mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-12-27 17:15:18 +00:00
217 lines
6.1 KiB
Go
217 lines
6.1 KiB
Go
//
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// Copyright Coinbase, Inc. All Rights Reserved.
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//
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// SPDX-License-Identifier: Apache-2.0
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//
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package main
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import (
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"flag"
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"fmt"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/core/curves"
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dkg "source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/dkg/frost"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/sharing"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/ted25519/frost"
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)
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const LIMIT = 5
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const THRESHOLD = 3
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const Ctx = "string to prevent replay attack"
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func main() {
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var threshold int
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var limit int
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var help bool
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flag.IntVar(&threshold, "t", THRESHOLD, "the minimum number of participants to sign")
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flag.IntVar(&threshold, "threshold", THRESHOLD, "the minimum number of participants to sign")
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flag.IntVar(&limit, "n", LIMIT, "the total number of participants")
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flag.IntVar(&limit, "limit", LIMIT, "the total number of participants")
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flag.BoolVar(&help, "h", false, "Print this menu")
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flag.BoolVar(&help, "help", false, "Print this menu")
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flag.Parse()
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if help {
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printHelp()
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return
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}
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fmt.Printf("Threshold is %d\n", threshold)
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fmt.Printf("Total participants is %d\n", limit)
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// DEMO doing FROST DKG and that signers can compute a signature
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participants := createDkgParticipants(threshold, limit)
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// DKG Round 1
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fmt.Printf("**FROST DKG Round 1**\n")
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rnd1Bcast, rnd1P2p := round1(participants)
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// DKG Round 2
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fmt.Printf("**FROST DKG Round 2**\n")
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verificationKey, _ := round2(participants, rnd1Bcast, rnd1P2p)
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// Prepare Lagrange coefficients
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curve := curves.ED25519()
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scheme, _ := sharing.NewShamir(uint32(threshold), uint32(limit), curve)
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shares := make([]*sharing.ShamirShare, threshold)
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for i := 0; i < threshold; i++ {
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shares[i] = &sharing.ShamirShare{Id: uint32(i + 1), Value: participants[uint32(i+1)].SkShare.Bytes()}
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}
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lCoeffs, err := scheme.LagrangeCoeffs([]uint32{shares[0].Id, shares[1].Id, shares[2].Id})
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if err != nil {
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panic(err)
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}
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// Using signer starting from 1 as cosigners
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signerIds := make([]uint32, threshold)
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for i := 0; i < threshold; i++ {
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signerIds[i] = uint32(i + 1)
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}
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signers := make(map[uint32]*frost.Signer, threshold)
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for i := 1; i <= threshold; i++ {
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signers[uint32(i)], err = frost.NewSigner(participants[uint32(i)], uint32(i), uint32(threshold), lCoeffs, signerIds, &frost.Ed25519ChallengeDeriver{})
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if err != nil {
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panic(err)
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}
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}
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// Running sign round 1
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fmt.Printf("**FROST Sign Round 1**\n")
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round2Input := make(map[uint32]*frost.Round1Bcast, threshold)
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for i := 1; i <= threshold; i++ {
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fmt.Printf("Computing Sign Round 1 for cosigner %d\n", i)
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round1Out, err := signers[uint32(i)].SignRound1()
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if err != nil {
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panic(err)
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}
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round2Input[uint32(i)] = round1Out
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}
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// Running sign round 2
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fmt.Printf("**FROST Sign Round 2**\n")
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msg := []byte("message")
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round3Input := make(map[uint32]*frost.Round2Bcast, threshold)
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for i := 1; i <= threshold; i++ {
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fmt.Printf("Computing Sign Round 2 for cosigner %d\n", i)
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round2Out, err := signers[uint32(i)].SignRound2(msg, round2Input)
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if err != nil {
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panic(err)
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}
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round3Input[uint32(i)] = round2Out
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}
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// Running sign round 3
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fmt.Printf("**FROST Sign Round 3**\n")
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result := make(map[uint32]*frost.Round3Bcast, threshold)
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for i := 1; i <= threshold; i++ {
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fmt.Printf("Computing Sign Round 3 for cosigner %d\n", i)
