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package bls
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import (
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"errors"
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"fmt"
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"github.com/harmony-one/bls/ffi/go/bls"
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"github.com/harmony-one/harmony/internal/ctxerror"
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)
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func init() {
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bls.Init(bls.BLS12_381)
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}
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// RandPrivateKey returns a random private key.
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func RandPrivateKey() *bls.SecretKey {
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sec := bls.SecretKey{}
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sec.SetByCSPRNG()
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return &sec
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}
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// BytesToBlsPublicKey converts bytes into bls.PublicKey pointer.
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func BytesToBlsPublicKey(bytes []byte) (*bls.PublicKey, error) {
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if len(bytes) == 0 {
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return nil, fmt.Errorf("[BytesToBlsPublicKey] bytes is empty")
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}
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pubKey := &bls.PublicKey{}
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err := pubKey.Deserialize(bytes)
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return pubKey, err
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}
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// AggregateSig aggregates all the BLS signature into a single multi-signature.
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func AggregateSig(sigs []*bls.Sign) *bls.Sign {
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var aggregatedSig bls.Sign
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for _, sig := range sigs {
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aggregatedSig.Add(sig)
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}
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return &aggregatedSig
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}
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// Mask represents a cosigning participation bitmask.
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type Mask struct {
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Bitmap []byte
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Publics []*bls.PublicKey
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AggregatePublic *bls.PublicKey
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}
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// NewMask returns a new participation bitmask for cosigning where all
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// cosigners are disabled by default. If a public key is given it verifies that
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// it is present in the list of keys and sets the corresponding index in the
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// bitmask to 1 (enabled).
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func NewMask(publics []*bls.PublicKey, myKey *bls.PublicKey) (*Mask, error) {
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m := &Mask{
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Publics: publics,
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}
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m.Bitmap = make([]byte, m.Len())
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m.AggregatePublic = &bls.PublicKey{}
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if myKey != nil {
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found := false
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for i, key := range publics {
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if key.IsEqual(myKey) {
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m.SetBit(i, true)
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found = true
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break
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}
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}
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if !found {
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return nil, errors.New("key not found")
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}
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}
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return m, nil
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}
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// Mask returns a copy of the participation bitmask.
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func (m *Mask) Mask() []byte {
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clone := make([]byte, len(m.Bitmap))
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copy(clone[:], m.Bitmap)
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return clone
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}
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// Len returns the Bitmap length in bytes.
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func (m *Mask) Len() int {
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return (len(m.Publics) + 7) >> 3
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}
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// SetMask sets the participation bitmask according to the given byte slice
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// interpreted in little-endian order, i.e., bits 0-7 of byte 0 correspond to
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// cosigners 0-7, bits 0-7 of byte 1 correspond to cosigners 8-15, etc.
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func (m *Mask) SetMask(mask []byte) error {
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if m.Len() != len(mask) {
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return ctxerror.New("mismatching bitmap lengths",
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"expectedBitmapLength", m.Len(),
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"providedBitmapLength", len(mask))
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}
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for i := range m.Publics {
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byt := i >> 3
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msk := byte(1) << uint(i&7)
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if ((m.Bitmap[byt] & msk) == 0) && ((mask[byt] & msk) != 0) {
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m.Bitmap[byt] ^= msk // flip bit in Bitmap from 0 to 1
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m.AggregatePublic.Add(m.Publics[i])
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}
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if ((m.Bitmap[byt] & msk) != 0) && ((mask[byt] & msk) == 0) {
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m.Bitmap[byt] ^= msk // flip bit in Bitmap from 1 to 0
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m.AggregatePublic.Sub(m.Publics[i])
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}
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}
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return nil
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}
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// SetBit enables (enable: true) or disables (enable: false) the bit
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// in the participation Bitmap of the given cosigner.
