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490 lines
14 KiB
490 lines
14 KiB
package slash
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import (
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"encoding/hex"
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"encoding/json"
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"math/big"
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"github.com/harmony-one/harmony/crypto/bls"
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"github.com/harmony-one/harmony/shard"
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"github.com/ethereum/go-ethereum/common"
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bls_core "github.com/harmony-one/bls/ffi/go/bls"
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consensus_sig "github.com/harmony-one/harmony/consensus/signature"
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"github.com/harmony-one/harmony/core/state"
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"github.com/harmony-one/harmony/crypto/hash"
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common2 "github.com/harmony-one/harmony/internal/common"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/numeric"
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"github.com/harmony-one/harmony/staking/effective"
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staking "github.com/harmony-one/harmony/staking/types"
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"github.com/pkg/errors"
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)
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// Moment ..
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type Moment struct {
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Epoch *big.Int `json:"epoch"`
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ShardID uint32 `json:"shard-id"`
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Height uint64 `json:"height"`
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ViewID uint64 `json:"view-id"`
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}
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// Evidence ..
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type Evidence struct {
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Moment
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ConflictingVotes
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Offender common.Address `json:"offender"`
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}
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// ConflictingVotes ..
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type ConflictingVotes struct {
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FirstVote Vote `json:"first-vote"`
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SecondVote Vote `json:"second-vote"`
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}
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// Vote is the vote of the double signer
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type Vote struct {
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SignerPubKeys []bls.SerializedPublicKey `json:"bls-public-keys"`
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BlockHeaderHash common.Hash `json:"block-header-hash"`
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Signature []byte `json:"bls-signature"`
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}
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// Record is an proof of a slashing made by a witness of a double-signing event
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type Record struct {
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// the reporter who will get rewarded
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Evidence Evidence `json:"evidence"`
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Reporter common.Address `json:"reporter"`
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}
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// Application tracks the slash application to state
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type Application struct {
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TotalSlashed *big.Int `json:"total-slashed"`
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TotalBeneficiaryReward *big.Int `json:"total-beneficiary-reward"`
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}
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func (a *Application) String() string {
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s, _ := json.Marshal(a)
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return string(s)
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}
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// MarshalJSON ..
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func (e Evidence) MarshalJSON() ([]byte, error) {
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return json.Marshal(struct {
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Moment
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ConflictingVotes
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}{e.Moment, e.ConflictingVotes})
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}
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// Records ..
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type Records []Record
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func (r Records) String() string {
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s, _ := json.Marshal(r)
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return string(s)
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}
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var (
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errNoMatchingDoubleSignKeys = errors.New("no matching double sign keys")
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errReporterAndOffenderSame = errors.New("reporter and offender cannot be same")
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errAlreadyBannedValidator = errors.New("cannot slash on already banned validator")
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errSignerKeyNotRightSize = errors.New("bls keys from slash candidate not right side")
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errSlashFromFutureEpoch = errors.New("cannot have slash from future epoch")
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errSlashBeforeStakingEpoch = errors.New("cannot have slash before staking epoch")
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errSlashBlockNoConflict = errors.New("cannot slash for signing on non-conflicting blocks")
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)
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// MarshalJSON ..
