prysm-pulse/beacon-chain/state/field_trie.go
Preston Van Loon d4545233cd
Fix race condition issues in beacon state (#6322)
* Fix race condition issues in beacon state
* Merge branch 'master' of github.com:prysmaticlabs/prysm into race-condition-fixes
* Checkout beacon-chain/state/stateutil/BUILD.bazel from master
* @nisdas PR feedback. defer unlock
2020-06-20 00:27:23 +00:00

286 lines
8.0 KiB
Go

package state
import (
"reflect"
"sync"
"github.com/pkg/errors"
ethpb "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1"
"github.com/prysmaticlabs/prysm/beacon-chain/state/stateutil"
pb "github.com/prysmaticlabs/prysm/proto/beacon/p2p/v1"
"github.com/prysmaticlabs/prysm/shared/bytesutil"
"github.com/prysmaticlabs/prysm/shared/hashutil"
)
// FieldTrie is the representation of the representative
// trie of the particular field.
type FieldTrie struct {
*sync.Mutex
*reference
fieldLayers [][]*[32]byte
field fieldIndex
}
// NewFieldTrie is the constructor for the field trie data structure. It creates the corresponding
// trie according to the given parameters. Depending on whether the field is a basic/composite array
// which is either fixed/variable length, it will appropriately determine the trie.
func NewFieldTrie(field fieldIndex, elements interface{}, length uint64) (*FieldTrie, error) {
if elements == nil {
return &FieldTrie{
field: field,
reference: &reference{refs: 1},
Mutex: new(sync.Mutex),
}, nil
}
datType, ok := fieldMap[field]
if !ok {
return nil, errors.Errorf("unrecognized field in trie")
}
fieldRoots, err := fieldConverters(field, []uint64{}, elements, true)
if err != nil {
return nil, err
}
switch datType {
case basicArray:
return &FieldTrie{
fieldLayers: stateutil.ReturnTrieLayer(fieldRoots, length),
field: field,
reference: &reference{refs: 1},
Mutex: new(sync.Mutex),
}, nil
case compositeArray:
return &FieldTrie{
fieldLayers: stateutil.ReturnTrieLayerVariable(fieldRoots, length),
field: field,
reference: &reference{refs: 1},
Mutex: new(sync.Mutex),
}, nil
default:
return nil, errors.Errorf("unrecognized data type in field map: %v", reflect.TypeOf(datType).Name())
}
}
// RecomputeTrie rebuilds the affected branches in the trie according to the provided
// changed indices and elements. This recomputes the trie according to the particular
// field the trie is based on.
func (f *FieldTrie) RecomputeTrie(indices []uint64, elements interface{}) ([32]byte, error) {
f.Lock()
defer f.Unlock()
var fieldRoot [32]byte
if len(indices) == 0 {
return f.TrieRoot()
}
datType, ok := fieldMap[f.field]
if !ok {
return [32]byte{}, errors.Errorf("unrecognized field in trie")
}
fieldRoots, err := fieldConverters(f.field, indices, elements, false)
if err != nil {
return [32]byte{}, err
}
switch datType {
case basicArray:
fieldRoot, f.fieldLayers, err = stateutil.RecomputeFromLayer(fieldRoots, indices, f.fieldLayers)
if err != nil {
return [32]byte{}, err
}
return fieldRoot, nil
case compositeArray:
fieldRoot, f.fieldLayers, err = stateutil.RecomputeFromLayerVariable(fieldRoots, indices, f.fieldLayers)
if err != nil {
return [32]byte{}, err
}
return stateutil.AddInMixin(fieldRoot, uint64(len(f.fieldLayers[0])))
default:
return [32]byte{}, errors.Errorf("unrecognized data type in field map: %v", reflect.TypeOf(datType).Name())
}
}
// CopyTrie copies the references to the elements the trie
// is built on.
func (f *FieldTrie) CopyTrie() *FieldTrie {
if f.fieldLayers == nil {
return &FieldTrie{
field: f.field,
reference: &reference{refs: 1},
Mutex: new(sync.Mutex),
}
}
dstFieldTrie := make([][]*[32]byte, len(f.fieldLayers))
for i, layer := range f.fieldLayers {
if len(dstFieldTrie[i]) < len(layer) {
diffSlice := make([]*[32]byte, len(layer)-len(dstFieldTrie[i]))
dstFieldTrie[i] = append(dstFieldTrie[i], diffSlice...)
