// Copyright 2019 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package rawdb import ( "errors" "fmt" "math" "os" "path/filepath" "sync" "sync/atomic" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/ethdb" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/metrics" "github.com/ethereum/go-ethereum/params" "github.com/prometheus/tsdb/fileutil" ) var ( // errReadOnly is returned if the freezer is opened in read only mode. All the // mutations are disallowed. errReadOnly = errors.New("read only") // errUnknownTable is returned if the user attempts to read from a table that is // not tracked by the freezer. errUnknownTable = errors.New("unknown table") // errOutOrderInsertion is returned if the user attempts to inject out-of-order // binary blobs into the freezer. errOutOrderInsertion = errors.New("the append operation is out-order") // errSymlinkDatadir is returned if the ancient directory specified by user // is a symbolic link. errSymlinkDatadir = errors.New("symbolic link datadir is not supported") ) const ( // freezerRecheckInterval is the frequency to check the key-value database for // chain progression that might permit new blocks to be frozen into immutable // storage. freezerRecheckInterval = time.Minute // freezerBatchLimit is the maximum number of blocks to freeze in one batch // before doing an fsync and deleting it from the key-value store. freezerBatchLimit = 30000 ) // freezer is an memory mapped append-only database to store immutable chain data // into flat files: // // - The append only nature ensures that disk writes are minimized. // - The memory mapping ensures we can max out system memory for caching without // reserving it for go-ethereum. This would also reduce the memory requirements // of Geth, and thus also GC overhead. type freezer struct { // WARNING: The `frozen` field is accessed atomically. On 32 bit platforms, only // 64-bit aligned fields can be atomic. The struct is guaranteed to be so aligned, // so take advantage of that (https://golang.org/pkg/sync/atomic/#pkg-note-BUG). frozen uint64 // Number of blocks already frozen threshold uint64 // Number of recent blocks not to freeze (params.FullImmutabilityThreshold apart from tests) readonly bool tables map[string]*freezerTable // Data tables for storing everything instanceLock fileutil.Releaser // File-system lock to prevent double opens trigger chan chan struct{} // Manual blocking freeze trigger, test determinism quit chan struct{} closeOnce sync.Once } // newFreezer creates a chain freezer that moves ancient chain data into // append-only flat file containers. func newFreezer(datadir string, namespace string, readonly bool) (*freezer, error) { // Create the initial freezer object var ( readMeter = metrics.NewRegisteredMeter(namespace+"ancient/read", nil) writeMeter = metrics.NewRegisteredMeter(namespace+"ancient/write", nil) sizeGauge = metrics.NewRegisteredGauge(namespace+"ancient/size", nil) ) // Ensure the datadir is not a symbolic link if it exists. if info, err := os.Lstat(datadir); !os.IsNotExist(err) { if info.Mode()&os.ModeSymlink != 0 { log.Warn("Symbolic link ancient database is not supported", "path", datadir) return nil, errSymlinkDatadir } } // Leveldb uses LOCK as the filelock filename. To prevent the // name collision, we use FLOCK as the lock name. lock, _, err := fileutil.Flock(filepath.Join(datadir, "FLOCK")) if err != nil { return nil, err } // Open all the supported data tables freezer := &freezer{ readonly: readonly, threshold: params.FullImmutabilityThreshold, tables: make(map[string]*freezerTable), instanceLock: lock, trigger: make(chan chan struct{}), quit: make(chan struct{}), } for name, disableSnappy := range FreezerNoSnappy { table, err := newTable(datadir, name, readMeter, writeMeter, sizeGauge, disableSnappy) if err != nil { for _, table := range freezer.tables { table.Close() } lock.Release() return nil, err } freezer.tables[name] = table } if err := freezer.repair(); err != nil { for _, table := range freezer.tables { table.Close() } lock.Release() return nil, err } log.Info("Opened ancient database", "database", datadir, "readonly", readonly) return freezer, nil } // Close terminates the chain freezer, unmapping all the data files. func (f *freezer) Close() error { var errs []error f.closeOnce.Do(func() { close(f.quit) for _, table := range f.tables { if err := table.Close(); err != nil { errs = append(errs, err) } } if err := f.instanceLock.Release(); err != nil { errs = append(errs, err) } }) if errs != nil { return fmt.Errorf("%v", errs) } return nil } // HasAncient returns an indicator whether the specified ancient data exists // in the freezer. func (f *freezer) HasAncient(kind string, number uint64) (bool, error) { if table := f.tables[kind]; table != nil { return table.has(number), nil } return false, nil } // Ancient retrieves an ancient binary blob from the append-only immutable files. func (f *freezer) Ancient(kind string, number uint64) ([]byte, error) { if table := f.tables[kind]; table != nil { return table.Retrieve(number) } return nil, errUnknownTable } // Ancients returns the length of the frozen items. func (f *freezer) Ancients() (uint64, error) { return atomic.LoadUint64(&f.frozen), nil } // AncientSize returns the ancient size of the specified category. func (f *freezer) AncientSize(kind string) (uint64, error) { if table := f.tables[kind]; table != nil { return table.size() } return 0, errUnknownTable } // AppendAncient injects all binary blobs belong to block at the end of the // append-only immutable table files. // // Notably, this function is lock free but kind of thread-safe. All out-of-order // injection will be rejected. But if two injections with same number happen at // the same time, we can get into the trouble. func (f *freezer) AppendAncient(number uint64, hash, header, body, receipts, td []byte) (err error) { if f.readonly { return errReadOnly } // Ensure the binary blobs we are appending is continuous with freezer. if atomic.LoadUint64(&f.frozen) != number { return errOutOrderInsertion } // Rollback all inserted data if any insertion below failed to ensure // the tables won't out of sync. defer func() { if err != nil { rerr := f.repair() if rerr != nil { log.Crit("Failed to repair freezer", "err", rerr) } log.Info("Append ancient failed", "number", number, "err", err) } }() // Inject all the components into the relevant data tables if err := f.tables[freezerHashTable].Append(f.frozen, hash[:]); err != nil { log.Error("Failed to append ancient hash", "number", f.frozen, "hash", hash, "err", err) return err } if err := f.tables[freezerHeaderTable].Append(f.frozen, header); err != nil { log.Error("Failed to append ancient header", "number", f.frozen, "hash", hash, "err", err) return err } if err := f.tables[freezerBodiesTable].Append(f.frozen, body); err != nil { log.Error("Failed to append ancient body", "number", f.frozen, "hash", hash, "err", err) return err } if err := f.tables[freezerReceiptTable].Append(f.frozen, receipts); err != nil { log.Error("Failed to append ancient receipts", "number", f.frozen, "hash", hash, "err", err) return err } if err := f.tables[freezerDifficultyTable].Append(f.frozen, td); err != nil { log.Error("Failed to append ancient difficulty", "number", f.frozen, "hash", hash, "err", err) return err } atomic.AddUint64(&f.frozen, 1) // Only modify atomically return nil } // TruncateAncients discards any recent data above the provided threshold number. func (f *freezer) TruncateAncients(items uint64) error { if f.readonly { return errReadOnly } if atomic.LoadUint64(&f.frozen) <= items { return nil } for _, table := range f.tables { if err := table.truncate(items); err != nil { return err } } atomic.StoreUint64(&f.frozen, items) return nil } // Sync flushes all data tables to disk. func (f *freezer) Sync() error { var errs []error for _, table := range f.tables { if err := table.Sync(); err != nil { errs = append(errs, err) } } if errs != nil { return fmt.Errorf("%v", errs) } return nil } // freeze is a background thread that periodically checks the blockchain for any // import progress and moves ancient data from the fast database into the freezer. // // This functionality is deliberately broken off from block importing to avoid // incurring additional data shuffling delays on block propagation. func (f *freezer) freeze(db ethdb.KeyValueStore) { nfdb := &nofreezedb{KeyValueStore: db} var ( backoff bool triggered chan struct{} // Used in tests ) for { select { case <-f.quit: log.Info("Freezer shutting down") return default: } if backoff { // If we were doing a manual trigger, notify it if triggered != nil { triggered <- struct{}{} triggered = nil } select { case <-time.NewTimer(freezerRecheckInterval).C: backoff = false case triggered = <-f.trigger: backoff = false case <-f.quit: return } } // Retrieve the freezing threshold. hash := ReadHeadBlockHash(nfdb) if hash == (common.Hash{}) { log.Debug("Current full block hash unavailable") // new chain, empty database backoff = true continue } number := ReadHeaderNumber(nfdb, hash) threshold := atomic.LoadUint64(&f.threshold) switch { case number == nil: log.Error("Current full block number unavailable", "hash", hash) backoff = true continue case *number < threshold: log.Debug("Current full