revert goleveldb for replication compatibility

This commit is contained in:
siddontang 2017-03-14 21:55:16 +08:00
parent 3cbbbb8f85
commit 06fce8810a
32 changed files with 552 additions and 936 deletions

View File

@ -9,15 +9,13 @@ 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.
// ErrBatchCorrupted records reason of batch corruption.
type ErrBatchCorrupted struct {
Reason string
}
@ -31,9 +29,8 @@ func newErrBatchCorrupted(reason string) error {
}
const (
batchHeaderLen = 8 + 4
batchGrowRec = 3000
batchBufioSize = 16
batchHdrLen = 8 + 4
batchGrowRec = 3000
)
// BatchReplay wraps basic batch operations.
@ -42,46 +39,34 @@ type BatchReplay interface {
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
data []byte
rLen, bLen int
seq uint64
sync bool
}
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
off := len(b.data)
if off == 0 {
off = batchHdrLen
if b.data != nil {
b.data = b.data[:off]
}
}
if cap(b.data)-off < n {
if b.data == nil {
b.data = make([]byte, off, off+n)
} else {
odata := b.data
div := 1
if b.rLen > batchGrowRec {
div = b.rLen / batchGrowRec
}
b.data = make([]byte, off, off+n+(off-batchHdrLen)/div)
copy(b.data, odata)
}
ndata := make([]byte, o, o+n+o/div)
copy(ndata, b.data)
b.data = ndata
}
}
@ -91,36 +76,32 @@ func (b *Batch) appendRec(kt keyType, key, value []byte) {
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)
off := len(b.data)
data := b.data[:off+n]
data[off] = byte(kt)
off++
off += binary.PutUvarint(data[off:], uint64(len(key)))
copy(data[off:], key)
off += len(key)
if kt == keyTypeVal {
o += binary.PutUvarint(data[o:], uint64(len(value)))
index.valuePos = o
index.valueLen = len(value)
o += copy(data[o:], value)
off += binary.PutUvarint(data[off:], uint64(len(value)))
copy(data[off:], value)
off += len(value)
}
b.data = data[:o]
b.index = append(b.index, index)
b.internalLen += index.keyLen + index.valueLen + 8
b.data = data[:off]
b.rLen++
// Include 8-byte ikey header
b.bLen += len(key) + len(value) + 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.
// It is safe to modify the contents of the argument after Put returns.
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.
// It is safe to modify the contents of the argument after Delete returns.
func (b *Batch) Delete(key []byte) {
b.appendRec(keyTypeDel, key, nil)
}
@ -130,7 +111,7 @@ func (b *Batch) Delete(key []byte) {
// The returned slice is not its own copy, so the contents should not be
// modified.
func (b *Batch) Dump() []byte {
return b.data
return b.encode()
}
// Load loads given slice into the batch. Previous contents of the batch
@ -138,212 +119,144 @@ func (b *Batch) Dump() []byte {
// 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)
return b.decode(0, data)
}
// Replay replays batch contents.
func (b *Batch) Replay(r BatchReplay) error {
for _, index := range b.index {
switch index.keyType {
return b.decodeRec(func(i int, kt keyType, key, value []byte) error {
switch kt {
case keyTypeVal:
r.Put(index.k(b.data), index.v(b.data))
r.Put(key, value)
case keyTypeDel:
r.Delete(index.k(b.data))
r.Delete(key)
}
}
return nil
return nil
})
}
// Len returns number of records in the batch.
func (b *Batch) Len() int {
return len(b.index)
return b.rLen
}
// Reset resets the batch.
func (b *Batch) Reset() {
b.data = b.data[:0]
b.index = b.index[:0]
b.internalLen = 0
b.seq = 0
b.rLen = 0
b.bLen = 0
b.sync = false
}
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) init(sync bool) {
b.sync = sync
}
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
}
}
if p.rLen > 0 {
b.grow(len(p.data) - batchHdrLen)
b.data = append(b.data, p.data[batchHdrLen:]...)
b.rLen += p.rLen
b.bLen += p.bLen
}
if p.sync {
b.sync = true
}
}
func (b *Batch) decode(data []byte, expectedLen int) error {
// size returns sums of key/value pair length plus 8-bytes ikey.
func (b *Batch) size() int {
return b.bLen
}
func (b *Batch) encode() []byte {
b.grow(0)
binary.LittleEndian.PutUint64(b.data, b.seq)
binary.LittleEndian.PutUint32(b.data[8:], uint32(b.rLen))
return b.data
}
func (b *Batch) decode(prevSeq uint64, data []byte) error {
if len(data) < batchHdrLen {
return newErrBatchCorrupted("too short")
}
b.seq = binary.LittleEndian.Uint64(data)
if b.seq < prevSeq {
return newErrBatchCorrupted("invalid sequence number")
}
b.rLen = int(binary.LittleEndian.Uint32(data[8:]))
if b.rLen < 0 {
return newErrBatchCorrupted("invalid records length")
}
// No need to be precise at this point, it won't be used anyway
b.bLen = len(data) - batchHdrLen
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 {
func (b *Batch) decodeRec(f func(i int, kt keyType, key, value []byte) error) error {
off := batchHdrLen
for i := 0; i < b.rLen; i++ {
if off >= len(b.data) {
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
kt := keyType(b.data[off])
if kt > keyTypeVal {
panic(kt)
return newErrBatchCorrupted("bad record: invalid type")
}
decodedLen++
return nil
})
if err == nil && decodedLen != batchLen {
err = newErrBatchCorrupted(fmt.Sprintf("invalid records length: %d vs %d", batchLen, decodedLen))
}
return
}
off++
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
}
x, n := binary.Uvarint(b.data[off:])
off += n
if n <= 0 || off+int(x) > len(b.data) {
return newErrBatchCorrupted("bad record: invalid key length")
}
key := b.data[off : off+int(x)]
off += int(x)
var value []byte
if kt == keyTypeVal {
x, n := binary.Uvarint(b.data[off:])
off += n
if n <= 0 || off+int(x) > len(b.data) {
return newErrBatchCorrupted("bad record: invalid value length")
}
value = b.data[off : off+int(x)]
off += int(x)
}
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 {
if err := f(i, kt, key, value); err != nil {
return err
}
}
return nil
}
func (b *Batch) memReplay(to *memdb.DB) error {
var ikScratch []byte
return b.decodeRec(func(i int, kt keyType, key, value []byte) error {
ikScratch = makeInternalKey(ikScratch, key, b.seq+uint64(i), kt)
return to.Put(ikScratch, value)
})
}
func (b *Batch) memDecodeAndReplay(prevSeq uint64, data []byte, to *memdb.DB) error {
if err := b.decode(prevSeq, data); err != nil {
return err
}
return b.memReplay(to)
}
func (b *Batch) revertMemReplay(to *memdb.DB) error {
var ikScratch []byte
return b.decodeRec(func(i int, kt keyType, key, value []byte) error {
ikScratch := makeInternalKey(ikScratch, key, b.seq+uint64(i), kt)
return to.Delete(ikScratch)
})
}

