neoneo-go/pkg/core/native/native_neo.go
Anna Shaleva 5c75ee13d0 config, native: introduce Cockatrice hard-fork
With all associated native API changes ported from
https://github.com/neo-project/neo/pull/2925 and
https://github.com/neo-project/neo/pull/3154.

Signed-off-by: Anna Shaleva <shaleva.ann@nspcc.ru>
2024-04-25 13:26:54 +03:00

1320 lines
42 KiB
Go

package native
import (
"context"
"crypto/elliptic"
"encoding/binary"
"errors"
"fmt"
"math/big"
"sort"
"strings"
"github.com/nspcc-dev/neo-go/pkg/config"
"github.com/nspcc-dev/neo-go/pkg/core/dao"
"github.com/nspcc-dev/neo-go/pkg/core/interop"
"github.com/nspcc-dev/neo-go/pkg/core/interop/runtime"
istorage "github.com/nspcc-dev/neo-go/pkg/core/interop/storage"
"github.com/nspcc-dev/neo-go/pkg/core/native/nativenames"
"github.com/nspcc-dev/neo-go/pkg/core/state"
"github.com/nspcc-dev/neo-go/pkg/core/storage"
"github.com/nspcc-dev/neo-go/pkg/crypto/hash"
"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
"github.com/nspcc-dev/neo-go/pkg/encoding/bigint"
"github.com/nspcc-dev/neo-go/pkg/io"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/manifest"
"github.com/nspcc-dev/neo-go/pkg/util"
"github.com/nspcc-dev/neo-go/pkg/vm/emit"
"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
)
// NEO represents NEO native contract.
type NEO struct {
nep17TokenNative
GAS *GAS
Policy *Policy
// Configuration and standby keys are set in constructor and then
// only read from.
cfg config.ProtocolConfiguration
standbyKeys keys.PublicKeys
}
type NeoCache struct {
// gasPerBlock represents the history of generated gas per block.
gasPerBlock gasRecord
registerPrice int64
votesChanged bool
nextValidators keys.PublicKeys
// newEpochNextValidators contains cached next block newEpochNextValidators. This list is updated once
// per dBFT epoch in PostPersist of the last block in the epoch if candidates
// votes ratio has been changed or register/unregister operation was performed
// within the last processed epoch. The updated value is being persisted
// following the standard layered DAO persist rules, so that external users
// will get the proper value with upper Blockchain's DAO (but this value is
// relevant only by the moment of first epoch block creation).
newEpochNextValidators keys.PublicKeys
// committee contains cached committee members and their votes.
// It is updated once in a while depending on committee size
// (every 28 blocks for mainnet). It's value
// is always equal to the value stored by `prefixCommittee`.
committee keysWithVotes
// newEpochCommittee contains cached committee members updated once per dBFT
// epoch in PostPersist of the last block in the epoch.
newEpochCommittee keysWithVotes
// committeeHash contains the script hash of the committee.
committeeHash util.Uint160
// newEpochCommitteeHash contains the script hash of the newEpochCommittee.
newEpochCommitteeHash util.Uint160
// gasPerVoteCache contains the last updated value of GAS per vote reward for candidates.
// It is set in state-modifying methods only and read in `PostPersist`, thus is not protected
// by any mutex.
gasPerVoteCache map[string]big.Int
}
const (
neoContractID = -5
// NEOTotalSupply is the total amount of NEO in the system.
NEOTotalSupply = 100000000
// DefaultRegisterPrice is the default price for candidate register.
DefaultRegisterPrice = 1000 * GASFactor
// prefixCandidate is a prefix used to store validator's data.
prefixCandidate = 33
// prefixVotersCount is a prefix for storing total amount of NEO of voters.
prefixVotersCount = 1
// prefixVoterRewardPerCommittee is a prefix for storing committee GAS reward.
prefixVoterRewardPerCommittee = 23
// voterRewardFactor is a factor by which voter reward per committee is multiplied
// to make calculations more precise.
voterRewardFactor = 100_000_000
// prefixGASPerBlock is a prefix for storing amount of GAS generated per block.
prefixGASPerBlock = 29
// prefixRegisterPrice is a prefix for storing candidate register price.
prefixRegisterPrice = 13
// effectiveVoterTurnout represents minimal ratio of total supply to total amount voted value
// which is require to use non-standby validators.
effectiveVoterTurnout = 5
// neoHolderRewardRatio is a percent of generated GAS that is distributed to NEO holders.
neoHolderRewardRatio = 10
// neoHolderRewardRatio is a percent of generated GAS that is distributed to committee.
committeeRewardRatio = 10
// neoHolderRewardRatio is a percent of generated GAS that is distributed to voters.
voterRewardRatio = 80
// maxGetCandidatesRespLen is the maximum number of candidates to return from the
// getCandidates method.
maxGetCandidatesRespLen = 256
)
var (
// prefixCommittee is a key used to store committee.
prefixCommittee = []byte{14}
bigCommitteeRewardRatio = big.NewInt(committeeRewardRatio)
bigVoterRewardRatio = big.NewInt(voterRewardRatio)
bigVoterRewardFactor = big.NewInt(voterRewardFactor)
bigEffectiveVoterTurnout = big.NewInt(effectiveVoterTurnout)
big100 = big.NewInt(100)
)
var (
_ interop.Contract = (*NEO)(nil)
_ dao.NativeContractCache = (*NeoCache)(nil)
)
// Copy implements NativeContractCache interface.
func (c *NeoCache) Copy() dao.NativeContractCache {
cp := &NeoCache{}
copyNeoCache(c, cp)
return cp
}
func copyNeoCache(src, dst *NeoCache) {
dst.votesChanged = src.votesChanged
// Can safely omit copying because the new array is created each time
// newEpochNextValidators list, nextValidators and committee are updated.
dst.nextValidators = src.nextValidators
dst.committee = src.committee
dst.committeeHash = src.committeeHash
dst.newEpochNextValidators = src.newEpochNextValidators
dst.newEpochCommittee = src.newEpochCommittee
dst.newEpochCommitteeHash = src.newEpochCommitteeHash
dst.registerPrice = src.registerPrice
// Can't omit copying because gasPerBlock is append-only, thus to be able to
// discard cache changes in case of FAULTed transaction we need a separate
// container for updated gasPerBlock values.
