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cmp.go
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cmp.go
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package cmp
import (
"github.com/taurusgroup/multi-party-sig/internal/round"
"github.com/taurusgroup/multi-party-sig/pkg/ecdsa"
"github.com/taurusgroup/multi-party-sig/pkg/math/curve"
"github.com/taurusgroup/multi-party-sig/pkg/party"
"github.com/taurusgroup/multi-party-sig/pkg/pool"
"github.com/taurusgroup/multi-party-sig/pkg/protocol"
"github.com/taurusgroup/multi-party-sig/protocols/cmp/config"
"github.com/taurusgroup/multi-party-sig/protocols/cmp/keygen"
"github.com/taurusgroup/multi-party-sig/protocols/cmp/presign"
"github.com/taurusgroup/multi-party-sig/protocols/cmp/sign"
)
// Config represents the stored state of a party who participated in a successful `Keygen` protocol.
// It contains secret key material and should be safely stored.
type Config = config.Config
// EmptyConfig creates an empty Config with a fixed group, ready for unmarshalling.
//
// This needs to be used for unmarshalling, otherwise the points on the curve can't
// be decoded.
func EmptyConfig(group curve.Curve) *Config {
return &Config{
Group: group,
}
}
// Keygen generates a new shared ECDSA key over the curve defined by `group`. After a successful execution,
// all participants posses a unique share of this key, as well as auxiliary parameters required during signing.
//
// For better performance, a `pool.Pool` can be provided in order to parallelize certain steps of the protocol.
// Returns *cmp.Config if successful.
func Keygen(group curve.Curve, selfID party.ID, participants []party.ID, threshold int, pl *pool.Pool) protocol.StartFunc {
info := round.Info{
ProtocolID: "cmp/keygen-threshold",
FinalRoundNumber: keygen.Rounds,
SelfID: selfID,
PartyIDs: participants,
Threshold: threshold,
Group: group,
}
return keygen.Start(info, pl, nil)
}
// Refresh allows the parties to refresh all existing cryptographic keys from a previously generated Config.
// The group's ECDSA public key remains the same, but any previous shares are rendered useless.
// Returns *cmp.Config if successful.
func Refresh(config *Config, pl *pool.Pool) protocol.StartFunc {
info := round.Info{
ProtocolID: "cmp/refresh-threshold",
FinalRoundNumber: keygen.Rounds,
SelfID: config.ID,
PartyIDs: config.PartyIDs(),
Threshold: config.Threshold,
Group: config.Group,
}
return keygen.Start(info, pl, config)
}
// Sign generates an ECDSA signature for `messageHash` among the given `signers`.
// Returns *ecdsa.Signature if successful.
func Sign(config *Config, signers []party.ID, messageHash []byte, pl *pool.Pool) protocol.StartFunc {
return sign.StartSign(config, signers, messageHash, pl)
}
// Presign generates a preprocessed signature that does not depend on the message being signed.
// When the message becomes available, the same participants can efficiently combine their shares
// to produce a full signature with the PresignOnline protocol.
// Note: the PreSignatures should be treated as secret key material.
// Returns *ecdsa.PreSignature if successful.
func Presign(config *Config, signers []party.ID, pl *pool.Pool) protocol.StartFunc {
return presign.StartPresign(config, signers, nil, pl)
}
// PresignOnline efficiently generates an ECDSA signature for `messageHash` given a preprocessed `PreSignature`.
// Returns *ecdsa.Signature if successful.
func PresignOnline(config *Config, preSignature *ecdsa.PreSignature, messageHash []byte, pl *pool.Pool) protocol.StartFunc {
return presign.StartPresignOnline(config, preSignature, messageHash, pl)
}