View File

@ -16,7 +16,7 @@ import (
)
// Cacher provides interface to implements a caching functionality.
// An implementation must be safe for concurrent use.
// An implementation must be goroutine-safe.
type Cacher interface {
// Capacity returns cache capacity.
Capacity() int
@ -511,12 +511,18 @@ func (r *Cache) EvictAll() {
}
}
// Close closes the 'cache map' and forcefully releases all 'cache node'.
// Close closes the 'cache map' and releases all 'cache node'.
func (r *Cache) Close() error {
r.mu.Lock()
if !r.closed {
r.closed = true
if r.cacher != nil {
if err := r.cacher.Close(); err != nil {
return err
}
}
h := (*mNode)(r.mHead)
h.initBuckets()
@ -535,37 +541,10 @@ func (r *Cache) Close() error {
for _, f := range n.onDel {
f()
}
n.onDel = nil
}
}
}
r.mu.Unlock()
// Avoid deadlock.
if r.cacher != nil {
if err := r.cacher.Close(); err != nil {
return err
}
}
return nil
}
// CloseWeak closes the 'cache map' and evict all 'cache node' from cacher, but
// unlike Close it doesn't forcefully releases 'cache node'.
func (r *Cache) CloseWeak() error {
r.mu.Lock()
if !r.closed {
r.closed = true
}
r.mu.Unlock()
// Avoid deadlock.
if r.cacher != nil {
r.cacher.EvictAll()
if err := r.cacher.Close(); err != nil {
return err
}
}
return nil
}