dst.gasPerBlock = make(gasRecord, len(src.gasPerBlock))
copy(dst.gasPerBlock, src.gasPerBlock)
dst.gasPerVoteCache = make(map[string]big.Int)
for k, v := range src.gasPerVoteCache {
dst.gasPerVoteCache[k] = v
}
}
// makeValidatorKey creates a key from the account script hash.
func makeValidatorKey(key *keys.PublicKey) []byte {
b := key.Bytes()
// Don't create a new buffer.
b = append(b, 0)
copy(b[1:], b[0:])
b[0] = prefixCandidate
return b
}
// newNEO returns NEO native contract.
func newNEO(cfg config.ProtocolConfiguration) *NEO {
n := &NEO{}
defer n.BuildHFSpecificMD(n.ActiveIn())
nep17 := newNEP17Native(nativenames.Neo, neoContractID)
nep17.symbol = "NEO"
nep17.decimals = 0
nep17.factor = 1
nep17.incBalance = n.increaseBalance
nep17.balFromBytes = n.balanceFromBytes
n.nep17TokenNative = *nep17
err := n.initConfigCache(cfg)
if err != nil {
panic(fmt.Errorf("failed to initialize NEO config cache: %w", err))
}
desc := newDescriptor("unclaimedGas", smartcontract.IntegerType,
manifest.NewParameter("account", smartcontract.Hash160Type),
manifest.NewParameter("end", smartcontract.IntegerType))
md := newMethodAndPrice(n.unclaimedGas, 1<<17, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("registerCandidate", smartcontract.BoolType,
manifest.NewParameter("pubkey", smartcontract.PublicKeyType))
md = newMethodAndPrice(n.registerCandidate, 0, callflag.States)
n.AddMethod(md, desc)
desc = newDescriptor("unregisterCandidate", smartcontract.BoolType,
manifest.NewParameter("pubkey", smartcontract.PublicKeyType))
md = newMethodAndPrice(n.unregisterCandidate, 1<<16, callflag.States)
n.AddMethod(md, desc)
desc = newDescriptor("vote", smartcontract.BoolType,
manifest.NewParameter("account", smartcontract.Hash160Type),
manifest.NewParameter("voteTo", smartcontract.PublicKeyType))
md = newMethodAndPrice(n.vote, 1<<16, callflag.States)
n.AddMethod(md, desc)
desc = newDescriptor("getCandidates", smartcontract.ArrayType)
md = newMethodAndPrice(n.getCandidatesCall, 1<<22, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("getAllCandidates", smartcontract.InteropInterfaceType)
md = newMethodAndPrice(n.getAllCandidatesCall, 1<<22, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("getCandidateVote", smartcontract.IntegerType,
manifest.NewParameter("pubKey", smartcontract.PublicKeyType))
md = newMethodAndPrice(n.getCandidateVoteCall, 1<<15, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("getAccountState", smartcontract.ArrayType,
manifest.NewParameter("account", smartcontract.Hash160Type))
md = newMethodAndPrice(n.getAccountState, 1<<15, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("getCommittee", smartcontract.ArrayType)
md = newMethodAndPrice(n.getCommittee, 1<<16, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("getCommitteeAddress", smartcontract.Hash160Type)
md = newMethodAndPrice(n.getCommitteeAddress, 1<<16, callflag.ReadStates, config.HFCockatrice)
n.AddMethod(md, desc)
desc = newDescriptor("getNextBlockValidators", smartcontract.ArrayType)
md = newMethodAndPrice(n.getNextBlockValidators, 1<<16, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("getGasPerBlock", smartcontract.IntegerType)
md = newMethodAndPrice(n.getGASPerBlock, 1<<15, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("setGasPerBlock", smartcontract.VoidType,
manifest.NewParameter("gasPerBlock", smartcontract.IntegerType))
md = newMethodAndPrice(n.setGASPerBlock, 1<<15, callflag.States)
n.AddMethod(md, desc)
desc = newDescriptor("getRegisterPrice", smartcontract.IntegerType)
md = newMethodAndPrice(n.getRegisterPrice, 1<<15, callflag.ReadStates)
n.AddMethod(md, desc)
desc = newDescriptor("setRegisterPrice", smartcontract.VoidType,
manifest.NewParameter("registerPrice", smartcontract.IntegerType))
md = newMethodAndPrice(n.setRegisterPrice, 1<<15, callflag.States)
n.AddMethod(md, desc)
eDesc := newEventDescriptor("CandidateStateChanged",
manifest.NewParameter("pubkey", smartcontract.PublicKeyType),
manifest.NewParameter("registered", smartcontract.BoolType),
manifest.NewParameter("votes", smartcontract.IntegerType),
)
eMD := newEvent(eDesc)
n.AddEvent(eMD)
eDesc = newEventDescriptor("Vote",
manifest.NewParameter("account", smartcontract.Hash160Type),
manifest.NewParameter("from", smartcontract.PublicKeyType),
manifest.NewParameter("to", smartcontract.PublicKeyType),
manifest.NewParameter("amount", smartcontract.IntegerType),
)
eMD = newEvent(eDesc)
n.AddEvent(eMD)
eDesc = newEventDescriptor("CommitteeChanged",
manifest.NewParameter("old", smartcontract.ArrayType),
manifest.NewParameter("new", smartcontract.ArrayType),
)
eMD = newEvent(eDesc)
n.AddEvent(eMD)
return n
}
// Initialize initializes a NEO contract.
func (n *NEO) Initialize(ic *interop.Context, hf *config.Hardfork) error {
if hf != n.ActiveIn() {
return nil
}
if err := n.nep17TokenNative.Initialize(ic); err != nil {
return err
}
_, totalSupply := n.nep17TokenNative.getTotalSupply(ic.DAO)
if totalSupply.Sign() != 0 {
return errors.New("already initialized")
}
cache := &NeoCache{
gasPerVoteCache: make(map[string]big.Int),
votesChanged: true,
}
// We need cache to be present in DAO before the subsequent call to `mint`.