block not old enough", "number", *number, "hash", hash, "delay", threshold) backoff = true continue case *number-threshold <= f.frozen: log.Debug("Ancient blocks frozen already", "number", *number, "hash", hash, "frozen", f.frozen) backoff = true continue } head := ReadHeader(nfdb, hash, *number) if head == nil { log.Error("Current full block unavailable", "number", *number, "hash", hash) backoff = true continue } // Seems we have data ready to be frozen, process in usable batches limit := *number - threshold if limit-f.frozen > freezerBatchLimit { limit = f.frozen + freezerBatchLimit } var ( start = time.Now() first = f.frozen ancients = make([]common.Hash, 0, limit-f.frozen) ) for f.frozen <= limit { // Retrieves all the components of the canonical block hash := ReadCanonicalHash(nfdb, f.frozen) if hash == (common.Hash{}) { log.Error("Canonical hash missing, can't freeze", "number", f.frozen) break } header := ReadHeaderRLP(nfdb, hash, f.frozen) if len(header) == 0 { log.Error("Block header missing, can't freeze", "number", f.frozen, "hash", hash) break } body := ReadBodyRLP(nfdb, hash, f.frozen) if len(body) == 0 { log.Error("Block body missing, can't freeze", "number", f.frozen, "hash", hash) break } receipts := ReadReceiptsRLP(nfdb, hash, f.frozen) if len(receipts) == 0 { log.Error("Block receipts missing, can't freeze", "number", f.frozen, "hash", hash) break } td := ReadTdRLP(nfdb, hash, f.frozen) if len(td) == 0 { log.Error("Total difficulty missing, can't freeze", "number", f.frozen, "hash", hash) break } log.Trace("Deep froze ancient block", "number", f.frozen, "hash", hash) // Inject all the components into the relevant data tables if err := f.AppendAncient(f.frozen, hash[:], header, body, receipts, td); err != nil { break } ancients = append(ancients, hash) } // Batch of blocks have been frozen, flush them before wiping from leveldb if err := f.Sync(); err != nil { log.Crit("Failed to flush frozen tables", "err", err) } // Wipe out all data from the active database batch := db.NewBatch() for i := 0; i < len(ancients); i++ { // Always keep the genesis block in active database if first+uint64(i) != 0 { DeleteBlockWithoutNumber(batch, ancients[i], first+uint64(i)) DeleteCanonicalHash(batch, first+uint64(i)) } } if err := batch.Write(); err != nil { log.Crit("Failed to delete frozen canonical blocks", "err", err) } batch.Reset() // Wipe out side chains also and track dangling side chians var dangling []common.Hash for number := first; number < f.frozen; number++ { // Always keep the genesis block in active database if number != 0 { dangling = ReadAllHashes(db, number) for _, hash := range dangling { log.Trace("Deleting side chain", "number", number, "hash", hash) DeleteBlock(batch, hash, number) } } } if err := batch.Write(); err != nil { log.Crit("Failed to delete frozen side blocks", "err", err) } batch.Reset() // Step into the future and delete and dangling side chains if f.frozen > 0 { tip := f.frozen for len(dangling) > 0 { drop := make(map[common.Hash]struct{}) for _, hash := range dangling { log.Debug("Dangling parent from freezer", "number", tip-1, "hash", hash) drop[hash] = struct{}{} } children := ReadAllHashes(db, tip) for i := 0; i < len(children); i++ { // Dig up the child and ensure it's dangling child := ReadHeader(nfdb, children[i], tip) if child == nil { log.Error("Missing dangling header", "number", tip, "hash", children[i]) continue } if _, ok := drop[child.ParentHash]; !ok { children = append(children[:i], children[i+1:]...) i-- continue } // Delete all block data associated with the child log.Debug("Deleting dangling block", "number", tip, "hash", children[i], "parent", child.ParentHash) DeleteBlock(batch, children[i], tip) } dangling = children tip++ } if err := batch.Write(); err != nil { log.Crit("Failed to delete dangling side blocks", "err", err) } } // Log something friendly for the user context := []interface{}{ "blocks", f.frozen - first, "elapsed", common.PrettyDuration(time.Since(start)), "number", f.frozen - 1, } if n := len(ancients); n > 0 { context = append(context, []interface{}{"hash", ancients[n-1]}...) } log.Info("Deep froze chain segment", context...) // Avoid database thrashing with tiny writes if f.frozen-first < freezerBatchLimit { backoff = true } } } // repair truncates all data tables to the same length. func (f *freezer) repair() error { min := uint64(math.MaxUint64) for _, table := range f.tables { items := atomic.LoadUint64(&table.items) if min > items { min = items } } for _, table := range f.tables { if err := table.truncate(min); err != nil { return err } } atomic.StoreUint64(&f.frozen, min) return nil }