View File

@ -6,9 +6,7 @@
package leveldb
import (
"github.com/syndtr/goleveldb/leveldb/comparer"
)
import "github.com/syndtr/goleveldb/leveldb/comparer"
type iComparer struct {
ucmp comparer.Comparer
@ -35,12 +33,12 @@ func (icmp *iComparer) Name() string {
}
func (icmp *iComparer) Compare(a, b []byte) int {
x := icmp.uCompare(internalKey(a).ukey(), internalKey(b).ukey())
x := icmp.ucmp.Compare(internalKey(a).ukey(), internalKey(b).ukey())
if x == 0 {
if m, n := internalKey(a).num(), internalKey(b).num(); m > n {
return -1
x = -1
} else if m < n {
return 1
x = 1
}
}
return x
@ -48,20 +46,30 @@ func (icmp *iComparer) Compare(a, b []byte) int {
func (icmp *iComparer) Separator(dst, a, b []byte) []byte {
ua, ub := internalKey(a).ukey(), internalKey(b).ukey()
dst = icmp.uSeparator(dst, ua, ub)
if dst != nil && len(dst) < len(ua) && icmp.uCompare(ua, dst) < 0 {
// Append earliest possible number.
return append(dst, keyMaxNumBytes...)
dst = icmp.ucmp.Separator(dst, ua, ub)
if dst == nil {
return nil
}
return nil
if len(dst) < len(ua) && icmp.uCompare(ua, dst) < 0 {
dst = append(dst, keyMaxNumBytes...)
} else {
// Did not close possibilities that n maybe longer than len(ub).
dst = append(dst, a[len(a)-8:]...)
}
return dst
}
func (icmp *iComparer) Successor(dst, b []byte) []byte {
ub := internalKey(b).ukey()
dst = icmp.uSuccessor(dst, ub)
if dst != nil && len(dst) < len(ub) && icmp.uCompare(ub, dst) < 0 {
// Append earliest possible number.
return append(dst, keyMaxNumBytes...)
dst = icmp.ucmp.Successor(dst, ub)
if dst == nil {
return nil
}
return nil
if len(dst) < len(ub) && icmp.uCompare(ub, dst) < 0 {
dst = append(dst, keyMaxNumBytes...)
} else {
// Did not close possibilities that n maybe longer than len(ub).
dst = append(dst, b[len(b)-8:]...)
}
return dst
}