ic.DAO.SetCache(n.ID, cache)
committee0 := n.standbyKeys[:n.cfg.GetCommitteeSize(ic.Block.Index)]
cvs := toKeysWithVotes(committee0)
err := n.updateCache(cache, cvs, ic.BlockHeight())
if err != nil {
return err
}
ic.DAO.PutStorageItem(n.ID, prefixCommittee, cvs.Bytes(ic.DAO.GetItemCtx()))
h, err := getStandbyValidatorsHash(ic)
if err != nil {
return err
}
n.mint(ic, h, big.NewInt(NEOTotalSupply), false)
var index uint32
value := big.NewInt(5 * GASFactor)
n.putGASRecord(ic.DAO, index, value)
gr := &gasRecord{{Index: index, GASPerBlock: *value}}
cache.gasPerBlock = *gr
ic.DAO.PutStorageItem(n.ID, []byte{prefixVotersCount}, state.StorageItem{})
setIntWithKey(n.ID, ic.DAO, []byte{prefixRegisterPrice}, DefaultRegisterPrice)
cache.registerPrice = int64(DefaultRegisterPrice)
var numOfCNs = n.cfg.GetNumOfCNs(ic.Block.Index + 1)
err = n.updateCachedNewEpochValues(ic.DAO, cache, ic.BlockHeight(), numOfCNs)
if err != nil {
return fmt.Errorf("failed to update next block newEpoch* cache: %w", err)
}
return nil
}
// InitializeCache initializes all NEO cache with the proper values from the storage.
// Cache initialization should be done apart from Initialize because Initialize is
// called only when deploying native contracts. InitializeCache implements the Contract
// interface.
func (n *NEO) InitializeCache(blockHeight uint32, d *dao.Simple) error {
cache := &NeoCache{
gasPerVoteCache: make(map[string]big.Int),
votesChanged: true,
}
var committee = keysWithVotes{}
si := d.GetStorageItem(n.ID, prefixCommittee)
if err := committee.DecodeBytes(si); err != nil {
return fmt.Errorf("failed to decode committee: %w", err)
}
if err := n.updateCache(cache, committee, blockHeight); err != nil {
return fmt.Errorf("failed to update cache: %w", err)
}
cache.gasPerBlock = n.getSortedGASRecordFromDAO(d)
cache.registerPrice = getIntWithKey(n.ID, d, []byte{prefixRegisterPrice})
// Update newEpoch* cache for external users. It holds values for the previous
// dBFT epoch if the current one isn't yet finished.
if n.cfg.ShouldUpdateCommitteeAt(blockHeight + 1) {
var numOfCNs = n.cfg.GetNumOfCNs(blockHeight + 1)
err := n.updateCachedNewEpochValues(d, cache, blockHeight, numOfCNs)
if err != nil {
return fmt.Errorf("failed to update next block newEpoch* cache: %w", err)
}
} else {
// nextValidators, committee and committee hash are filled in by this moment
// via n.updateCache call.
cache.newEpochNextValidators = cache.nextValidators.Copy()
cache.newEpochCommittee = make(keysWithVotes, len(cache.committee))
copy(cache.newEpochCommittee, cache.committee)
cache.newEpochCommitteeHash = cache.committeeHash
}
d.SetCache(n.ID, cache)
return nil
}
// ActiveIn implements the Contract interface.
func (n *NEO) ActiveIn() *config.Hardfork {
return nil
}
func (n *NEO) initConfigCache(cfg config.ProtocolConfiguration) error {
var err error
n.cfg = cfg
n.standbyKeys, err = keys.NewPublicKeysFromStrings(n.cfg.StandbyCommittee)
return err
}
func (n *NEO) updateCache(cache *NeoCache, cvs keysWithVotes, blockHeight uint32) error {
cache.committee = cvs
var committee = getCommitteeMembers(cache.committee)
script, err := smartcontract.CreateMajorityMultiSigRedeemScript(committee.Copy())
if err != nil {
return err
}
cache.committeeHash = hash.Hash160(script)
nextVals := committee[:n.cfg.GetNumOfCNs(blockHeight+1)].Copy()
sort.Sort(nextVals)
cache.nextValidators = nextVals
return nil
}
// updateCachedNewEpochValues sets newEpochNextValidators, newEpochCommittee and
// newEpochCommitteeHash cache that will be used by external users to retrieve
// next block validators list of the next dBFT epoch that wasn't yet started and
// will be used by corresponding values initialisation on the next epoch start.
// The updated new epoch cached values computed using the persisted blocks state
// of the latest epoch.
func (n *NEO) updateCachedNewEpochValues(d *dao.Simple, cache *NeoCache, blockHeight uint32, numOfCNs int) error {
committee, cvs, err := n.computeCommitteeMembers(blockHeight, d)
if err != nil {
return fmt.Errorf("failed to compute committee members: %w", err)
}
cache.newEpochCommittee = cvs
script, err := smartcontract.CreateMajorityMultiSigRedeemScript(committee.Copy())
if err != nil {
return err
}
cache.newEpochCommitteeHash = hash.Hash160(script)
nextVals := committee[:numOfCNs].Copy()
sort.Sort(nextVals)
cache.newEpochNextValidators = nextVals
return nil
}
// OnPersist implements the Contract interface.
func (n *NEO) OnPersist(ic *interop.Context) error {
if n.cfg.ShouldUpdateCommitteeAt(ic.Block.Index) {
cache := ic.DAO.GetRWCache(n.ID).(*NeoCache)
// Cached newEpoch* values always have proper value set (either by PostPersist
// during the last epoch block handling or by initialization code).
var oldCommittee, newCommittee stackitem.Item
for i := 0; i < len(cache.committee); i++ {
if cache.newEpochCommittee[i].Key != cache.committee[i].Key ||
(i == 0 && len(cache.newEpochCommittee) != len(cache.committee)) {
oldCommittee, newCommittee = cache.committee.toNotificationItem(), cache.newEpochCommittee.toNotificationItem()
break
}
}
cache.nextValidators = cache.newEpochNextValidators
cache.committee = cache.newEpochCommittee
cache.committeeHash = cache.newEpochCommitteeHash
cache.votesChanged = false
// We need to put in storage anyway, as it affects dumps
ic.DAO.PutStorageItem(n.ID, prefixCommittee, cache.committee.Bytes(ic.DAO.GetItemCtx()))
if oldCommittee != nil {
ic.AddNotification(n.Hash, "CommitteeChanged", stackitem.NewArray([]stackitem.Item{
oldCommittee, newCommittee,
}))
}
}
return nil
}
// PostPersist implements the Contract interface.
