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block_data.go
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block_data.go
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package primary
import (
"fmt"
"sync"
"github.com/onflow/flow-go/fvm/storage/errors"
"github.com/onflow/flow-go/fvm/storage/logical"
"github.com/onflow/flow-go/fvm/storage/snapshot"
"github.com/onflow/flow-go/fvm/storage/state"
"github.com/onflow/flow-go/model/flow"
)
const (
conflictErrorTemplate = "invalid transaction: committed txn %d conflicts " +
"with executing txn %d with snapshot at %d (Conflicting register: %v)"
)
// BlockData is a rudimentary in-memory MVCC database for storing (RegisterID,
// RegisterValue) pairs for a particular block. The database enforces
// atomicity, consistency, and isolation, but not durability (The transactions
// are made durable by the block computer using aggregated execution snapshots).
type BlockData struct {
mutex sync.RWMutex
latestSnapshot timestampedSnapshotTree // Guarded by mutex
}
type TransactionData struct {
block *BlockData
executionTime logical.Time
isSnapshotReadTransaction bool
snapshot *rebaseableTimestampedSnapshotTree
state.NestedTransactionPreparer
finalizedExecutionSnapshot *snapshot.ExecutionSnapshot
}
// Note: storageSnapshot must be thread safe.
func NewBlockData(
storageSnapshot snapshot.StorageSnapshot,
snapshotTime logical.Time,
) *BlockData {
return &BlockData{
latestSnapshot: newTimestampedSnapshotTree(
storageSnapshot,
logical.Time(snapshotTime)),
}
}
func (block *BlockData) LatestSnapshot() timestampedSnapshotTree {
block.mutex.RLock()
defer block.mutex.RUnlock()
return block.latestSnapshot
}
func (block *BlockData) newTransactionData(
isSnapshotReadTransaction bool,
executionTime logical.Time,
parameters state.StateParameters,
) *TransactionData {
snapshot := newRebaseableTimestampedSnapshotTree(block.LatestSnapshot())
return &TransactionData{
block: block,
executionTime: executionTime,
snapshot: snapshot,
isSnapshotReadTransaction: isSnapshotReadTransaction,
NestedTransactionPreparer: state.NewTransactionState(
snapshot,
parameters),
}
}
func (block *BlockData) NewTransactionData(
executionTime logical.Time,
parameters state.StateParameters,
) (
*TransactionData,
error,
) {
if executionTime < 0 ||
executionTime > logical.LargestNormalTransactionExecutionTime {
return nil, fmt.Errorf(
"invalid tranaction: execution time out of bound")
}
txn := block.newTransactionData(
false,
executionTime,
parameters)
if txn.SnapshotTime() > executionTime {
return nil, fmt.Errorf(
"invalid transaction: snapshot > execution: %v > %v",
txn.SnapshotTime(),
executionTime)
}
return txn, nil
}
func (block *BlockData) NewSnapshotReadTransactionData(
parameters state.StateParameters,
) *TransactionData {
return block.newTransactionData(
true,
logical.EndOfBlockExecutionTime,
parameters)
}
func (txn *TransactionData) SnapshotTime() logical.Time {
return txn.snapshot.SnapshotTime()
}
func (txn *TransactionData) validate(
latestSnapshot timestampedSnapshotTree,
) error {
validatedSnapshotTime := txn.SnapshotTime()
if latestSnapshot.SnapshotTime() <= validatedSnapshotTime {
// transaction's snapshot is up-to-date.
return nil
}
var readSet map[flow.RegisterID]struct{}
if txn.finalizedExecutionSnapshot != nil {
readSet = txn.finalizedExecutionSnapshot.ReadSet
} else {
readSet = txn.InterimReadSet()
}
updates, err := latestSnapshot.UpdatesSince(validatedSnapshotTime)
if err != nil {
return fmt.Errorf("invalid transaction: %w", err)
}
for i, writeSet := range updates {
hasConflict, registerId := intersect(writeSet, readSet)
if hasConflict {
return errors.NewRetryableConflictError(
conflictErrorTemplate,
validatedSnapshotTime+logical.Time(i),
txn.executionTime,
validatedSnapshotTime,
registerId)
}
}
txn.snapshot.Rebase(latestSnapshot)
return nil
}
func (txn *TransactionData) Validate() error {
return txn.validate(txn.block.LatestSnapshot())
}
func (txn *TransactionData) Finalize() error {
executionSnapshot, err := txn.FinalizeMainTransaction()
if err != nil {
return err
}
// NOTE: Since cadence does not support the notion of read only execution,
// snapshot read transaction execution can inadvertently produce a non-empty
// write set. We'll just drop these updates.
if txn.isSnapshotReadTransaction {
executionSnapshot.WriteSet = nil
}
txn.finalizedExecutionSnapshot = executionSnapshot
return nil
}
func (block *BlockData) commit(txn *TransactionData) error {
if txn.finalizedExecutionSnapshot == nil {
return fmt.Errorf("invalid transaction: transaction not finalized.")
}
block.mutex.Lock()
defer block.mutex.Unlock()
err := txn.validate(block.latestSnapshot)
if err != nil {
return err
}
// Don't perform actual commit for snapshot read transaction since they
// do not advance logical time.
if txn.isSnapshotReadTransaction {
return nil
}
latestSnapshotTime := block.latestSnapshot.SnapshotTime()
if latestSnapshotTime < txn.executionTime {
// i.e., transactions are committed out-of-order.
return fmt.Errorf(
"invalid transaction: missing commit range [%v, %v)",
latestSnapshotTime,
txn.executionTime)
}
if block.latestSnapshot.SnapshotTime() > txn.executionTime {
// i.e., re-commiting an already committed transaction.
return fmt.Errorf(
"invalid transaction: non-increasing time (%v >= %v)",
latestSnapshotTime-1,
txn.executionTime)
}
block.latestSnapshot = block.latestSnapshot.Append(
txn.finalizedExecutionSnapshot)
return nil
}
func (txn *TransactionData) Commit() (
*snapshot.ExecutionSnapshot,
error,
) {
err := txn.block.commit(txn)
if err != nil {
return nil, err
}
return txn.finalizedExecutionSnapshot, nil
}