View File

@ -53,13 +53,14 @@ type DB struct {
aliveSnaps, aliveIters int32
// Write.
batchPool sync.Pool
writeMergeC chan writeMerge
writeC chan *Batch
writeMergedC chan bool
writeLockC chan struct{}
writeAckC chan error
writeDelay time.Duration
writeDelayN int
journalC chan *Batch
journalAckC chan error
tr *Transaction
// Compaction.
@ -93,11 +94,12 @@ func openDB(s *session) (*DB, error) {
// Snapshot
snapsList: list.New(),
// Write
batchPool: sync.Pool{New: newBatch},
writeMergeC: make(chan writeMerge),
writeC: make(chan *Batch),
writeMergedC: make(chan bool),
writeLockC: make(chan struct{}, 1),
writeAckC: make(chan error),
journalC: make(chan *Batch),
journalAckC: make(chan error),
// Compaction
tcompCmdC: make(chan cCmd),
tcompPauseC: make(chan chan<- struct{}),
@ -142,10 +144,10 @@ func openDB(s *session) (*DB, error) {
if readOnly {
db.SetReadOnly()
} else {
db.closeW.Add(2)
db.closeW.Add(3)
go db.tCompaction()
go db.mCompaction()
// go db.jWriter()
go db.jWriter()
}
s.logf("db@open done T·%v", time.Since(start))
@ -160,10 +162,10 @@ func openDB(s *session) (*DB, error) {
// os.ErrExist error.
//
// Open will return an error with type of ErrCorrupted if corruption
// detected in the DB. Use errors.IsCorrupted to test whether an error is
// due to corruption. Corrupted DB can be recovered with Recover function.
// detected in the DB. Corrupted DB can be recovered with Recover
// function.
//
// The returned DB instance is safe for concurrent use.
// The returned DB instance is goroutine-safe.
// The DB must be closed after use, by calling Close method.
func Open(stor storage.Storage, o *opt.Options) (db *DB, err error) {
s, err := newSession(stor, o)
@ -200,13 +202,13 @@ func Open(stor storage.Storage, o *opt.Options) (db *DB, err error) {
// os.ErrExist error.
//
// OpenFile uses standard file-system backed storage implementation as
// described in the leveldb/storage package.
// desribed in the leveldb/storage package.
//
// OpenFile will return an error with type of ErrCorrupted if corruption
// detected in the DB. Use errors.IsCorrupted to test whether an error is
// due to corruption. Corrupted DB can be recovered with Recover function.
// detected in the DB. Corrupted DB can be recovered with Recover
// function.
//
// The returned DB instance is safe for concurrent use.
// The returned DB instance is goroutine-safe.
// The DB must be closed after use, by calling Close method.
func OpenFile(path string, o *opt.Options) (db *DB, err error) {
stor, err := storage.OpenFile(path, o.GetReadOnly())
@ -227,7 +229,7 @@ func OpenFile(path string, o *opt.Options) (db *DB, err error) {
// The DB must already exist or it will returns an error.
// Also, Recover will ignore ErrorIfMissing and ErrorIfExist options.
//
// The returned DB instance is safe for concurrent use.
// The returned DB instance is goroutine-safe.
// The DB must be closed after use, by calling Close method.
func Recover(stor storage.Storage, o *opt.Options) (db *DB, err error) {
s, err := newSession(stor, o)
@ -253,10 +255,10 @@ func Recover(stor storage.Storage, o *opt.Options) (db *DB, err error) {
// The DB must already exist or it will returns an error.
// Also, Recover will ignore ErrorIfMissing and ErrorIfExist options.
//
// RecoverFile uses standard file-system backed storage implementation as described
// RecoverFile uses standard file-system backed storage implementation as desribed
// in the leveldb/storage package.
//
// The returned DB instance is safe for concurrent use.
// The returned DB instance is goroutine-safe.
// The DB must be closed after use, by calling Close method.
func RecoverFile(path string, o *opt.Options) (db *DB, err error) {
stor, err := storage.OpenFile(path, false)
@ -502,11 +504,10 @@ func (db *DB) recoverJournal() error {
checksum = db.s.o.GetStrict(opt.StrictJournalChecksum)
writeBuffer = db.s.o.GetWriteBuffer()
jr *journal.Reader
mdb = memdb.New(db.s.icmp, writeBuffer)
buf = &util.Buffer{}
batchSeq uint64
batchLen int
jr *journal.Reader
mdb = memdb.New(db.s.icmp, writeBuffer)
buf = &util.Buffer{}
batch = &Batch{}
)
for _, fd := range fds {
@ -525,7 +526,7 @@ func (db *DB) recoverJournal() error {
}
// Flush memdb and remove obsolete journal file.
if !ofd.Zero() {
if !ofd.Nil() {
if mdb.Len() > 0 {
if _, err := db.s.flushMemdb(rec, mdb, 0); err != nil {
fr.Close()
@ -568,8 +569,7 @@ func (db *DB) recoverJournal() error {
fr.Close()
return errors.SetFd(err, fd)
}
batchSeq, batchLen, err = decodeBatchToMem(buf.Bytes(), db.seq, mdb)
if err != nil {
if err := batch.memDecodeAndReplay(db.seq, buf.Bytes(), mdb); err != nil {
if !strict && errors.IsCorrupted(err) {
db.s.logf("journal error: %v (skipped)", err)
// We won't apply sequence number as it might be corrupted.
@ -581,7 +581,7 @@ func (db *DB) recoverJournal() error {
}
// Save sequence number.
db.seq = batchSeq + uint64(batchLen)
db.seq = batch.seq + uint64(batch.Len())
// Flush it if large enough.
if mdb.Size() >= writeBuffer {
@ -624,7 +624,7 @@ func (db *DB) recoverJournal() error {
}
// Remove the last obsolete journal file.
if !ofd.Zero() {
if !ofd.Nil() {
db.s.stor.Remove(ofd)
}
@ -661,10 +661,9 @@ func (db *DB) recoverJournalRO() error {
db.logf("journal@recovery RO·Mode F·%d", len(fds))
var (
jr *journal.Reader
buf = &util.Buffer{}
batchSeq uint64
batchLen int
jr *journal.Reader
buf = &util.Buffer{}
batch = &Batch{}
)
for _, fd := range fds {
@ -704,8 +703,7 @@ func (db *DB) recoverJournalRO() error {
fr.Close()
return errors.SetFd(err, fd)
}
batchSeq, batchLen, err = decodeBatchToMem(buf.Bytes(), db.seq, mdb)
if err != nil {
if err := batch.memDecodeAndReplay(db.seq, buf.Bytes(), mdb); err != nil {
if !strict && errors.IsCorrupted(err) {
db.s.logf("journal error: %v (skipped)", err)
// We won't apply sequence number as it might be corrupted.
@ -717,7 +715,7 @@ func (db *DB) recoverJournalRO() error {
}
// Save sequence number.
db.seq = batchSeq + uint64(batchLen)
db.seq = batch.seq + uint64(batch.Len())
}
fr.Close()
@ -858,7 +856,7 @@ func (db *DB) Has(key []byte, ro *opt.ReadOptions) (ret bool, err error) {
// NewIterator returns an iterator for the latest snapshot of the
// underlying DB.
// The returned iterator is not safe for concurrent use, but it is safe to use
// The returned iterator is not goroutine-safe, but it is safe to use
// multiple iterators concurrently, with each in a dedicated goroutine.
// It is also safe to use an iterator concurrently with modifying its
// underlying DB. The resultant key/value pairs are guaranteed to be
@ -1064,8 +1062,6 @@ func (db *DB) Close() error {
if db.journal != nil {
db.journal.Close()
db.journalWriter.Close()
db.journal = nil
db.journalWriter = nil
}
if db.writeDelayN > 0 {
@ -1081,11 +1077,15 @@ func (db *DB) Close() error {
if err1 := db.closer.Close(); err == nil {
err = err1
}
db.closer = nil
}
// Clear memdbs.
db.clearMems()
// NIL'ing pointers.
db.s = nil
db.mem = nil
db.frozenMem = nil
db.journal = nil
db.journalWriter = nil
db.closer = nil
return err
}