func (n *NEO) PostPersist(ic *interop.Context) error {
gas := n.GetGASPerBlock(ic.DAO, ic.Block.Index)
cache := ic.DAO.GetROCache(n.ID).(*NeoCache)
pubs := getCommitteeMembers(cache.committee)
committeeSize := n.cfg.GetCommitteeSize(ic.Block.Index)
index := int(ic.Block.Index) % committeeSize
committeeReward := new(big.Int).Mul(gas, bigCommitteeRewardRatio)
n.GAS.mint(ic, pubs[index].GetScriptHash(), committeeReward.Div(committeeReward, big100), false)
var isCacheRW bool
if n.cfg.ShouldUpdateCommitteeAt(ic.Block.Index) {
var voterReward = new(big.Int).Set(bigVoterRewardRatio)
voterReward.Mul(voterReward, gas)
voterReward.Mul(voterReward, big.NewInt(voterRewardFactor*int64(committeeSize)))
var validatorsCount = n.cfg.GetNumOfCNs(ic.Block.Index)
voterReward.Div(voterReward, big.NewInt(int64(committeeSize+validatorsCount)))
voterReward.Div(voterReward, big100)
var (
cs = cache.committee
key = make([]byte, 34)
)
for i := range cs {
if cs[i].Votes.Sign() > 0 {
var tmp = new(big.Int)
if i < validatorsCount {
tmp.Set(intTwo)
} else {
tmp.Set(intOne)
}
tmp.Mul(tmp, voterReward)
tmp.Div(tmp, cs[i].Votes)
key = makeVoterKey([]byte(cs[i].Key), key)
r := n.getLatestGASPerVote(ic.DAO, key)
tmp.Add(tmp, &r)
if !isCacheRW {
cache = ic.DAO.GetRWCache(n.ID).(*NeoCache)
isCacheRW = true
}
cache.gasPerVoteCache[cs[i].Key] = *tmp
ic.DAO.PutBigInt(n.ID, key, tmp)
}
}
}
// Update newEpoch cache for external users and further committee, committeeHash
// and nextBlockValidators cache initialisation if committee should be updated in
// the next block.
if n.cfg.ShouldUpdateCommitteeAt(ic.Block.Index + 1) {
var (
h = ic.Block.Index // consider persisting block as stored to get _next_ block newEpochNextValidators
numOfCNs = n.cfg.GetNumOfCNs(h + 1)
)
if cache.votesChanged ||
numOfCNs != len(cache.newEpochNextValidators) ||
n.cfg.GetCommitteeSize(h+1) != len(cache.newEpochCommittee) {
if !isCacheRW {
cache = ic.DAO.GetRWCache(n.ID).(*NeoCache)
}
err := n.updateCachedNewEpochValues(ic.DAO, cache, h, numOfCNs)
if err != nil {
return fmt.Errorf("failed to update next block newEpoch* cache: %w", err)
}
}
}
return nil
}
func (n *NEO) getLatestGASPerVote(d *dao.Simple, key []byte) big.Int {
var g big.Int
cache := d.GetROCache(n.ID).(*NeoCache)
if g, ok := cache.gasPerVoteCache[string(key[1:])]; ok {
return g
}
item := d.GetStorageItem(n.ID, key)
if item == nil {
g = *big.NewInt(0)
} else {
g = *bigint.FromBytes(item)
}
return g
}
func (n *NEO) increaseBalance(ic *interop.Context, h util.Uint160, si *state.StorageItem, amount *big.Int, checkBal *big.Int) (func(), error) {
var postF func()
acc, err := state.NEOBalanceFromBytes(*si)
if err != nil {
return nil, err
}
if (amount.Sign() == -1 && acc.Balance.CmpAbs(amount) == -1) ||
(amount.Sign() == 0 && checkBal != nil && acc.Balance.Cmp(checkBal) == -1) {
return nil, errors.New("insufficient funds")
}
newGas, err := n.distributeGas(ic, acc)
if err != nil {
return nil, err
}
if newGas != nil { // Can be if it was already distributed in the same block.
postF = func() { n.GAS.mint(ic, h, newGas, true) }
}
if amount.Sign() == 0 {
*si = acc.Bytes(ic.DAO.GetItemCtx())
return postF, nil
}
if err := n.ModifyAccountVotes(acc, ic.DAO, amount, false); err != nil {
return nil, err
}
if acc.VoteTo != nil {
if err := n.modifyVoterTurnout(ic.DAO, amount); err != nil {
return nil, err
}
}
acc.Balance.Add(&acc.Balance, amount)
if acc.Balance.Sign() != 0 {
*si = acc.Bytes(ic.DAO.GetItemCtx())
} else {
*si = nil
}
return postF, nil
}
func (n *NEO) balanceFromBytes(si *state.StorageItem) (*big.Int, error) {
acc, err := state.NEOBalanceFromBytes(*si)
if err != nil {
return nil, err
}
return &acc.Balance, err
}
func (n *NEO) distributeGas(ic *interop.Context, acc *state.NEOBalance) (*big.Int, error) {
if ic.Block == nil || ic.Block.Index == 0 || ic.Block.Index == acc.BalanceHeight {
return nil, nil
}
gen, err := n.calculateBonus(ic.DAO, acc, ic.Block.Index)
if err != nil {
return nil, err
}
acc.BalanceHeight = ic.Block.Index
if acc.VoteTo != nil {
latestGasPerVote := n.getLatestGASPerVote(ic.DAO, makeVoterKey(acc.VoteTo.Bytes()))
acc.LastGasPerVote = latestGasPerVote
}
return gen, nil
}
func (n *NEO) unclaimedGas(ic *interop.Context, args []stackitem.Item) stackitem.Item {
u := toUint160(args[0])
end := uint32(toBigInt(args[1]).Int64())
gen, err := n.CalculateBonus(ic, u, end)
if err != nil {
panic(err)
}
return stackitem.NewBigInteger(gen)
}
func (n *NEO) getGASPerBlock(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
gas := n.GetGASPerBlock(ic.DAO, ic.Block.Index)
return stackitem.NewBigInteger(gas)
}
func (n *NEO) getSortedGASRecordFromDAO(d *dao.Simple) gasRecord {
var gr = make(gasRecord, 0)
d.Seek(n.ID, storage.SeekRange{Prefix: []byte{prefixGASPerBlock}}, func(k, v []byte) bool {
gr = append(gr, gasIndexPair{
Index: binary.BigEndian.Uint32(k),
GASPerBlock: *bigint.FromBytes(v),
})
return true
})
return gr
}
// GetGASPerBlock returns gas generated for block with provided index.
