// Copyright (c) 2012, Suryandaru Triandana // All rights reserved. // // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. package leveldb import ( "encoding/binary" "fmt" "io" "github.com/syndtr/goleveldb/leveldb/errors" "github.com/syndtr/goleveldb/leveldb/memdb" "github.com/syndtr/goleveldb/leveldb/storage" ) // ErrBatchCorrupted records reason of batch corruption. This error will be // wrapped with errors.ErrCorrupted. type ErrBatchCorrupted struct { Reason string } func (e *ErrBatchCorrupted) Error() string { return fmt.Sprintf("leveldb: batch corrupted: %s", e.Reason) } func newErrBatchCorrupted(reason string) error { return errors.NewErrCorrupted(storage.FileDesc{}, &ErrBatchCorrupted{reason}) } const ( batchHeaderLen = 8 + 4 batchGrowRec = 3000 batchBufioSize = 16 ) // BatchReplay wraps basic batch operations. type BatchReplay interface { Put(key, value []byte) Delete(key []byte) } type batchIndex struct { keyType keyType keyPos, keyLen int valuePos, valueLen int } func (index batchIndex) k(data []byte) []byte { return data[index.keyPos : index.keyPos+index.keyLen] } func (index batchIndex) v(data []byte) []byte { if index.valueLen != 0 { return data[index.valuePos : index.valuePos+index.valueLen] } return nil } func (index batchIndex) kv(data []byte) (key, value []byte) { return index.k(data), index.v(data) } // Batch is a write batch. type Batch struct { data []byte index []batchIndex // internalLen is sums of key/value pair length plus 8-bytes internal key. internalLen int } func (b *Batch) grow(n int) { o := len(b.data) if cap(b.data)-o < n { div := 1 if len(b.index) > batchGrowRec { div = len(b.index) / batchGrowRec } ndata := make([]byte, o, o+n+o/div) copy(ndata, b.data) b.data = ndata } } func (b *Batch) appendRec(kt keyType, key, value []byte) { n := 1 + binary.MaxVarintLen32 + len(key) if kt == keyTypeVal { n += binary.MaxVarintLen32 + len(value) } b.grow(n) index := batchIndex{keyType: kt} o := len(b.data) data := b.data[:o+n] data[o] = byte(kt) o++ o += binary.PutUvarint(data[o:], uint64(len(key))) index.keyPos = o index.keyLen = len(key) o += copy(data[o:], key) if kt == keyTypeVal { o += binary.PutUvarint(data[o:], uint64(len(value))) index.valuePos = o index.valueLen = len(value) o += copy(data[o:], value) } b.data = data[:o] b.index = append(b.index, index) b.internalLen += index.keyLen + index.valueLen + 8 } // Put appends 'put operation' of the given key/value pair to the batch. // It is safe to modify the contents of the argument after Put returns but not // before. func (b *Batch) Put(key, value []byte) { b.appendRec(keyTypeVal, key, value) } // Delete appends 'delete operation' of the given key to the batch. // It is safe to modify the contents of the argument after Delete returns but // not before. func (b *Batch) Delete(key []byte) { b.appendRec(keyTypeDel, key, nil) } // Dump dumps batch contents. The returned slice can be loaded into the // batch using Load method. // The returned slice is not its own copy, so the contents should not be // modified. func (b *Batch) Dump() []byte { return b.data } // Load loads given slice into the batch. Previous contents of the batch // will be discarded. // The given slice will not be copied and will be used as batch buffer, so // it is not safe to modify the contents of the slice. func (b *Batch) Load(data []byte) error { return b.decode(data, -1) } // Replay replays batch contents. func (b *Batch) Replay(r BatchReplay) error { for _, index := range b.index { switch index.keyType { case keyTypeVal: r.Put(index.k(b.data), index.v(b.data)) case keyTypeDel: r.Delete(index.k(b.data)) } } return nil } // Len returns number of records in the batch. func (b *Batch) Len() int { return len(b.index) } // Reset resets the batch. func (b *Batch) Reset() { b.data = b.data[:0] b.index = b.index[:0] b.internalLen = 0 } func (b *Batch) replayInternal(fn func(i int, kt keyType, k, v []byte) error) error { for i, index := range b.index { if err := fn(i, index.keyType, index.k(b.data), index.v(b.data)); err != nil { return err } } return nil } func (b *Batch) append(p *Batch) { ob := len(b.data) oi := len(b.index) b.data = append(b.data, p.data...) b.index = append(b.index, p.index...) b.internalLen += p.internalLen // Updating index offset. if ob != 0 { for ; oi < len(b.index); oi++ { index := &b.index[oi] index.keyPos += ob if index.valueLen != 0 { index.valuePos += ob } } } } func (b *Batch) decode(data []byte, expectedLen int) error { b.data = data b.index = b.index[:0] b.internalLen = 0 err := decodeBatch(data, func(i int, index batchIndex) error { b.index = append(b.index, index) b.internalLen += index.keyLen + index.valueLen + 8 return nil }) if err != nil { return err } if expectedLen >= 0 && len(b.index) != expectedLen { return newErrBatchCorrupted(fmt.Sprintf("invalid records length: %d vs %d", expectedLen, len(b.index))) } return nil } func (b *Batch) putMem(seq uint64, mdb *memdb.DB) error { var ik []byte for i, index := range b.index { ik = makeInternalKey(ik, index.k(b.data), seq+uint64(i), index.keyType) if err := mdb.Put(ik, index.v(b.data)); err != nil { return err } } return nil } func (b *Batch) revertMem(seq uint64, mdb *memdb.DB) error { var ik []byte for i, index := range b.index { ik = makeInternalKey(ik, index.k(b.data), seq+uint64(i), index.keyType) if err := mdb.Delete(ik); err != nil { return err } } return nil } func newBatch() interface{} { return &Batch{} } func decodeBatch(data []byte, fn func(i int, index batchIndex) error) error { var index batchIndex for i, o := 0, 0; o < len(data); i++ { // Key type. index.keyType = keyType(data[o]) if index.keyType > keyTypeVal { return newErrBatchCorrupted(fmt.Sprintf("bad record: invalid type %#x", uint(index.keyType))) } o++ // Key. x, n := binary.Uvarint(data[o:]) o += n if n <= 0 || o+int(x) > len(data) { return newErrBatchCorrupted("bad record: invalid key length") } index.keyPos = o index.keyLen = int(x) o += index.keyLen // Value. if index.keyType == keyTypeVal { x, n = binary.Uvarint(data[o:]) o += n if n <= 0 || o+int(x) > len(data) { return newErrBatchCorrupted("bad record: invalid value length") } index.valuePos = o index.valueLen = int(x) o += index.valueLen } else { index.valuePos = 0 index.valueLen = 0 } if err := fn(i, index); err != nil { return err } } return nil } func decodeBatchToMem(data []byte, expectSeq uint64, mdb *memdb.DB) (seq uint64, batchLen int, err error) { seq, batchLen, err = decodeBatchHeader(data) if err != nil { return 0, 0, err } if seq < expectSeq { return 0, 0, newErrBatchCorrupted("invalid sequence number") } data = data[batchHeaderLen:] var ik []byte var decodedLen int err = decodeBatch(data, func(i int, index batchIndex) error { if i >= batchLen { return newErrBatchCorrupted("invalid records length") } ik = makeInternalKey(ik, index.k(data), seq+uint64(i), index.keyType) if err := mdb.Put(ik, index.v(data)); err != nil { return err } decodedLen++ return nil }) if err == nil && decodedLen != batchLen { err = newErrBatchCorrupted(fmt.Sprintf("invalid records length: %d vs %d", batchLen, decodedLen)) } return } func encodeBatchHeader(dst []byte, seq uint64, batchLen int) []byte { dst = ensureBuffer(dst, batchHeaderLen) binary.LittleEndian.PutUint64(dst, seq) binary.LittleEndian.PutUint32(dst[8:], uint32(batchLen)) return dst } func decodeBatchHeader(data []byte) (seq uint64, batchLen int, err error) { if len(data) < batchHeaderLen { return 0, 0, newErrBatchCorrupted("too short") } seq = binary.LittleEndian.Uint64(data) batchLen = int(binary.LittleEndian.Uint32(data[8:])) if batchLen < 0 { return 0, 0, newErrBatchCorrupted("invalid records length") } return } func batchesLen(batches []*Batch) int { batchLen := 0 for _, batch := range batches { batchLen += batch.Len() } return batchLen } func writeBatchesWithHeader(wr io.Writer, batches []*Batch, seq uint64) error { if _, err := wr.Write(encodeBatchHeader(nil, seq, batchesLen(batches))); err != nil { return err } for _, batch := range batches { if _, err := wr.Write(batch.data); err != nil { return err } } return nil }