prysm-pulse/beacon-chain/cache/depositcache/deposits_cache.go
Victor Farazdagi 3621b2ff25
Better naming for constructor funcs (#7316)
* sync/initial-sync
* NewBeaconClientService -> NewService
* NewSlashingProtectionService -> NewService
* NewPrometheusService -> NewService
* NewColdStartService -> NewService
* NewRegularSync -> NewService
* NewDetectionService -> NewService
* NewWallet -> New
* NewKeystore -> New
* Merge branch 'master' into better-naming
* Merge branch 'master' into better-naming
* NewDepositCache -> New
2020-09-23 08:59:49 +00:00

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// Package depositcache is the source of validator deposits maintained
// in-memory by the beacon node deposits processed from the
// eth1 powchain are then stored in this cache to be accessed by
// any other service during a beacon node's runtime.
package depositcache
import (
"bytes"
"context"
"encoding/hex"
"math/big"
"sort"
"sync"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
ethpb "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1"
dbpb "github.com/prysmaticlabs/prysm/proto/beacon/db"
"github.com/prysmaticlabs/prysm/shared/bytesutil"
"github.com/prysmaticlabs/prysm/shared/params"
"github.com/prysmaticlabs/prysm/shared/trieutil"
log "github.com/sirupsen/logrus"
"go.opencensus.io/trace"
)
var (
historicalDepositsCount = promauto.NewCounter(prometheus.CounterOpts{
Name: "beacondb_all_deposits",
Help: "The number of total deposits in the beaconDB in-memory database",
})
)
// DepositFetcher defines a struct which can retrieve deposit information from a store.
type DepositFetcher interface {
AllDeposits(ctx context.Context, untilBlk *big.Int) []*ethpb.Deposit
DepositByPubkey(ctx context.Context, pubKey []byte) (*ethpb.Deposit, *big.Int)
DepositsNumberAndRootAtHeight(ctx context.Context, blockHeight *big.Int) (uint64, [32]byte)
FinalizedDeposits(ctx context.Context) *FinalizedDeposits
NonFinalizedDeposits(ctx context.Context, untilBlk *big.Int) []*ethpb.Deposit
}
// FinalizedDeposits stores the trie of deposits that have been included
// in the beacon state up to the latest finalized checkpoint.
type FinalizedDeposits struct {
Deposits *trieutil.SparseMerkleTrie
MerkleTrieIndex int64
}
// DepositCache stores all in-memory deposit objects. This
// stores all the deposit related data that is required by the beacon-node.
type DepositCache struct {
// Beacon chain deposits in memory.
pendingDeposits []*dbpb.DepositContainer
deposits []*dbpb.DepositContainer
finalizedDeposits *FinalizedDeposits
depositsLock sync.RWMutex
chainStartDeposits []*ethpb.Deposit
chainStartPubkeys map[string]bool
}
// New instantiates a new deposit cache
func New() (*DepositCache, error) {
finalizedDepositsTrie, err := trieutil.NewTrie(int(params.BeaconConfig().DepositContractTreeDepth))
if err != nil {
return nil, err
}
// finalizedDeposits.MerkleTrieIndex is initialized to -1 because it represents the index of the last trie item.
// Inserting the first item into the trie will set the value of the index to 0.
return &DepositCache{
pendingDeposits: []*dbpb.DepositContainer{},
deposits: []*dbpb.DepositContainer{},
finalizedDeposits: &FinalizedDeposits{Deposits: finalizedDepositsTrie, MerkleTrieIndex: -1},
chainStartPubkeys: make(map[string]bool),
chainStartDeposits: make([]*ethpb.Deposit, 0),
}, nil
}
// InsertDeposit into the database. If deposit or block number are nil
// then this method does nothing.
func (dc *DepositCache) InsertDeposit(ctx context.Context, d *ethpb.Deposit, blockNum uint64, index int64, depositRoot [32]byte) {
ctx, span := trace.StartSpan(ctx, "DepositsCache.InsertDeposit")
defer span.End()
if d == nil {
log.WithFields(log.Fields{
"block": blockNum,
"deposit": d,
"index": index,
"deposit root": hex.EncodeToString(depositRoot[:]),
}).Warn("Ignoring nil deposit insertion")
return
}
dc.depositsLock.Lock()
defer dc.depositsLock.Unlock()
// Keep the slice sorted on insertion in order to avoid costly sorting on retrieval.
heightIdx := sort.Search(len(dc.deposits), func(i int) bool { return dc.deposits[i].Index >= index })
newDeposits := append([]*dbpb.DepositContainer{{Deposit: d, Eth1BlockHeight: blockNum, DepositRoot: depositRoot[:], Index: index}}, dc.deposits[heightIdx:]...)
dc.deposits = append(dc.deposits[:heightIdx], newDeposits...)
historicalDepositsCount.Inc()
}
// InsertDepositContainers inserts a set of deposit containers into our deposit cache.
func (dc *DepositCache) InsertDepositContainers(ctx context.Context, ctrs []*dbpb.DepositContainer) {
ctx, span := trace.StartSpan(ctx, "DepositsCache.InsertDepositContainers")
defer span.End()
dc.depositsLock.Lock()
defer dc.depositsLock.Unlock()
sort.SliceStable(ctrs, func(i int, j int) bool { return ctrs[i].Index < ctrs[j].Index })
dc.deposits = ctrs
historicalDepositsCount.Add(float64(len(ctrs)))
}
// InsertFinalizedDeposits inserts deposits up to eth1DepositIndex (inclusive) into the finalized deposits cache.