}
dstFieldTrie[i] = dstFieldTrie[i][:len(layer)]
copy(dstFieldTrie[i], layer)
}
return &FieldTrie{
fieldLayers: dstFieldTrie,
field: f.field,
reference: &reference{refs: 1},
Mutex: new(sync.Mutex),
}
}
// TrieRoot returns the corresponding root of the trie.
func (f *FieldTrie) TrieRoot() ([32]byte, error) {
datType, ok := fieldMap[f.field]
if !ok {
return [32]byte{}, errors.Errorf("unrecognized field in trie")
}
switch datType {
case basicArray:
return *f.fieldLayers[len(f.fieldLayers)-1][0], nil
case compositeArray:
trieRoot := *f.fieldLayers[len(f.fieldLayers)-1][0]
return stateutil.AddInMixin(trieRoot, uint64(len(f.fieldLayers[0])))
default:
return [32]byte{}, errors.Errorf("unrecognized data type in field map: %v", reflect.TypeOf(datType).Name())
}
}
// this converts the corresponding field and the provided elements to the appropriate roots.
func fieldConverters(field fieldIndex, indices []uint64, elements interface{}, convertAll bool) ([][32]byte, error) {
switch field {
case blockRoots, stateRoots, randaoMixes:
val, ok := elements.([][]byte)
if !ok {
return nil, errors.Errorf("Wanted type of %v but got %v",
reflect.TypeOf([][]byte{}).Name(), reflect.TypeOf(elements).Name())
}
return handleByteArrays(val, indices, convertAll)
case eth1DataVotes:
val, ok := elements.([]*ethpb.Eth1Data)
if !ok {
return nil, errors.Errorf("Wanted type of %v but got %v",
reflect.TypeOf([]*ethpb.Eth1Data{}).Name(), reflect.TypeOf(elements).Name())
}
return handleEth1DataSlice(val, indices, convertAll)
case validators:
val, ok := elements.([]*ethpb.Validator)
if !ok {
return nil, errors.Errorf("Wanted type of %v but got %v",
reflect.TypeOf([]*ethpb.Validator{}).Name(), reflect.TypeOf(elements).Name())
}
return handleValidatorSlice(val, indices, convertAll)
case previousEpochAttestations, currentEpochAttestations:
val, ok := elements.([]*pb.PendingAttestation)
if !ok {
return nil, errors.Errorf("Wanted type of %v but got %v",
reflect.TypeOf([]*pb.PendingAttestation{}).Name(), reflect.TypeOf(elements).Name())
}
return handlePendingAttestation(val, indices, convertAll)
default:
return [][32]byte{}, errors.Errorf("got unsupported type of %v", reflect.TypeOf(elements).Name())
}
}
func handleByteArrays(val [][]byte, indices []uint64, convertAll bool) ([][32]byte, error) {
roots := [][32]byte{}
rootCreater := func(input []byte) {
newRoot := bytesutil.ToBytes32(input)
roots = append(roots, newRoot)
}
if convertAll {
for i := range val {
rootCreater(val[i])
}
return roots, nil
}
for _, idx := range indices {
rootCreater(val[idx])
}
return roots, nil
}
func handleEth1DataSlice(val []*ethpb.Eth1Data, indices []uint64, convertAll bool) ([][32]byte, error) {
roots := [][32]byte{}
hasher := hashutil.CustomSHA256Hasher()
rootCreater := func(input *ethpb.Eth1Data) error {
newRoot, err := stateutil.Eth1Root(hasher, input)
if err != nil {
return err
}
roots = append(roots, newRoot)
return nil
}
if convertAll {
for i := range val {
err := rootCreater(val[i])
if err != nil {
return nil, err
}
}
return roots, nil
}
for _, idx := range indices {
err := rootCreater(val[idx])
if err != nil {
return nil, err
}
}
return roots, nil
}
func handleValidatorSlice(val []*ethpb.Validator, indices []uint64, convertAll bool) ([][32]byte, error) {
roots := [][32]byte{}
hasher := hashutil.CustomSHA256Hasher()
rootCreater := func(input *ethpb.Validator) error {
newRoot, err := stateutil.ValidatorRoot(hasher, input)
if err != nil {
return err
}
roots = append(roots, newRoot)
return nil
}
if convertAll {
for i := range val {
err := rootCreater(val[i])
if err != nil {
return nil, err
}
}
return roots, nil
}
for _, idx := range indices {
err := rootCreater(val[idx])
if err != nil {
return nil, err
}
}
return roots, nil
}
func handlePendingAttestation(val []*pb.PendingAttestation, indices []uint64, convertAll bool) ([][32]byte, error) {
roots := [][32]byte{}
hasher := hashutil.CustomSHA256Hasher()
rootCreator := func(input *pb.PendingAttestation) error {
newRoot, err := stateutil.PendingAttestationRoot(hasher, input)
if err != nil {
return err
}
roots = append(roots, newRoot)
return nil
}
if convertAll {
for i := range val {
err := rootCreator(val[i])
if err != nil {
return nil, err
}
}
return roots, nil
}
for _, idx := range indices {
err := rootCreator(val[idx])
if err != nil {
return nil, err
}
}
return roots, nil
}