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func (r Record) MarshalJSON() ([]byte, error) {
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reporter, offender :=
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common2.MustAddressToBech32(r.Reporter),
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common2.MustAddressToBech32(r.Evidence.Offender)
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return json.Marshal(struct {
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Evidence Evidence `json:"evidence"`
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Reporter string `json:"reporter"`
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AddressForBLSKey string `json:"offender"`
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}{r.Evidence, reporter, offender})
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}
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func (e Evidence) String() string {
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s, _ := json.Marshal(e)
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return string(s)
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}
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func (r Record) String() string {
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s, _ := json.Marshal(r)
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return string(s)
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}
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// Verify checks that the slash is valid
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func Verify(
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chain CommitteeReader,
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state *state.DB,
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candidate *Record,
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) error {
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wrapper, err := state.ValidatorWrapper(candidate.Evidence.Offender, true, false)
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if err != nil {
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return err
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}
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if !chain.Config().IsStaking(candidate.Evidence.Epoch) {
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return errSlashBeforeStakingEpoch
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}
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if wrapper.Status == effective.Banned {
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return errAlreadyBannedValidator
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}
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if candidate.Evidence.Offender == candidate.Reporter {
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return errReporterAndOffenderSame
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}
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first, second :=
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candidate.Evidence.FirstVote,
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candidate.Evidence.SecondVote
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for _, pubKey := range append(first.SignerPubKeys, second.SignerPubKeys...) {
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if len(pubKey) != bls.PublicKeySizeInBytes {
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return errors.Wrapf(
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errSignerKeyNotRightSize, "double-signed key %x", pubKey,
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)
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}
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}
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if first.BlockHeaderHash == second.BlockHeaderHash {
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return errors.Wrapf(errSlashBlockNoConflict, "first %v+ second %v+", first, second)
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}
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doubleSignKeys := []bls.SerializedPublicKey{}
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for _, pubKey1 := range first.SignerPubKeys {
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for _, pubKey2 := range second.SignerPubKeys {
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if shard.CompareBLSPublicKey(pubKey1, pubKey2) == 0 {
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doubleSignKeys = append(doubleSignKeys, pubKey1)
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break
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}
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}
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}
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if len(doubleSignKeys) == 0 {
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return errNoMatchingDoubleSignKeys
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}
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currentEpoch := chain.CurrentBlock().Epoch()
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// the slash can't come from the future (shard chain's epoch can't be larger than beacon chain's)
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if candidate.Evidence.Epoch.Cmp(currentEpoch) == 1 {
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return errors.Wrapf(
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errSlashFromFutureEpoch, "current-epoch %v", currentEpoch,
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)
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}
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superCommittee, err := chain.ReadShardState(candidate.Evidence.Epoch)
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if err != nil {
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return err
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}
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subCommittee, err := superCommittee.FindCommitteeByID(
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candidate.Evidence.ShardID,
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)
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if err != nil {
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return errors.Wrapf(
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err, "given shardID %d", candidate.Evidence.ShardID,
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)
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}
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signerFound := false
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addrs := []common.Address{}
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for _, pubKey := range doubleSignKeys {
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addr, err := subCommittee.AddressForBLSKey(
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pubKey,
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)
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if err != nil {
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return err
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}
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if *addr == candidate.Evidence.Offender {
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signerFound = true
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}
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addrs = append(addrs, *addr)
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}
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if len(addrs) > 1 {
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return errors.Errorf("multiple double signer addresses found (%x) ", addrs)
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}
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if !signerFound {
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return errors.Errorf("offender address (%x) does not match the signer's address (%x)", candidate.Evidence.Offender, addrs)
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}
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// last ditch check
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if hash.FromRLPNew256(
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candidate.Evidence.FirstVote,
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) == hash.FromRLPNew256(
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candidate.Evidence.SecondVote,
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) {
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return errors.Wrapf(
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errBallotsNotDiff,
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"%s %s",
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candidate.Evidence.FirstVote.SignerPubKeys,
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candidate.Evidence.SecondVote.SignerPubKeys,
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)
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}
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for _, ballot := range [...]Vote{
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candidate.Evidence.FirstVote,
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candidate.Evidence.SecondVote,
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} {
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// now the only real assurance, cryptography
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signature := &bls_core.Sign{}
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publicKey := &bls_core.PublicKey{}
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if err := signature.Deserialize(ballot.Signature); err != nil {
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return err
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}
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for _, pubKey := range ballot.SignerPubKeys {
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publicKeyObj, err := bls.BytesToBLSPublicKey(pubKey[:])
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if err != nil {
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return err
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}
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publicKey.Add(publicKeyObj)
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}
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// slash verification only happens in staking era, therefore want commit payload for staking epoch
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commitPayload := consensus_sig.ConstructCommitPayload(chain,
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candidate.Evidence.Epoch, ballot.BlockHeaderHash, candidate.Evidence.Height, candidate.Evidence.ViewID)
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utils.Logger().Debug().
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Uint64("epoch", candidate.Evidence.Epoch.Uint64()).
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Uint64("block-number", candidate.Evidence.Height).
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Uint64("view-id", candidate.Evidence.ViewID).
