neo-go/pkg/core/dao/cacheddao.go
Roman Khimov ae9658a108 dao: migrate nep5 balances with the contract
Fixes #1144. It's quite simple approach, we just update balance info right
upon contract migration. It will slow down migration transactions, but it
takes about 1-2 seconds to Seek through balances at mainnet's 3.8M, so the
approach should still work good enough. The other idea was to make lazy
updates (maintaining contract migration map), but it's more complicated to
implement (and implies that a balance get might also do a write).

There also is a concern about memory usage, it can give a spike of some tens
of megabytes, but that also is considered to be acceptable.
2020-07-17 19:03:12 +03:00

247 lines
6.7 KiB
Go

package dao
import (
"bytes"
"errors"
"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/io"
"github.com/nspcc-dev/neo-go/pkg/util"
)
// Cached is a data access object that mimics DAO, but has a write cache
// for accounts and read cache for contracts. These are the most frequently used
// objects in the storeBlock().
type Cached struct {
DAO
accounts map[util.Uint160]*state.Account
contracts map[util.Uint160]*state.Contract
balances map[util.Uint160]*state.NEP5Balances
transfers map[util.Uint160]map[uint32]*state.NEP5TransferLog
dropNEP5Cache bool
}
// NewCached returns new Cached wrapping around given backing store.
func NewCached(d DAO) *Cached {
accs := make(map[util.Uint160]*state.Account)
ctrs := make(map[util.Uint160]*state.Contract)
balances := make(map[util.Uint160]*state.NEP5Balances)
transfers := make(map[util.Uint160]map[uint32]*state.NEP5TransferLog)
return &Cached{d.GetWrapped(), accs, ctrs, balances, transfers, false}
}
// GetAccountStateOrNew retrieves Account from cache or underlying store
// or creates a new one if it doesn't exist.
func (cd *Cached) GetAccountStateOrNew(hash util.Uint160) (*state.Account, error) {
if cd.accounts[hash] != nil {
return cd.accounts[hash], nil
}
return cd.DAO.GetAccountStateOrNew(hash)
}
// GetAccountState retrieves Account from cache or underlying store.
func (cd *Cached) GetAccountState(hash util.Uint160) (*state.Account, error) {
if cd.accounts[hash] != nil {
return cd.accounts[hash], nil
}
return cd.DAO.GetAccountState(hash)
}
// PutAccountState saves given Account in the cache.
func (cd *Cached) PutAccountState(as *state.Account) error {
cd.accounts[as.ScriptHash] = as
return nil
}
// GetContractState returns contract state from cache or underlying store.
func (cd *Cached) GetContractState(hash util.Uint160) (*state.Contract, error) {
if cd.contracts[hash] != nil {
return cd.contracts[hash], nil
}
cs, err := cd.DAO.GetContractState(hash)
if err == nil {
cd.contracts[hash] = cs
}
return cs, err
}
// PutContractState puts given contract state into the given store.
func (cd *Cached) PutContractState(cs *state.Contract) error {
cd.contracts[cs.ScriptHash()] = cs
return cd.DAO.PutContractState(cs)
}
// DeleteContractState deletes given contract state in cache and backing store.
func (cd *Cached) DeleteContractState(hash util.Uint160) error {
cd.contracts[hash] = nil
return cd.DAO.DeleteContractState(hash)
}
// GetNEP5Balances retrieves NEP5Balances for the acc.
func (cd *Cached) GetNEP5Balances(acc util.Uint160) (*state.NEP5Balances, error) {
if bs := cd.balances[acc]; bs != nil {
return bs, nil
}
return cd.DAO.GetNEP5Balances(acc)
}
// PutNEP5Balances saves NEP5Balances for the acc.
func (cd *Cached) PutNEP5Balances(acc util.Uint160, bs *state.NEP5Balances) error {
cd.balances[acc] = bs
return nil
}
// GetNEP5TransferLog retrieves NEP5TransferLog for the acc.