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func (m *Mask) SetBit(i int, enable bool) error {
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if i >= len(m.Publics) {
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return errors.New("index out of range")
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}
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byt := i >> 3
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msk := byte(1) << uint(i&7)
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if ((m.Bitmap[byt] & msk) == 0) && enable {
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m.Bitmap[byt] ^= msk // flip bit in Bitmap from 0 to 1
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m.AggregatePublic.Add(m.Publics[i])
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}
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if ((m.Bitmap[byt] & msk) != 0) && !enable {
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m.Bitmap[byt] ^= msk // flip bit in Bitmap from 1 to 0
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m.AggregatePublic.Sub(m.Publics[i])
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}
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return nil
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}
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// GetPubKeyFromMask will return pubkeys which masked either zero or one depending on the flag
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// it is used to show which signers are signed or not in the cosign message
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func (m *Mask) GetPubKeyFromMask(flag bool) []*bls.PublicKey {
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pubKeys := []*bls.PublicKey{}
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for i := range m.Publics {
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byt := i >> 3
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msk := byte(1) << uint(i&7)
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if flag == true {
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if (m.Bitmap[byt] & msk) != 0 {
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pubKeys = append(pubKeys, m.Publics[i])
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}
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} else {
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if (m.Bitmap[byt] & msk) == 0 {
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pubKeys = append(pubKeys, m.Publics[i])
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}
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}
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}
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return pubKeys
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}
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// IndexEnabled checks whether the given index is enabled in the Bitmap or not.
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func (m *Mask) IndexEnabled(i int) (bool, error) {
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if i >= len(m.Publics) {
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return false, errors.New("index out of range")
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}
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byt := i >> 3
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msk := byte(1) << uint(i&7)
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return ((m.Bitmap[byt] & msk) != 0), nil
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}
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// KeyEnabled checks whether the index, corresponding to the given key, is
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// enabled in the Bitmap or not.
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func (m *Mask) KeyEnabled(public *bls.PublicKey) (bool, error) {
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for i, key := range m.Publics {
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if key.IsEqual(public) {
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return m.IndexEnabled(i)
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}
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}
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return false, errors.New("key not found")
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}
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// SetKey set the bit in the Bitmap for the given cosigner
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func (m *Mask) SetKey(public *bls.PublicKey, enable bool) error {
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for i, key := range m.Publics {
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if key.IsEqual(public) {
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return m.SetBit(i, enable)
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}
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}
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return errors.New("key not found")
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}
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// CountEnabled returns the number of enabled nodes in the CoSi participation
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// Bitmap.
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func (m *Mask) CountEnabled() int {
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// hw is hamming weight
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hw := 0
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for i := range m.Publics {
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byt := i >> 3
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msk := byte(1) << uint(i&7)
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if (m.Bitmap[byt] & msk) != 0 {
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hw++
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}
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}
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return hw
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}
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// CountTotal returns the total number of nodes this CoSi instance knows.
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func (m *Mask) CountTotal() int {
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return len(m.Publics)
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}
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// AggregateMasks computes the bitwise OR of the two given participation masks.
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func AggregateMasks(a, b []byte) ([]byte, error) {
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if len(a) != len(b) {
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return nil, errors.New("mismatching Bitmap lengths")
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}
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m := make([]byte, len(a))
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for i := range m {
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m[i] = a[i] | b[i]
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}
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return m, nil
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}
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// Policy represents a fully customizable cosigning policy deciding what
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// cosigner sets are and aren't sufficient for a collective signature to be
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// considered acceptable to a verifier. The Check method may inspect the set of
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// participants that cosigned by invoking cosi.Mask and/or cosi.MaskBit, and may
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// use any other relevant contextual information (e.g., how security-critical
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// the operation relying on the collective signature is) in determining whether
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// the collective signature was produced by an acceptable set of cosigners.
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type Policy interface {
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Check(m *Mask) bool
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}
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// CompletePolicy is the default policy requiring that all participants have
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// cosigned to make a collective signature valid.
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type CompletePolicy struct {
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}
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// Check verifies that all participants have contributed to a collective
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// signature.
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func (p CompletePolicy) Check(m *Mask) bool {
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return m.CountEnabled() == m.CountTotal()
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}
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// ThresholdPolicy allows to specify a simple t-of-n policy requring that at
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// least the given threshold number of participants t have cosigned to make a
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// collective signature valid.
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type ThresholdPolicy struct {
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thold int
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}
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// NewThresholdPolicy returns a new ThresholdPolicy with the given threshold.
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func NewThresholdPolicy(thold int) *ThresholdPolicy {
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return &ThresholdPolicy{thold: thold}
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}
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// Check verifies that at least a threshold number of participants have
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// contributed to a collective signature.
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func (p ThresholdPolicy) Check(m *Mask) bool {
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return m.CountEnabled() >= p.thold
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}
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