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round3Out, err := signers[uint32(i)].SignRound3(round3Input)
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if err != nil {
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panic(err)
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}
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result[uint32(i)] = round3Out
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}
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// Verify everybody's signature is valid
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deriver := &frost.Ed25519ChallengeDeriver{}
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for i := 1; i <= threshold; i++ {
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Z := result[uint32(i)].Z
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C := result[uint32(i)].C
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// Compute R' = z*G + (-c)*vk
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zG := curve.ScalarBaseMult(Z)
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cvk := verificationKey.Mul(C.Neg())
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tempR := zG.Add(cvk)
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// Step 6 - c' = H(m, R')
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tempC, err := deriver.DeriveChallenge(msg, verificationKey, tempR)
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if err != nil {
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panic(err)
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}
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// Step 7 - Check c = c'
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if tempC.Cmp(C) != 0 {
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fmt.Printf("invalid signature: c != c' for signer %d\n", i)
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}
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}
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fmt.Printf("Signature is computed successfully!\n")
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}
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func round1(participants map[uint32]*dkg.DkgParticipant) (map[uint32]*dkg.Round1Bcast, map[uint32]dkg.Round1P2PSend) {
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// DKG Round 1
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rnd1Bcast := make(map[uint32]*dkg.Round1Bcast, len(participants))
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rnd1P2p := make(map[uint32]dkg.Round1P2PSend, len(participants))
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for id, p := range participants {
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fmt.Printf("Computing DKG Round 1 for participant %d\n", id)
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bcast, p2psend, err := p.Round1(nil)
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if err != nil {
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panic(err)
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}
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rnd1Bcast[id] = bcast
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rnd1P2p[id] = p2psend
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}
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return rnd1Bcast, rnd1P2p
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}
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func round2(participants map[uint32]*dkg.DkgParticipant,
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rnd1Bcast map[uint32]*dkg.Round1Bcast,
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rnd1P2p map[uint32]dkg.Round1P2PSend,
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) (curves.Point, map[uint32]*sharing.ShamirShare) {
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signingShares := make(map[uint32]*sharing.ShamirShare, len(participants))
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var verificationKey curves.Point
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for id := range rnd1Bcast {
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fmt.Printf("Computing DKG Round 2 for participant %d\n", id)
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rnd1P2pForP := make(map[uint32]*sharing.ShamirShare)
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for jid := range rnd1P2p {
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if jid == id {
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continue
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}
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rnd1P2pForP[jid] = rnd1P2p[jid][id]
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}
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rnd2Out, err := participants[id].Round2(rnd1Bcast, rnd1P2pForP)
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if err != nil {
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panic(err)
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}
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verificationKey = rnd2Out.VerificationKey
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share := &sharing.ShamirShare{
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Id: id,
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Value: participants[id].SkShare.Bytes(),
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}
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signingShares[id] = share
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}
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return verificationKey, signingShares
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}
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func createDkgParticipants(thresh, limit int) map[uint32]*dkg.DkgParticipant {
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curve := curves.ED25519()
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participants := make(map[uint32]*dkg.DkgParticipant, limit)
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for i := 1; i <= limit; i++ {
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otherIds := make([]uint32, limit-1)
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idx := 0
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for j := 1; j <= limit; j++ {
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if i == j {
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continue
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}
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otherIds[idx] = uint32(j)
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idx++
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}
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p, err := dkg.NewDkgParticipant(uint32(i), uint32(thresh), Ctx, curve, otherIds...)
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if err != nil {
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panic(err)
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}
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participants[uint32(i)] = p
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}
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return participants
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}
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func printHelp() {
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fmt.Printf(`
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bls INPUT
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Simulate a DKG using K256 keys
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FLAGS:
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-h, --help Show this help message and exit
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-n, --limit The total number of participants
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-t, --treshold The minimum number of participants needed to sign
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`)
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}
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