func (n *NEO) GetGASPerBlock(d *dao.Simple, index uint32) *big.Int {
cache := d.GetROCache(n.ID).(*NeoCache)
gr := cache.gasPerBlock
for i := len(gr) - 1; i >= 0; i-- {
if gr[i].Index <= index {
g := gr[i].GASPerBlock
return &g
}
}
panic("NEO cache not initialized")
}
// GetCommitteeAddress returns address of the committee.
func (n *NEO) GetCommitteeAddress(d *dao.Simple) util.Uint160 {
cache := d.GetROCache(n.ID).(*NeoCache)
return cache.committeeHash
}
func (n *NEO) checkCommittee(ic *interop.Context) bool {
ok, err := runtime.CheckHashedWitness(ic, n.GetCommitteeAddress(ic.DAO))
if err != nil {
panic(err)
}
return ok
}
func (n *NEO) setGASPerBlock(ic *interop.Context, args []stackitem.Item) stackitem.Item {
gas := toBigInt(args[0])
err := n.SetGASPerBlock(ic, ic.Block.Index+1, gas)
if err != nil {
panic(err)
}
return stackitem.Null{}
}
// SetGASPerBlock sets gas generated for blocks after index.
func (n *NEO) SetGASPerBlock(ic *interop.Context, index uint32, gas *big.Int) error {
if gas.Sign() == -1 || gas.Cmp(big.NewInt(10*GASFactor)) == 1 {
return errors.New("invalid value for GASPerBlock")
}
if !n.checkCommittee(ic) {
return errors.New("invalid committee signature")
}
n.putGASRecord(ic.DAO, index, gas)
cache := ic.DAO.GetRWCache(n.ID).(*NeoCache)
cache.gasPerBlock = append(cache.gasPerBlock, gasIndexPair{
Index: index,
GASPerBlock: *gas,
})
return nil
}
func (n *NEO) getRegisterPrice(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
return stackitem.NewBigInteger(big.NewInt(n.getRegisterPriceInternal(ic.DAO)))
}
func (n *NEO) getRegisterPriceInternal(d *dao.Simple) int64 {
cache := d.GetROCache(n.ID).(*NeoCache)
return cache.registerPrice
}
func (n *NEO) setRegisterPrice(ic *interop.Context, args []stackitem.Item) stackitem.Item {
price := toBigInt(args[0])
if price.Sign() <= 0 || !price.IsInt64() {
panic("invalid register price")
}
if !n.checkCommittee(ic) {
panic("invalid committee signature")
}
setIntWithKey(n.ID, ic.DAO, []byte{prefixRegisterPrice}, price.Int64())
cache := ic.DAO.GetRWCache(n.ID).(*NeoCache)
cache.registerPrice = price.Int64()
return stackitem.Null{}
}
func (n *NEO) dropCandidateIfZero(d *dao.Simple, cache *NeoCache, pub *keys.PublicKey, c *candidate) bool {
if c.Registered || c.Votes.Sign() != 0 {
return false
}
d.DeleteStorageItem(n.ID, makeValidatorKey(pub))
voterKey := makeVoterKey(pub.Bytes())
d.DeleteStorageItem(n.ID, voterKey)
delete(cache.gasPerVoteCache, string(voterKey))
return true
}
func makeVoterKey(pub []byte, prealloc ...[]byte) []byte {
var key []byte
if len(prealloc) != 0 {
key = prealloc[0]
} else {
key = make([]byte, 34)
}
key[0] = prefixVoterRewardPerCommittee
copy(key[1:], pub)
return key
}
// CalculateBonus calculates amount of gas generated for holding value NEO from start to end block
// and having voted for active committee member.
func (n *NEO) CalculateBonus(ic *interop.Context, acc util.Uint160, end uint32) (*big.Int, error) {
if ic.Block == nil || end != ic.Block.Index {
return nil, errors.New("can't calculate bonus of height unequal (BlockHeight + 1)")
}
key := makeAccountKey(acc)
si := ic.DAO.GetStorageItem(n.ID, key)
if si == nil {
return nil, storage.ErrKeyNotFound
}
st, err := state.NEOBalanceFromBytes(si)
if err != nil {
return nil, err
}
return n.calculateBonus(ic.DAO, st, end)
}
func (n *NEO) calculateBonus(d *dao.Simple, acc *state.NEOBalance, end uint32) (*big.Int, error) {
r, err := n.CalculateNEOHolderReward(d, &acc.Balance, acc.BalanceHeight, end)
if err != nil || acc.VoteTo == nil {
return r, err
}
var key = makeVoterKey(acc.VoteTo.Bytes())
var reward = n.getLatestGASPerVote(d, key)
var tmp = big.NewInt(0).Sub(&reward, &acc.LastGasPerVote)
tmp.Mul(tmp, &acc.Balance)
tmp.Div(tmp, bigVoterRewardFactor)
tmp.Add(tmp, r)
return tmp, nil
}
// CalculateNEOHolderReward return GAS reward for holding `value` of NEO from start to end block.