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Msgf("[COMMIT-PAYLOAD] doubleSignVerify %v", hex.EncodeToString(commitPayload))
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if !signature.VerifyHash(publicKey, commitPayload) {
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return errFailVerifySlash
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}
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}
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return nil
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}
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var (
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errSlashDebtCannotBeNegative = errors.New("slash debt cannot be negative")
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errValidatorNotFoundDuringSlash = errors.New("validator not found")
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errFailVerifySlash = errors.New("could not verify bls key signature on slash")
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errBallotsNotDiff = errors.New("ballots submitted must be different")
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oneDoubleSignerRate = numeric.MustNewDecFromStr("0.02")
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)
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// applySlashRate applies a decimal percentage to a bigInt value
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func applySlashRate(amount *big.Int, rate numeric.Dec) *big.Int {
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return numeric.NewDecFromBigInt(
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amount,
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).Mul(rate).TruncateInt()
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}
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// Hash is a New256 hash of an RLP encoded Record
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func (r Record) Hash() common.Hash {
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return hash.FromRLPNew256(r)
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}
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// SetDifference returns all the records that are in ys but not in r
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func (r Records) SetDifference(ys Records) Records {
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diff, set := Records{}, map[common.Hash]struct{}{}
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for i := range r {
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h := r[i].Hash()
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if _, ok := set[h]; !ok {
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set[h] = struct{}{}
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}
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}
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for i := range ys {
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h := ys[i].Hash()
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if _, ok := set[h]; !ok {
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diff = append(diff, ys[i])
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}
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}
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return diff
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}
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func payDownByDelegationStaked(
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delegation *staking.Delegation,
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slashDebt, totalSlashed *big.Int,
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) {
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payDown(delegation.Amount, slashDebt, totalSlashed)
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}
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func payDownByUndelegation(
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undelegation *staking.Undelegation,
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slashDebt, totalSlashed *big.Int,
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) {
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payDown(undelegation.Amount, slashDebt, totalSlashed)
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}
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func payDownByReward(
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delegation *staking.Delegation,
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slashDebt, totalSlashed *big.Int,
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) {
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payDown(delegation.Reward, slashDebt, totalSlashed)
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}
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func payDown(
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balance, debt, totalSlashed *big.Int,
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) {
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slashAmount := new(big.Int).Set(debt)
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if balance.Cmp(debt) < 0 {
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slashAmount.Set(balance)
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}
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balance.Sub(balance, slashAmount)
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debt.Sub(debt, slashAmount)
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totalSlashed.Add(totalSlashed, slashAmount)
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}
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func makeSlashList(snapshot, current *staking.ValidatorWrapper) ([][2]int, *big.Int) {
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slashIndexPairs := make([][2]int, 0, len(snapshot.Delegations))
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slashDelegations := make(map[common.Address]int, len(snapshot.Delegations))
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totalStake := big.NewInt(0)
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for index, delegation := range snapshot.Delegations {
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slashDelegations[delegation.DelegatorAddress] = index
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totalStake.Add(totalStake, delegation.Amount)
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}
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for index, delegation := range current.Delegations {
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if oldIndex, exist := slashDelegations[delegation.DelegatorAddress]; exist {
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slashIndexPairs = append(slashIndexPairs, [2]int{oldIndex, index})
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}
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}
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return slashIndexPairs, totalStake
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}
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// delegatorSlashApply applies slashing to all delegators including the validator.
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// The validator’s self-owned stake is slashed by 50%.
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// The stake of external delegators is slashed by 80% of the leader’s self-owned slashed stake, each one proportionally to their stake.
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func delegatorSlashApply(
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snapshot, current *staking.ValidatorWrapper,
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state *state.DB,
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rewardBeneficiary common.Address,
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doubleSignEpoch *big.Int,
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slashTrack *Application,
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) error {
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// First delegation is validator's own stake
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validatorDebt := new(big.Int).Div(snapshot.Delegations[0].Amount, common.Big2)
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return delegatorSlashApplyDebt(snapshot, current, state, validatorDebt, rewardBeneficiary, doubleSignEpoch, slashTrack)
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}
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// delegatorSlashApply applies slashing to all delegators including the validator.
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// The validator’s self-owned stake is slashed by 50%.
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// The stake of external delegators is slashed by 80% of the leader’s self-owned slashed stake, each one proportionally to their stake.
