(ceremony *Ceremony) bool {
for _, t := range ceremony.Transcripts {
if !verifyPairing(t) {
return false
}
}
return true
}
func verifyPairing(t *Transcript) bool {
if len(t.Witness.PotPubkeys) != len(t.Witness.RunningProducts) ||
len(t.PowersOfTau.G1Powers) < 2 || len(t.PowersOfTau.G2Powers) < 2 {
return false
}
var (
g2_0 = t.PowersOfTau.G2Powers[0].ToAffine()
g2_1 = t.PowersOfTau.G2Powers[1].ToAffine()
g1_0 = t.PowersOfTau.G1Powers[0].ToAffine()
g1_1 = t.PowersOfTau.G1Powers[1].ToAffine()
failed int32
wg = new(sync.WaitGroup)
)
wg.Add(len(t.PowersOfTau.G1Powers) - 1)
for i := 0; i < len(t.PowersOfTau.G1Powers)-1; i++ {
go func(i int) {
defer wg.Done()
pair1 := blst.Fp12MillerLoop(g2_1, t.PowersOfTau.G1Powers[i].ToAffine())
pair2 := blst.Fp12MillerLoop(g2_0, t.PowersOfTau.G1Powers[i+1].ToAffine())
if !blst.Fp12FinalVerify(pair1, pair2) {
atomic.AddInt32(&failed, 1)
}
}(i)
}
wg.Wait()
wg.Add(len(t.PowersOfTau.G2Powers) - 1)
for i := 0; i < len(t.PowersOfTau.G2Powers)-1; i++ {
go func(i int) {
defer wg.Done()
pair1 := blst.Fp12MillerLoop(t.PowersOfTau.G2Powers[i].ToAffine(), g1_1)
pair2 := blst.Fp12MillerLoop(t.PowersOfTau.G2Powers[i+1].ToAffine(), g1_0)
if !blst.Fp12FinalVerify(pair1, pair2) {
atomic.AddInt32(&failed, 1)
}
}(i)
}
wg.Wait()
p2_g := blst.P2Generator().ToAffine()
wg.Add(len(t.Witness.RunningProducts) - 1)
for i := 0; i < len(t.Witness.RunningProducts)-1; i++ {
go func(i int) {
defer wg.Done()
pair1 := blst.Fp12MillerLoop(&t.Witness.PotPubkeys[i+1], t.Witness.RunningProducts[i].ToAffine())
pair2 := blst.Fp12MillerLoop(p2_g, t.Witness.RunningProducts[i+1].ToAffine())
if !blst.Fp12FinalVerify(pair1, pair2) {
atomic.AddInt32(&failed, 1)
}
}(i)
}
wg.Wait()
return failed == 0
}