func (n *NEO) CalculateNEOHolderReward(d *dao.Simple, value *big.Int, start, end uint32) (*big.Int, error) {
if value.Sign() == 0 || start >= end {
return big.NewInt(0), nil
} else if value.Sign() < 0 {
return nil, errors.New("negative value")
}
cache := d.GetROCache(n.ID).(*NeoCache)
gr := cache.gasPerBlock
var sum, tmp big.Int
for i := len(gr) - 1; i >= 0; i-- {
if gr[i].Index >= end {
continue
} else if gr[i].Index <= start {
tmp.SetInt64(int64(end - start))
tmp.Mul(&tmp, &gr[i].GASPerBlock)
sum.Add(&sum, &tmp)
break
}
tmp.SetInt64(int64(end - gr[i].Index))
tmp.Mul(&tmp, &gr[i].GASPerBlock)
sum.Add(&sum, &tmp)
end = gr[i].Index
}
res := new(big.Int).Mul(value, &sum)
res.Mul(res, tmp.SetInt64(neoHolderRewardRatio))
res.Div(res, tmp.SetInt64(100*NEOTotalSupply))
return res, nil
}
func (n *NEO) registerCandidate(ic *interop.Context, args []stackitem.Item) stackitem.Item {
pub := toPublicKey(args[0])
ok, err := runtime.CheckKeyedWitness(ic, pub)
if err != nil {
panic(err)
} else if !ok {
return stackitem.NewBool(false)
}
if !ic.VM.AddGas(n.getRegisterPriceInternal(ic.DAO)) {
panic("insufficient gas")
}
err = n.RegisterCandidateInternal(ic, pub)
return stackitem.NewBool(err == nil)
}
// RegisterCandidateInternal registers pub as a new candidate.
func (n *NEO) RegisterCandidateInternal(ic *interop.Context, pub *keys.PublicKey) error {
var emitEvent = true
key := makeValidatorKey(pub)
si := ic.DAO.GetStorageItem(n.ID, key)
var c *candidate
if si == nil {
c = &candidate{Registered: true}
} else {
c = new(candidate).FromBytes(si)
emitEvent = !c.Registered
c.Registered = true
}
err := putConvertibleToDAO(n.ID, ic.DAO, key, c)
if emitEvent {
cache := ic.DAO.GetRWCache(n.ID).(*NeoCache)
cache.votesChanged = true
ic.AddNotification(n.Hash, "CandidateStateChanged", stackitem.NewArray([]stackitem.Item{
stackitem.NewByteArray(pub.Bytes()),
stackitem.NewBool(c.Registered),
stackitem.NewBigInteger(&c.Votes),
}))
}
return err
}
func (n *NEO) unregisterCandidate(ic *interop.Context, args []stackitem.Item) stackitem.Item {
pub := toPublicKey(args[0])
ok, err := runtime.CheckKeyedWitness(ic, pub)
if err != nil {
panic(err)
} else if !ok {
return stackitem.NewBool(false)
}
err = n.UnregisterCandidateInternal(ic, pub)
return stackitem.NewBool(err == nil)
}
// UnregisterCandidateInternal unregisters pub as a candidate.
func (n *NEO) UnregisterCandidateInternal(ic *interop.Context, pub *keys.PublicKey) error {
var err error
key := makeValidatorKey(pub)
si := ic.DAO.GetStorageItem(n.ID, key)
if si == nil {
return nil
}
cache := ic.DAO.GetRWCache(n.ID).(*NeoCache)
// Not only current committee/validators cache is interested in votesChanged, but also
// newEpoch cache, thus, modify votesChanged to update the latter.
cache.votesChanged = true
c := new(candidate).FromBytes(si)
emitEvent := c.Registered
c.Registered = false
ok := n.dropCandidateIfZero(ic.DAO, cache, pub, c)
if !ok {
err = putConvertibleToDAO(n.ID, ic.DAO, key, c)
}
if emitEvent {
ic.AddNotification(n.Hash, "CandidateStateChanged", stackitem.NewArray([]stackitem.Item{
stackitem.NewByteArray(pub.Bytes()),
stackitem.NewBool(c.Registered),
stackitem.NewBigInteger(&c.Votes),
}))
}
return err
}
func (n *NEO) vote(ic *interop.Context, args []stackitem.Item) stackitem.Item {
acc := toUint160(args[0])
var pub *keys.PublicKey
if _, ok := args[1].(stackitem.Null); !ok {
pub = toPublicKey(args[1])
}
err := n.VoteInternal(ic, acc, pub)
return stackitem.NewBool(err == nil)
}
// VoteInternal votes from account h for validarors specified in pubs.
func (n *NEO) VoteInternal(ic *interop.Context, h util.Uint160, pub *keys.PublicKey) error {
ok, err := runtime.CheckHashedWitness(ic, h)
if err != nil {
return err
} else if !ok {
return errors.New("invalid signature")
}
key := makeAccountKey(h)
si := ic.DAO.GetStorageItem(n.ID, key)
if si == nil {
return errors.New("invalid account")
}
acc, err := state.NEOBalanceFromBytes(si)
if err != nil {
return err
}
// we should put it in storage anyway as it affects dumps
ic.DAO.PutStorageItem(n.ID, key, si)
if pub != nil {
valKey := makeValidatorKey(pub)
valSi := ic.DAO.GetStorageItem(n.ID, valKey)
if valSi == nil {
return errors.New("unknown validator")
}
cd := new(candidate).FromBytes(valSi)
// we should put it in storage anyway as it affects dumps
ic.DAO.PutStorageItem(n.ID, valKey, valSi)
if !cd.Registered {
return errors.New("validator must be registered")
}
}
if (acc.VoteTo == nil) != (pub == nil) {
val := &acc.Balance
if pub == nil {
val = new(big.Int).Neg(val)
}
if err := n.modifyVoterTurnout(ic.DAO, val); err != nil {
return err
}
}
newGas, err := n.distributeGas(ic, acc)
if err != nil {
return err
}
if err := n.ModifyAccountVotes(acc, ic.DAO, new(big.Int).Neg(&acc.Balance), false); err != nil {
return err
}
if pub != nil && pub != acc.VoteTo {
acc.LastGasPerVote = n.getLatestGASPerVote(ic.DAO, makeVoterKey(pub.Bytes()))
}
oldVote := acc.VoteTo
acc.VoteTo = pub
if err := n.ModifyAccountVotes(acc, ic.DAO, &acc.Balance, true); err != nil {
return err
}
if pub == nil {
acc.LastGasPerVote = *big.NewInt(0)
}
ic.DAO.PutStorageItem(n.ID, key, acc.Bytes(ic.DAO.GetItemCtx()))
ic.AddNotification(n.Hash, "Vote", stackitem.NewArray([]stackitem.Item{
stackitem.NewByteArray(h.BytesBE()),
keyToStackItem(oldVote),
keyToStackItem(pub),
stackitem.NewBigInteger(&acc.Balance),
}))
if newGas != nil { // Can be if it was already distributed in the same block.
n.GAS.mint(ic, h, newGas, true)
}
return nil
}
func keyToStackItem(k *keys.PublicKey) stackitem.Item {
if k == nil {
return stackitem.Null{}
}
return stackitem.NewByteArray(k.Bytes())
}
// ModifyAccountVotes modifies votes of the specified account by value (can be negative).