func (cd *Cached) GetNEP5TransferLog(acc util.Uint160, index uint32) (*state.NEP5TransferLog, error) {
ts := cd.transfers[acc]
if ts != nil && ts[index] != nil {
return ts[index], nil
}
return cd.DAO.GetNEP5TransferLog(acc, index)
}
// PutNEP5TransferLog saves NEP5TransferLog for the acc.
func (cd *Cached) PutNEP5TransferLog(acc util.Uint160, index uint32, bs *state.NEP5TransferLog) error {
ts := cd.transfers[acc]
if ts == nil {
ts = make(map[uint32]*state.NEP5TransferLog, 2)
cd.transfers[acc] = ts
}
ts[index] = bs
return nil
}
// AppendNEP5Transfer appends new transfer to a transfer event log.
func (cd *Cached) AppendNEP5Transfer(acc util.Uint160, index uint32, tr *state.NEP5Transfer) (bool, error) {
lg, err := cd.GetNEP5TransferLog(acc, index)
if err != nil {
return false, err
}
if err := lg.Append(tr); err != nil {
return false, err
}
return lg.Size() >= nep5TransferBatchSize, cd.PutNEP5TransferLog(acc, index, lg)
}
// MigrateNEP5Balances migrates NEP5 balances from old contract to the new one.
func (cd *Cached) MigrateNEP5Balances(from, to util.Uint160) error {
var (
simpleDAO *Simple
cachedDAO = cd
ok bool
w = io.NewBufBinWriter()
)
for simpleDAO == nil {
simpleDAO, ok = cachedDAO.DAO.(*Simple)
if !ok {
cachedDAO, ok = cachedDAO.DAO.(*Cached)
if !ok {
panic("uknown DAO")
}
}
}
for acc, bs := range cd.balances {
err := simpleDAO.putNEP5Balances(acc, bs, w)
if err != nil {
return err
}
w.Reset()
}
cd.dropNEP5Cache = true
var store = simpleDAO.Store
// Create another layer of cache because we can't change original storage
// while seeking.
var upStore = storage.NewMemCachedStore(store)
store.Seek([]byte{byte(storage.STNEP5Balances)}, func(k, v []byte) {
if !bytes.Contains(v, from[:]) {
return
}
bs := state.NewNEP5Balances()
reader := io.NewBinReaderFromBuf(v)
bs.DecodeBinary(reader)
if reader.Err != nil {
panic("bad nep5 balances")
}
tr, ok := bs.Trackers[from]
if !ok {
return
}
delete(bs.Trackers, from)
bs.Trackers[to] = tr
w.Reset()
bs.EncodeBinary(w.BinWriter)
if w.Err != nil {
panic("error on nep5 balance encoding")
}
err := upStore.Put(k, w.Bytes())
if err != nil {
panic("can't put value in the DB")
}
})
_, err := upStore.Persist()
return err
}
// Persist flushes all the changes made into the (supposedly) persistent
// underlying store.
func (cd *Cached) Persist() (int, error) {
lowerCache, ok := cd.DAO.(*Cached)
// If the lower DAO is Cached, we only need to flush the MemCached DB.
// This actually breaks DAO interface incapsulation, but for our current
// usage scenario it should be good enough if cd doesn't modify object
// caches (accounts/contracts/etc) in any way.
if ok {
if cd.dropNEP5Cache {
lowerCache.balances = make(map[util.Uint160]*state.NEP5Balances)
}
var simpleCache *Simple
for simpleCache == nil {
simpleCache, ok = lowerCache.DAO.(*Simple)
if !ok {
lowerCache, ok = cd.DAO.(*Cached)
if !ok {
return 0, errors.New("unsupported lower DAO")
}
}
}
return simpleCache.Persist()
}
buf := io.NewBufBinWriter()
for sc := range cd.accounts {
err := cd.DAO.putAccountState(cd.accounts[sc], buf)
if err != nil {
return 0, err
}
buf.Reset()
}
for acc, bs := range cd.balances {
err := cd.DAO.putNEP5Balances(acc, bs, buf)
if err != nil {
return 0, err
}
buf.Reset()
}
for acc, ts := range cd.transfers {
for ind, lg := range ts {
err := cd.DAO.PutNEP5TransferLog(acc, ind, lg)
if err != nil {
return 0, err
}
}
}
return cd.DAO.Persist()
}
// GetWrapped implements DAO interface.
func (cd *Cached) GetWrapped() DAO {
return &Cached{cd.DAO.GetWrapped(),
cd.accounts,
cd.contracts,
cd.balances,
cd.transfers,
false,
}
}