View File

@ -96,7 +96,7 @@ noerr:
default:
goto haserr
}
case <-db.closeC:
case _, _ = <-db.closeC:
return
}
}
@ -113,7 +113,7 @@ haserr:
goto hasperr
default:
}
case <-db.closeC:
case _, _ = <-db.closeC:
return
}
}
@ -126,7 +126,7 @@ hasperr:
case db.writeLockC <- struct{}{}:
// Hold write lock, so that write won't pass-through.
db.compWriteLocking = true
case <-db.closeC:
case _, _ = <-db.closeC:
if db.compWriteLocking {
// We should release the lock or Close will hang.
<-db.writeLockC
@ -195,7 +195,7 @@ func (db *DB) compactionTransact(name string, t compactionTransactInterface) {
db.logf("%s exiting (persistent error %q)", name, perr)
db.compactionExitTransact()
}
case <-db.closeC:
case _, _ = <-db.closeC:
db.logf("%s exiting", name)
db.compactionExitTransact()
}
@ -224,7 +224,7 @@ func (db *DB) compactionTransact(name string, t compactionTransactInterface) {
}
select {
case <-backoffT.C:
case <-db.closeC:
case _, _ = <-db.closeC:
db.logf("%s exiting", name)
db.compactionExitTransact()
}
@ -288,8 +288,8 @@ func (db *DB) memCompaction() {
case <-db.compPerErrC:
close(resumeC)
resumeC = nil
case <-db.closeC:
db.compactionExitTransact()
case _, _ = <-db.closeC:
return
}
var (
@ -337,8 +337,8 @@ func (db *DB) memCompaction() {
select {
case <-resumeC:
close(resumeC)
case <-db.closeC:
db.compactionExitTransact()
case _, _ = <-db.closeC:
return
}
}
@ -378,7 +378,7 @@ func (b *tableCompactionBuilder) appendKV(key, value []byte) error {
select {
case ch := <-b.db.tcompPauseC:
b.db.pauseCompaction(ch)
case <-b.db.closeC:
case _, _ = <-b.db.closeC:
b.db.compactionExitTransact()
default:
}
@ -643,7 +643,7 @@ func (db *DB) tableNeedCompaction() bool {
func (db *DB) pauseCompaction(ch chan<- struct{}) {
select {
case ch <- struct{}{}:
case <-db.closeC:
case _, _ = <-db.closeC:
db.compactionExitTransact()
}
}
@ -688,7 +688,7 @@ func (db *DB) compTrigger(compC chan<- cCmd) {
}
}
// This will trigger auto compaction and/or wait for all compaction to be done.
// This will trigger auto compation and/or wait for all compaction to be done.
func (db *DB) compTriggerWait(compC chan<- cCmd) (err error) {
ch := make(chan error)
defer close(ch)
@ -697,14 +697,14 @@ func (db *DB) compTriggerWait(compC chan<- cCmd) (err error) {
case compC <- cAuto{ch}:
case err = <-db.compErrC:
return
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}
// Wait cmd.
select {
case err = <-ch:
case err = <-db.compErrC:
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}
return err
@ -719,14 +719,14 @@ func (db *DB) compTriggerRange(compC chan<- cCmd, level int, min, max []byte) (e
case compC <- cRange{level, min, max, ch}:
case err := <-db.compErrC:
return err
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}
// Wait cmd.
select {
case err = <-ch:
case err = <-db.compErrC:
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}
return err
@ -758,7 +758,7 @@ func (db *DB) mCompaction() {
default:
panic("leveldb: unknown command")
}
case <-db.closeC:
case _, _ = <-db.closeC:
return
}
}
@ -791,7 +791,7 @@ func (db *DB) tCompaction() {
case ch := <-db.tcompPauseC:
db.pauseCompaction(ch)
continue
case <-db.closeC:
case _, _ = <-db.closeC:
return
default:
}
@ -806,7 +806,7 @@ func (db *DB) tCompaction() {
case ch := <-db.tcompPauseC:
db.pauseCompaction(ch)
continue
case <-db.closeC:
case _, _ = <-db.closeC:
return
}
}