func (dc *DepositCache) InsertFinalizedDeposits(ctx context.Context, eth1DepositIndex int64) {
ctx, span := trace.StartSpan(ctx, "DepositsCache.InsertFinalizedDeposits")
defer span.End()
dc.depositsLock.Lock()
defer dc.depositsLock.Unlock()
depositTrie := dc.finalizedDeposits.Deposits
insertIndex := dc.finalizedDeposits.MerkleTrieIndex + 1
for _, d := range dc.deposits {
if d.Index <= dc.finalizedDeposits.MerkleTrieIndex {
continue
}
if d.Index > eth1DepositIndex {
break
}
depHash, err := d.Deposit.Data.HashTreeRoot()
if err != nil {
log.WithError(err).Error("Could not hash deposit data. Finalized deposit cache not updated.")
return
}
depositTrie.Insert(depHash[:], int(insertIndex))
insertIndex++
}
dc.finalizedDeposits = &FinalizedDeposits{
Deposits: depositTrie,
MerkleTrieIndex: eth1DepositIndex,
}
}
// AllDepositContainers returns all historical deposit containers.
func (dc *DepositCache) AllDepositContainers(ctx context.Context) []*dbpb.DepositContainer {
ctx, span := trace.StartSpan(ctx, "DepositsCache.AllDepositContainers")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
return dc.deposits
}
// MarkPubkeyForChainstart sets the pubkey deposit status to true.
func (dc *DepositCache) MarkPubkeyForChainstart(ctx context.Context, pubkey string) {
ctx, span := trace.StartSpan(ctx, "DepositsCache.MarkPubkeyForChainstart")
defer span.End()
dc.chainStartPubkeys[pubkey] = true
}
// PubkeyInChainstart returns bool for whether the pubkey passed in has deposited.
func (dc *DepositCache) PubkeyInChainstart(ctx context.Context, pubkey string) bool {
ctx, span := trace.StartSpan(ctx, "DepositsCache.PubkeyInChainstart")
defer span.End()
if dc.chainStartPubkeys != nil {
return dc.chainStartPubkeys[pubkey]
}
dc.chainStartPubkeys = make(map[string]bool)
return false
}
// AllDeposits returns a list of historical deposits until the given block number
// (inclusive). If no block is specified then this method returns all historical deposits.
func (dc *DepositCache) AllDeposits(ctx context.Context, untilBlk *big.Int) []*ethpb.Deposit {
ctx, span := trace.StartSpan(ctx, "DepositsCache.AllDeposits")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
var deposits []*ethpb.Deposit
for _, ctnr := range dc.deposits {
if untilBlk == nil || untilBlk.Uint64() >= ctnr.Eth1BlockHeight {
deposits = append(deposits, ctnr.Deposit)
}
}
return deposits
}
// DepositsNumberAndRootAtHeight returns number of deposits made prior to blockheight and the
// root that corresponds to the latest deposit at that blockheight.
func (dc *DepositCache) DepositsNumberAndRootAtHeight(ctx context.Context, blockHeight *big.Int) (uint64, [32]byte) {
ctx, span := trace.StartSpan(ctx, "DepositsCache.DepositsNumberAndRootAtHeight")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
heightIdx := sort.Search(len(dc.deposits), func(i int) bool { return dc.deposits[i].Eth1BlockHeight > blockHeight.Uint64() })
// send the deposit root of the empty trie, if eth1follow distance is greater than the time of the earliest
// deposit.
if heightIdx == 0 {
return 0, [32]byte{}
}
return uint64(heightIdx), bytesutil.ToBytes32(dc.deposits[heightIdx-1].DepositRoot)
}
// DepositByPubkey looks through historical deposits and finds one which contains
// a certain public key within its deposit data.
func (dc *DepositCache) DepositByPubkey(ctx context.Context, pubKey []byte) (*ethpb.Deposit, *big.Int) {
ctx, span := trace.StartSpan(ctx, "DepositsCache.DepositByPubkey")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
var deposit *ethpb.Deposit
var blockNum *big.Int
for _, ctnr := range dc.deposits {
if bytes.Equal(ctnr.Deposit.Data.PublicKey, pubKey) {
deposit = ctnr.Deposit
blockNum = big.NewInt(int64(ctnr.Eth1BlockHeight))
break
}
}
return deposit, blockNum
}
// FinalizedDeposits returns the finalized deposits trie.
func (dc *DepositCache) FinalizedDeposits(ctx context.Context) *FinalizedDeposits {
ctx, span := trace.StartSpan(ctx, "DepositsCache.FinalizedDeposits")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
return &FinalizedDeposits{
Deposits: dc.finalizedDeposits.Deposits.Copy(),
MerkleTrieIndex: dc.finalizedDeposits.MerkleTrieIndex,
}
}
// NonFinalizedDeposits returns the list of non-finalized deposits until the given block number (inclusive).
// If no block is specified then this method returns all non-finalized deposits.
func (dc *DepositCache) NonFinalizedDeposits(ctx context.Context, untilBlk *big.Int) []*ethpb.Deposit {
ctx, span := trace.StartSpan(ctx, "DepositsCache.NonFinalizedDeposits")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
if dc.finalizedDeposits == nil {
return dc.AllDeposits(ctx, untilBlk)
}
lastFinalizedDepositIndex := dc.finalizedDeposits.MerkleTrieIndex
var deposits []*ethpb.Deposit
for _, d := range dc.deposits {
if (d.Index > lastFinalizedDepositIndex) && (untilBlk == nil || untilBlk.Uint64() >= d.Eth1BlockHeight) {
deposits = append(deposits, d.Deposit)
}
}
return deposits
}