package exec3 import ( "context" "encoding/binary" "fmt" "sync" "github.com/RoaringBitmap/roaring/roaring64" "github.com/ledgerwatch/erigon-lib/chain" libcommon "github.com/ledgerwatch/erigon-lib/common" "github.com/ledgerwatch/erigon-lib/common/length" "github.com/ledgerwatch/erigon-lib/etl" "github.com/ledgerwatch/erigon-lib/kv" libstate "github.com/ledgerwatch/erigon-lib/state" "github.com/ledgerwatch/log/v3" "github.com/ledgerwatch/erigon/cmd/state/exec22" "github.com/ledgerwatch/erigon/common" "github.com/ledgerwatch/erigon/consensus" "github.com/ledgerwatch/erigon/consensus/misc" "github.com/ledgerwatch/erigon/core" "github.com/ledgerwatch/erigon/core/state" "github.com/ledgerwatch/erigon/core/systemcontracts" "github.com/ledgerwatch/erigon/core/types" "github.com/ledgerwatch/erigon/core/types/accounts" "github.com/ledgerwatch/erigon/core/vm" "github.com/ledgerwatch/erigon/core/vm/evmtypes" "github.com/ledgerwatch/erigon/turbo/services" ) type ScanWorker struct { txNum uint64 as *libstate.AggregatorStep fromKey, toKey []byte currentKey []byte bitmap roaring64.Bitmap } func NewScanWorker(txNum uint64, as *libstate.AggregatorStep) *ScanWorker { sw := &ScanWorker{ txNum: txNum, as: as, } return sw } type FillWorker struct { txNum uint64 as *libstate.AggregatorStep } func NewFillWorker(txNum uint64, as *libstate.AggregatorStep) *FillWorker { fw := &FillWorker{ txNum: txNum, as: as, } return fw } func (fw *FillWorker) FillAccounts(plainStateCollector *etl.Collector) { it := fw.as.IterateAccountsHistory(fw.txNum) value := make([]byte, 1024) for it.HasNext() { key, val, err := it.Next() if err != nil { panic(err) } if len(val) > 0 { var a accounts.Account //if err:=accounts.DeserialiseV3(&a, val);err!=nil { // panic(err) //} a.Reset() pos := 0 nonceBytes := int(val[pos]) pos++ if nonceBytes > 0 { a.Nonce = bytesToUint64(val[pos : pos+nonceBytes]) pos += nonceBytes } balanceBytes := int(val[pos]) pos++ if balanceBytes > 0 { a.Balance.SetBytes(val[pos : pos+balanceBytes]) pos += balanceBytes } codeHashBytes := int(val[pos]) pos++ if codeHashBytes > 0 { copy(a.CodeHash[:], val[pos:pos+codeHashBytes]) pos += codeHashBytes } incBytes := int(val[pos]) pos++ if incBytes > 0 { a.Incarnation = bytesToUint64(val[pos : pos+incBytes]) } if a.Incarnation > 0 { a.Incarnation = state.FirstContractIncarnation } value = value[:a.EncodingLengthForStorage()] a.EncodeForStorage(value) if err := plainStateCollector.Collect(key, value); err != nil { panic(err) } //fmt.Printf("Account [%x]=>{Balance: %d, Nonce: %d, Root: %x, CodeHash: %x}\n", key, &a.Balance, a.Nonce, a.Root, a.CodeHash) } else { if err := plainStateCollector.Collect(key, nil); err != nil { panic(err) } } } } func (fw *FillWorker) FillStorage(plainStateCollector *etl.Collector) { it := fw.as.IterateStorageHistory(fw.txNum) var compositeKey = make([]byte, length.Addr+length.Incarnation+length.Hash) binary.BigEndian.PutUint64(compositeKey[20:], state.FirstContractIncarnation) for it.HasNext() { key, val, err := it.Next() if err != nil { panic(err) } copy(compositeKey[:20], key[:20]) copy(compositeKey[20+8:], key[20:]) if len(val) > 0 { if err := plainStateCollector.Collect(compositeKey, val); err != nil { panic(err) } //fmt.Printf("Storage [%x] => [%x]\n", compositeKey, val) } else { if err := plainStateCollector.Collect(compositeKey, nil); err != nil { panic(err) } } } } func (fw *FillWorker) FillCode(codeCollector, plainContractCollector *etl.Collector) { it := fw.as.IterateCodeHistory(fw.txNum) var compositeKey = make([]byte, length.Addr+length.Incarnation) binary.BigEndian.PutUint64(compositeKey[length.Addr:], state.FirstContractIncarnation) for it.HasNext() { key, val, err := it.Next() if err != nil { panic(err) } copy(compositeKey, key) if len(val) > 0 { codeHash, err := common.HashData(val) if err != nil { panic(err) } if err = codeCollector.Collect(codeHash[:], val); err != nil { panic(err) } if err = plainContractCollector.Collect(compositeKey, codeHash[:]); err != nil { panic(err) } //fmt.Printf("Code [%x] => %d\n", compositeKey, len(val)) } else { if err := plainContractCollector.Collect(compositeKey, nil); err != nil { panic(err) } } } } func (sw *ScanWorker) BitmapAccounts() error { it := sw.as.IterateAccountsTxs() for it.HasNext() { v, err := it.Next() if err != nil { return err } sw.bitmap.Add(v) } return nil } func (sw *ScanWorker) BitmapStorage() error { it := sw.as.IterateStorageTxs() for it.HasNext() { v, err := it.Next() if err != nil { return err } sw.bitmap.Add(v) } return nil } func (sw *ScanWorker) BitmapCode() error { it := sw.as.IterateCodeTxs() for it.HasNext() { v, err := it.Next() if err != nil { return err } sw.bitmap.Add(v) } return nil } func bytesToUint64(buf []byte) (x uint64) { for i, b := range buf { x = x<<8 + uint64(b) if i == 7 { return } } return } func (sw *ScanWorker) Bitmap() *roaring64.Bitmap { return &sw.bitmap } type ReconWorker struct { lock sync.Locker wg *sync.WaitGroup rs *state.ReconState blockReader services.FullBlockReader stateWriter *state.StateReconWriterInc stateReader *state.HistoryReaderInc ctx context.Context engine consensus.Engine chainConfig *chain.Config logger log.Logger genesis *core.Genesis epoch EpochReader chain ChainReader isPoSA bool posa consensus.PoSA evm *vm.EVM ibs *state.IntraBlockState } func NewReconWorker(lock sync.Locker, wg *sync.WaitGroup, rs *state.ReconState, as *libstate.AggregatorStep, blockReader services.FullBlockReader, chainConfig *chain.Config, logger log.Logger, genesis *core.Genesis, engine consensus.Engine, chainTx kv.Tx, ) *ReconWorker { rw := &ReconWorker{ lock: lock, wg: wg, rs: rs, blockReader: blockReader, ctx: context.Background(), stateWriter: state.NewStateReconWriterInc(as, rs), stateReader: state.NewHistoryReaderInc(as, rs), chainConfig: chainConfig, logger: logger, genesis: genesis, engine: engine, evm: vm.NewEVM(evmtypes.BlockContext{}, evmtypes.TxContext{}, nil, chainConfig, vm.Config{}), } rw.epoch = NewEpochReader(chainTx) rw.chain = NewChainReader(chainConfig, chainTx, blockReader) rw.ibs = state.New(rw.stateReader) rw.posa, rw.isPoSA = engine.(consensus.PoSA) return rw } func (rw *ReconWorker) SetTx(tx kv.Tx) { rw.stateReader.SetTx(tx) rw.stateWriter.SetTx(tx) } func (rw *ReconWorker) SetChainTx(chainTx kv.Tx) { rw.stateReader.SetChainTx(chainTx) rw.stateWriter.SetChainTx(chainTx) } func (rw *ReconWorker) Run() { defer rw.wg.Done() for txTask, ok := rw.rs.Schedule(); ok; txTask, ok = rw.rs.Schedule() { rw.runTxTask(txTask) } } var noop = state.NewNoopWriter() func (rw *ReconWorker) runTxTask(txTask *exec22.TxTask) { rw.lock.Lock() defer