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func delegatorSlashApplyDebt(
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snapshot, current *staking.ValidatorWrapper,
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state *state.DB,
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validatorDebt *big.Int,
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rewardBeneficiary common.Address,
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doubleSignEpoch *big.Int,
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slashTrack *Application,
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) error {
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slashIndexPairs, totalStake := makeSlashList(snapshot, current)
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validatorDelegation := ¤t.Delegations[0]
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totalExternalStake := new(big.Int).Sub(totalStake, validatorDelegation.Amount)
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validatorSlashed := applySlashingToDelegation(validatorDelegation, state, rewardBeneficiary, doubleSignEpoch, validatorDebt)
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totalSlahsed := new(big.Int).Set(validatorSlashed)
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// External delegators
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aggregateDebt := applySlashRate(validatorSlashed, numeric.MustNewDecFromStr("0.8"))
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for _, indexPair := range slashIndexPairs[1:] {
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snapshotIndex := indexPair[0]
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currentIndex := indexPair[1]
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delegationSnapshot := snapshot.Delegations[snapshotIndex]
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delegationCurrent := ¤t.Delegations[currentIndex]
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// A*(B/C) => (A*B)/C
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// slashDebt = aggregateDebt*(Amount/totalExternalStake)
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slashDebt := new(big.Int).Mul(delegationSnapshot.Amount, aggregateDebt)
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slashDebt.Div(slashDebt, totalExternalStake)
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slahsed := applySlashingToDelegation(delegationCurrent, state, rewardBeneficiary, doubleSignEpoch, slashDebt)
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totalSlahsed.Add(totalSlahsed, slahsed)
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}
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// finally, kick them off forever
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current.Status = effective.Banned
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if err := current.SanityCheck(); err != nil {
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return err
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}
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state.UpdateValidatorWrapper(current.Address, current)
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beneficiaryReward := new(big.Int).Div(totalSlahsed, common.Big2)
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state.AddBalance(rewardBeneficiary, beneficiaryReward)
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slashTrack.TotalBeneficiaryReward.Add(slashTrack.TotalBeneficiaryReward, beneficiaryReward)
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slashTrack.TotalSlashed.Add(slashTrack.TotalSlashed, totalSlahsed)
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return nil
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}
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// applySlashingToDelegation applies slashing to a delegator, given the amount that should be slashed.
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// Also, rewards the beneficiary half of the amount that was successfully slashed.
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func applySlashingToDelegation(delegation *staking.Delegation, state *state.DB, rewardBeneficiary common.Address, doubleSignEpoch *big.Int, slashDebt *big.Int) *big.Int {
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slashed := big.NewInt(0)
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debtCopy := new(big.Int).Set(slashDebt)
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payDownByDelegationStaked(delegation, debtCopy, slashed)
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// NOTE Assume did as much as could above, now check the undelegations
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for i := range delegation.Undelegations {
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if debtCopy.Sign() == 0 {
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break
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}
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undelegation := &delegation.Undelegations[i]
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// the epoch matters, only those undelegation
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// such that epoch>= doubleSignEpoch should be slashable
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if undelegation.Epoch.Cmp(doubleSignEpoch) >= 0 {
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payDownByUndelegation(undelegation, debtCopy, slashed)
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}
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}
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if debtCopy.Sign() == 1 {
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payDownByReward(delegation, debtCopy, slashed)
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}
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return slashed
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}
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// Apply ..
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func Apply(
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chain staking.ValidatorSnapshotReader, state *state.DB,
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slashes Records, rewardBeneficiary common.Address,
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) (*Application, error) {
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slashDiff := &Application{big.NewInt(0), big.NewInt(0)}
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for _, slash := range slashes {
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snapshot, err := chain.ReadValidatorSnapshotAtEpoch(
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slash.Evidence.Epoch,
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slash.Evidence.Offender,
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)
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if err != nil {
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return nil, errors.Errorf(
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"could not find validator %s",
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common2.MustAddressToBech32(slash.Evidence.Offender),
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)
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}
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current, err := state.ValidatorWrapper(slash.Evidence.Offender, true, false)
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if err != nil {
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return nil, errors.Wrapf(
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errValidatorNotFoundDuringSlash, " %s ", err.Error(),
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)
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}
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// NOTE invariant: first delegation is the validators own stake,
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// rest are external delegations.
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if err := delegatorSlashApply(
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snapshot.Validator, current, state,
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rewardBeneficiary, slash.Evidence.Epoch, slashDiff,
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); err != nil {
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return nil, err
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}
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utils.Logger().Info().
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RawJSON("delegation-current", []byte(current.String())).
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RawJSON("slash", []byte(slash.String())).
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Msg("slash applyed")
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}
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return slashDiff, nil
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}
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// IsBanned ..
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func IsBanned(wrapper *staking.ValidatorWrapper) bool {
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return wrapper.Status == effective.Banned
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}
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|