// typ specifies if this modify is occurring during transfer or vote (with old or new validator).
func (n *NEO) ModifyAccountVotes(acc *state.NEOBalance, d *dao.Simple, value *big.Int, isNewVote bool) error {
cache := d.GetRWCache(n.ID).(*NeoCache)
cache.votesChanged = true
if acc.VoteTo != nil {
key := makeValidatorKey(acc.VoteTo)
si := d.GetStorageItem(n.ID, key)
if si == nil {
return errors.New("invalid validator")
}
cd := new(candidate).FromBytes(si)
cd.Votes.Add(&cd.Votes, value)
if !isNewVote {
ok := n.dropCandidateIfZero(d, cache, acc.VoteTo, cd)
if ok {
return nil
}
}
return putConvertibleToDAO(n.ID, d, key, cd)
}
return nil
}
func (n *NEO) getCandidates(d *dao.Simple, sortByKey bool, max int) ([]keyWithVotes, error) {
arr := make([]keyWithVotes, 0)
buf := io.NewBufBinWriter()
d.Seek(n.ID, storage.SeekRange{Prefix: []byte{prefixCandidate}}, func(k, v []byte) bool {
c := new(candidate).FromBytes(v)
emit.CheckSig(buf.BinWriter, k)
if c.Registered && !n.Policy.IsBlocked(d, hash.Hash160(buf.Bytes())) {
arr = append(arr, keyWithVotes{Key: string(k), Votes: &c.Votes})
}
buf.Reset()
return !sortByKey || max > 0 && len(arr) < max
})
if !sortByKey {
// sortByKey assumes to sort by serialized key bytes (that's the way keys
// are stored and retrieved from the storage by default). Otherwise, need
// to sort using big.Int comparator.
sort.Slice(arr, func(i, j int) bool {
// The most-voted validators should end up in the front of the list.
cmp := arr[i].Votes.Cmp(arr[j].Votes)
if cmp != 0 {
return cmp > 0
}
// Ties are broken with deserialized public keys.
// Sort by ECPoint's (X, Y) components: compare X first, and then compare Y.
cmpX := strings.Compare(arr[i].Key[1:], arr[j].Key[1:])
if cmpX != 0 {
return cmpX == -1
}
// The case when X components are the same is extremely rare, thus we perform
// key deserialization only if needed. No error can occur.
ki, _ := keys.NewPublicKeyFromBytes([]byte(arr[i].Key), elliptic.P256())
kj, _ := keys.NewPublicKeyFromBytes([]byte(arr[j].Key), elliptic.P256())
return ki.Y.Cmp(kj.Y) == -1
})
}
return arr, nil
}
// GetCandidates returns current registered validators list with keys
// and votes.
func (n *NEO) GetCandidates(d *dao.Simple) ([]state.Validator, error) {
kvs, err := n.getCandidates(d, true, maxGetCandidatesRespLen)
if err != nil {
return nil, err
}
arr := make([]state.Validator, len(kvs))
for i := range kvs {
arr[i].Key, err = keys.NewPublicKeyFromBytes([]byte(kvs[i].Key), elliptic.P256())
if err != nil {
return nil, err
}
arr[i].Votes = kvs[i].Votes
}
return arr, nil
}
func (n *NEO) getCandidatesCall(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
validators, err := n.getCandidates(ic.DAO, true, maxGetCandidatesRespLen)
if err != nil {
panic(err)
}
arr := make([]stackitem.Item, len(validators))
for i := range validators {
arr[i] = stackitem.NewStruct([]stackitem.Item{
stackitem.NewByteArray([]byte(validators[i].Key)),
stackitem.NewBigInteger(validators[i].Votes),
})
}
return stackitem.NewArray(arr)
}
func (n *NEO) getCommitteeAddress(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
return stackitem.NewByteArray(n.GetCommitteeAddress(ic.DAO).BytesBE())
}
func (n *NEO) getAllCandidatesCall(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
ctx, cancel := context.WithCancel(context.Background())
prefix := []byte{prefixCandidate}
buf := io.NewBufBinWriter()
keep := func(kv storage.KeyValue) bool {
c := new(candidate).FromBytes(kv.Value)
emit.CheckSig(buf.BinWriter, kv.Key)
if c.Registered && !n.Policy.IsBlocked(ic.DAO, hash.Hash160(buf.Bytes())) {
buf.Reset()
return true
}
buf.Reset()
return false
}
seekres := ic.DAO.SeekAsync(ctx, n.ID, storage.SeekRange{Prefix: prefix})
filteredRes := make(chan storage.KeyValue)
go func() {
for kv := range seekres {
if keep(kv) {
filteredRes <- kv
}
}
close(filteredRes)
}()
opts := istorage.FindRemovePrefix | istorage.FindDeserialize | istorage.FindPick1
item := istorage.NewIterator(filteredRes, prefix, int64(opts))
ic.RegisterCancelFunc(func() {
cancel()
for range seekres { //nolint:revive //empty-block
}
})
return stackitem.NewInterop(item)
}
func (n *NEO) getCandidateVoteCall(ic *interop.Context, args []stackitem.Item) stackitem.Item {
pub := toPublicKey(args[0])
key := makeValidatorKey(pub)
si := ic.DAO.GetStorageItem(n.ID, key)
if si == nil {
return stackitem.NewBigInteger(big.NewInt(-1))
}
c := new(candidate).FromBytes(si)
if !c.Registered {
return stackitem.NewBigInteger(big.NewInt(-1))
}
return stackitem.NewBigInteger(&c.Votes)
}
func (n *NEO) getAccountState(ic *interop.Context, args []stackitem.Item) stackitem.Item {
key := makeAccountKey(toUint160(args[0]))
si := ic.DAO.GetStorageItem(n.ID, key)
if len(si) == 0 {
return stackitem.Null{}
}
item, err := stackitem.Deserialize(si)
if err != nil {
panic(err) // no errors are expected but we better be sure
}
return item
}
// ComputeNextBlockValidators computes an actual list of current validators that is
// relevant for the latest processed dBFT epoch and based on the changes made by
// register/unregister/vote calls during the latest epoch.