rw.lock.Unlock() rw.stateReader.SetTxNum(txTask.TxNum) rw.stateReader.ResetError() rw.stateWriter.SetTxNum(txTask.TxNum) rw.ibs.Reset() ibs := rw.ibs rules := txTask.Rules daoForkTx := rw.chainConfig.DAOForkSupport && rw.chainConfig.DAOForkBlock != nil && rw.chainConfig.DAOForkBlock.Uint64() == txTask.BlockNum && txTask.TxIndex == -1 var err error if txTask.BlockNum == 0 && txTask.TxIndex == -1 { //fmt.Printf("txNum=%d, blockNum=%d, Genesis\n", txTask.TxNum, txTask.BlockNum) // Genesis block _, ibs, err = rw.genesis.ToBlock("") if err != nil { panic(err) } // For Genesis, rules should be empty, so that empty accounts can be included rules = &chain.Rules{} } else if daoForkTx { //fmt.Printf("txNum=%d, blockNum=%d, DAO fork\n", txNum, blockNum) misc.ApplyDAOHardFork(ibs) ibs.SoftFinalise() } else if txTask.Final { if txTask.BlockNum > 0 { //fmt.Printf("txNum=%d, blockNum=%d, finalisation of the block\n", txTask.TxNum, txTask.BlockNum) // End of block transaction in a block syscall := func(contract libcommon.Address, data []byte) ([]byte, error) { return core.SysCallContract(contract, data, *rw.chainConfig, ibs, txTask.Header, rw.engine, false /* constCall */) } if _, _, err := rw.engine.Finalize(rw.chainConfig, types.CopyHeader(txTask.Header), ibs, txTask.Txs, txTask.Uncles, nil /* receipts */, txTask.Withdrawals, rw.epoch, rw.chain, syscall); err != nil { if _, readError := rw.stateReader.ReadError(); !readError { panic(fmt.Errorf("finalize of block %d failed: %w", txTask.BlockNum, err)) } } } } else if txTask.TxIndex == -1 { // Block initialisation if rw.isPoSA { systemcontracts.UpgradeBuildInSystemContract(rw.chainConfig, txTask.Header.Number, ibs) } syscall := func(contract libcommon.Address, data []byte) ([]byte, error) { return core.SysCallContract(contract, data, *rw.chainConfig, ibs, txTask.Header, rw.engine, false /* constCall */) } rw.engine.Initialize(rw.chainConfig, rw.chain, rw.epoch, txTask.Header, ibs, txTask.Txs, txTask.Uncles, syscall) } else { if rw.isPoSA { if isSystemTx, err := rw.posa.IsSystemTransaction(txTask.Tx, txTask.Header); err != nil { if _, readError := rw.stateReader.ReadError(); !readError { panic(err) } } else if isSystemTx { return } } gp := new(core.GasPool).AddGas(txTask.Tx.GetGas()) vmConfig := vm.Config{NoReceipts: true, SkipAnalysis: txTask.SkipAnalysis} ibs.Prepare(txTask.Tx.Hash(), txTask.BlockHash, txTask.TxIndex) msg := txTask.TxAsMessage rw.evm.ResetBetweenBlocks(txTask.EvmBlockContext, core.NewEVMTxContext(msg), ibs, vmConfig, txTask.Rules) vmenv := rw.evm //fmt.Printf("txNum=%d, blockNum=%d, txIndex=%d\n", txTask.TxNum, txTask.BlockNum, txTask.TxIndex) _, err = core.ApplyMessage(vmenv, msg, gp, true /* refunds */, false /* gasBailout */) if err != nil { if _, readError := rw.stateReader.ReadError(); !readError { panic(fmt.Errorf("could not apply blockNum=%d, txIdx=%d txNum=%d [%x] failed: %w", txTask.BlockNum, txTask.TxIndex, txTask.TxNum, txTask.Tx.Hash(), err)) } } if err = ibs.FinalizeTx(rules, noop); err != nil { if _, readError := rw.stateReader.ReadError(); !readError { panic(err) } } } if dependency, ok := rw.stateReader.ReadError(); ok || err != nil { //fmt.Printf("rollback %d\n", txNum) rw.rs.RollbackTx(txTask, dependency) } else { if err = ibs.CommitBlock(rules, rw.stateWriter); err != nil { panic(err) } //fmt.Printf("commit %d\n", txNum) rw.rs.CommitTxNum(txTask.TxNum) } }