prysm-pulse/beacon-chain/cache/depositcache/deposits_cache.go
terence tsao c69bce5d84
Use fieldparams for BLS public key (#10042)
* Use fieldparams for pubkey length

* Fix validator tests

* fix more tests

* fix mock validator

* Fix typo

* bunch of typos

* Update bytes.go

* Update BUILD.bazel

Co-authored-by: prylabs-bulldozer[bot] <58059840+prylabs-bulldozer[bot]@users.noreply.github.com>
2022-01-06 17:33:08 +00:00

290 lines
11 KiB
Go
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// 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 (
"context"
"encoding/hex"
"math/big"
"sort"
"sync"
"github.com/pkg/errors"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
fieldparams "github.com/prysmaticlabs/prysm/config/fieldparams"
"github.com/prysmaticlabs/prysm/config/params"
"github.com/prysmaticlabs/prysm/container/trie"
"github.com/prysmaticlabs/prysm/encoding/bytesutil"
ethpb "github.com/prysmaticlabs/prysm/proto/prysm/v1alpha1"
"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 *trie.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 []*ethpb.DepositContainer
deposits []*ethpb.DepositContainer
finalizedDeposits *FinalizedDeposits
depositsByKey map[[fieldparams.BLSPubkeyLength]byte][]*ethpb.DepositContainer
depositsLock sync.RWMutex
}
// New instantiates a new deposit cache
func New() (*DepositCache, error) {
finalizedDepositsTrie, err := trie.NewTrie(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: []*ethpb.DepositContainer{},
deposits: []*ethpb.DepositContainer{},
depositsByKey: map[[fieldparams.BLSPubkeyLength]byte][]*ethpb.DepositContainer{},
finalizedDeposits: &FinalizedDeposits{Deposits: finalizedDepositsTrie, MerkleTrieIndex: -1},
}, 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) error {
_, span := trace.StartSpan(ctx, "DepositsCache.InsertDeposit")
defer span.End()
if d == nil {
log.WithFields(logrus.Fields{
"block": blockNum,
"deposit": d,
"index": index,
"deposit root": hex.EncodeToString(depositRoot[:]),
}).Warn("Ignoring nil deposit insertion")
return errors.New("nil deposit inserted into the cache")
}
dc.depositsLock.Lock()
defer dc.depositsLock.Unlock()
if int(index) != len(dc.deposits) {
return errors.Errorf("wanted deposit with index %d to be inserted but received %d", len(dc.deposits), index)
}
// 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 })
depCtr := &ethpb.DepositContainer{Deposit: d, Eth1BlockHeight: blockNum, DepositRoot: depositRoot[:], Index: index}
newDeposits := append(
[]*ethpb.DepositContainer{depCtr},
dc.deposits[heightIdx:]...)
dc.deposits = append(dc.deposits[:heightIdx], newDeposits...)
// Append the deposit to our map, in the event no deposits
// exist for the pubkey , it is simply added to the map.
pubkey := bytesutil.ToBytes48(d.Data.PublicKey)
dc.depositsByKey[pubkey] = append(dc.depositsByKey[pubkey], depCtr)
historicalDepositsCount.Inc()
return nil
}
// InsertDepositContainers inserts a set of deposit containers into our deposit cache.
func (dc *DepositCache) InsertDepositContainers(ctx context.Context, ctrs []*ethpb.DepositContainer) {
_, 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
for _, c := range ctrs {
// Use a new value, as the reference
// of c changes in the next iteration.
newPtr := c
pKey := bytesutil.ToBytes48(newPtr.Deposit.Data.PublicKey)
dc.depositsByKey[pKey] = append(dc.depositsByKey[pKey], newPtr)
}
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) {
_, span := trace.StartSpan(ctx, "DepositsCache.InsertFinalizedDeposits")
defer span.End()
dc.depositsLock.Lock()
defer dc.depositsLock.Unlock()
depositTrie := dc.finalizedDeposits.Deposits
insertIndex := int(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
}
if err = depositTrie.Insert(depHash[:], insertIndex); err != nil {
log.WithError(err).Error("Could not insert deposit hash")
return
}
insertIndex++
}
dc.finalizedDeposits = &FinalizedDeposits{
Deposits: depositTrie,
MerkleTrieIndex: eth1DepositIndex,
}
}
// AllDepositContainers returns all historical deposit containers.
func (dc *DepositCache) AllDepositContainers(ctx context.Context) []*ethpb.DepositContainer {
_, span := trace.StartSpan(ctx, "DepositsCache.AllDepositContainers")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
return dc.deposits
}
// 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 {
_, 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 up 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) {
_, 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) {
_, span := trace.StartSpan(ctx, "DepositsCache.DepositByPubkey")
defer span.End()
dc.depositsLock.RLock()
defer dc.depositsLock.RUnlock()
var deposit *ethpb.Deposit
var blockNum *big.Int
deps, ok := dc.depositsByKey[bytesutil.ToBytes48(pubKey)]
if !ok || len(deps) == 0 {
return deposit, blockNum
}
// We always return the first deposit if a particular
// validator key has multiple deposits assigned to
// it.
deposit = deps[0].Deposit
blockNum = big.NewInt(int64(deps[0].Eth1BlockHeight))
return deposit, blockNum
}
// FinalizedDeposits returns the finalized deposits trie.
func (dc *DepositCache) FinalizedDeposits(ctx context.Context) *FinalizedDeposits {
_, 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
}
// PruneProofs removes proofs from all deposits whose index is equal or less than untilDepositIndex.
func (dc *DepositCache) PruneProofs(ctx context.Context, untilDepositIndex int64) error {
ctx, span := trace.StartSpan(ctx, "DepositsCache.PruneProofs")
defer span.End()
dc.depositsLock.Lock()
defer dc.depositsLock.Unlock()
if untilDepositIndex >= int64(len(dc.deposits)) {
untilDepositIndex = int64(len(dc.deposits) - 1)
}
for i := untilDepositIndex; i >= 0; i-- {
if ctx.Err() != nil {
return ctx.Err()
}
// Finding a nil proof means that all proofs up to this deposit have been already pruned.
if dc.deposits[i].Deposit.Proof == nil {
break
}
dc.deposits[i].Deposit.Proof = nil
}
return nil
}