// Note: this method isn't actually "computes" new committee list and calculates
// new validators list from it. Instead, it uses cache, and the cache itself is
// updated during the PostPersist of the last block of every epoch.
func (n *NEO) ComputeNextBlockValidators(d *dao.Simple) keys.PublicKeys {
// It should always be OK with RO cache if using lower-layered DAO with proper
// cache set.
cache := d.GetROCache(n.ID).(*NeoCache)
if vals := cache.newEpochNextValidators; vals != nil {
return vals.Copy()
}
// It's a caller's program error to call ComputeNextBlockValidators not having
// the right value in lower cache. With the current scheme of handling
// newEpochNextValidators cache this code is expected to be unreachable, but
// let's have this panic here just in case.
panic("bug: unexpected external call to newEpochNextValidators cache")
}
func (n *NEO) getCommittee(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
pubs := n.GetCommitteeMembers(ic.DAO)
sort.Sort(pubs)
return pubsToArray(pubs)
}
func (n *NEO) modifyVoterTurnout(d *dao.Simple, amount *big.Int) error {
key := []byte{prefixVotersCount}
si := d.GetStorageItem(n.ID, key)
if si == nil {
return errors.New("voters count not found")
}
votersCount := bigint.FromBytes(si)
votersCount.Add(votersCount, amount)
d.PutBigInt(n.ID, key, votersCount)
return nil
}
// GetCommitteeMembers returns public keys of nodes in committee using cached value.
func (n *NEO) GetCommitteeMembers(d *dao.Simple) keys.PublicKeys {
cache := d.GetROCache(n.ID).(*NeoCache)
return getCommitteeMembers(cache.committee)
}
func getCommitteeMembers(cvs keysWithVotes) keys.PublicKeys {
var committee = make(keys.PublicKeys, len(cvs))
var err error
for i := range committee {
committee[i], err = cvs[i].PublicKey()
if err != nil {
panic(err)
}
}
return committee
}
func toKeysWithVotes(pubs keys.PublicKeys) keysWithVotes {
ks := make(keysWithVotes, len(pubs))
for i := range pubs {
ks[i].UnmarshaledKey = pubs[i]
ks[i].Key = string(pubs[i].Bytes())
ks[i].Votes = big.NewInt(0)
}
return ks
}
// computeCommitteeMembers returns public keys of nodes in committee.
func (n *NEO) computeCommitteeMembers(blockHeight uint32, d *dao.Simple) (keys.PublicKeys, keysWithVotes, error) {
key := []byte{prefixVotersCount}
si := d.GetStorageItem(n.ID, key)
if si == nil {
return nil, nil, errors.New("voters count not found")
}
votersCount := bigint.FromBytes(si)
// votersCount / totalSupply must be >= 0.2
votersCount.Mul(votersCount, bigEffectiveVoterTurnout)
_, totalSupply := n.getTotalSupply(d)
voterTurnout := votersCount.Div(votersCount, totalSupply)
count := n.cfg.GetCommitteeSize(blockHeight + 1)
// Can be sorted and/or returned to outside users, thus needs to be copied.
sbVals := keys.PublicKeys(n.standbyKeys[:count]).Copy()
cs, err := n.getCandidates(d, false, -1)
if err != nil {
return nil, nil, err
}
if voterTurnout.Sign() != 1 || len(cs) < count {
kvs := make(keysWithVotes, count)
for i := range kvs {
kvs[i].UnmarshaledKey = sbVals[i]
kvs[i].Key = string(sbVals[i].Bytes())
votes := big.NewInt(0)
for j := range cs {
if cs[j].Key == kvs[i].Key {
votes = cs[j].Votes
break
}
}
kvs[i].Votes = votes
}
return sbVals, kvs, nil
}
pubs := make(keys.PublicKeys, count)
for i := range pubs {
pubs[i], err = cs[i].PublicKey()
if err != nil {
return nil, nil, err
}
}
return pubs, cs[:count], nil
}
func (n *NEO) getNextBlockValidators(ic *interop.Context, _ []stackitem.Item) stackitem.Item {
result := n.GetNextBlockValidatorsInternal(ic.DAO)
return pubsToArray(result)
}
// GetNextBlockValidatorsInternal returns next block validators.
func (n *NEO) GetNextBlockValidatorsInternal(d *dao.Simple) keys.PublicKeys {
cache := d.GetROCache(n.ID).(*NeoCache)
return cache.nextValidators.Copy()
}
// BalanceOf returns native NEO token balance for the acc.
func (n *NEO) BalanceOf(d *dao.Simple, acc util.Uint160) (*big.Int, uint32) {
key := makeAccountKey(acc)
si := d.GetStorageItem(n.ID, key)
if si == nil {
return big.NewInt(0), 0
}
st, err := state.NEOBalanceFromBytes(si)
if err != nil {
panic(fmt.Errorf("failed to decode NEO balance state: %w", err))
}
return &st.Balance, st.BalanceHeight
}
func pubsToArray(pubs keys.PublicKeys) stackitem.Item {
arr := make([]stackitem.Item, len(pubs))
for i := range pubs {
arr[i] = stackitem.NewByteArray(pubs[i].Bytes())
}
return stackitem.NewArray(arr)
}
func toPublicKey(s stackitem.Item) *keys.PublicKey {
buf, err := s.TryBytes()
if err != nil {
panic(err)
}
pub := new(keys.PublicKey)
if err := pub.DecodeBytes(buf); err != nil {
panic(err)
}
return pub
}
// putGASRecord is a helper which creates key and puts GASPerBlock value into the storage.
func (n *NEO) putGASRecord(dao *dao.Simple, index uint32, value *big.Int) {
key := make([]byte, 5)
key[0] = prefixGASPerBlock
binary.BigEndian.PutUint32(key[1:], index)
dao.PutBigInt(n.ID, key, value)
}