View File

@ -59,7 +59,7 @@ func (db *DB) releaseSnapshot(se *snapshotElement) {
}
}
// Gets minimum sequence that not being snapshotted.
// Gets minimum sequence that not being snapshoted.
func (db *DB) minSeq() uint64 {
db.snapsMu.Lock()
defer db.snapsMu.Unlock()
@ -131,7 +131,7 @@ func (snap *Snapshot) Has(key []byte, ro *opt.ReadOptions) (ret bool, err error)
}
// NewIterator returns an iterator for the snapshot of the underlying DB.
// The returned iterator is not safe for concurrent use, but it is safe to use
// The returned iterator is not goroutine-safe, but it is safe to use
// multiple iterators concurrently, with each in a dedicated goroutine.
// It is also safe to use an iterator concurrently with modifying its
// underlying DB. The resultant key/value pairs are guaranteed to be

View File

@ -7,7 +7,6 @@
package leveldb
import (
"errors"
"sync/atomic"
"time"
@ -16,10 +15,6 @@ import (
"github.com/syndtr/goleveldb/leveldb/storage"
)
var (
errHasFrozenMem = errors.New("has frozen mem")
)
type memDB struct {
db *DB
*memdb.DB
@ -72,11 +67,12 @@ func (db *DB) sampleSeek(ikey internalKey) {
}
func (db *DB) mpoolPut(mem *memdb.DB) {
if !db.isClosed() {
select {
case db.memPool <- mem:
default:
}
defer func() {
recover()
}()
select {
case db.memPool <- mem:
default:
}
}
@ -104,13 +100,7 @@ func (db *DB) mpoolDrain() {
case <-db.memPool:
default:
}
case <-db.closeC:
ticker.Stop()
// Make sure the pool is drained.
select {
case <-db.memPool:
case <-time.After(time.Second):
}
case _, _ = <-db.closeC:
close(db.memPool)
return
}
@ -131,7 +121,7 @@ func (db *DB) newMem(n int) (mem *memDB, err error) {
defer db.memMu.Unlock()
if db.frozenMem != nil {
return nil, errHasFrozenMem
panic("still has frozen mem")
}
if db.journal == nil {
@ -158,26 +148,24 @@ func (db *DB) newMem(n int) (mem *memDB, err error) {
func (db *DB) getMems() (e, f *memDB) {
db.memMu.RLock()
defer db.memMu.RUnlock()
if db.mem != nil {
db.mem.incref()
} else if !db.isClosed() {
if db.mem == nil {
panic("nil effective mem")
}
db.mem.incref()
if db.frozenMem != nil {
db.frozenMem.incref()
}
return db.mem, db.frozenMem
}
// Get effective memdb.
// Get frozen memdb.
func (db *DB) getEffectiveMem() *memDB {
db.memMu.RLock()
defer db.memMu.RUnlock()
if db.mem != nil {
db.mem.incref()
} else if !db.isClosed() {
if db.mem == nil {
panic("nil effective mem")
}
db.mem.incref()
return db.mem
}
@ -212,14 +200,6 @@ func (db *DB) dropFrozenMem() {
db.memMu.Unlock()
}
// Clear mems ptr; used by DB.Close().
func (db *DB) clearMems() {
db.memMu.Lock()
db.mem = nil
db.frozenMem = nil
db.memMu.Unlock()
}
// Set closed flag; return true if not already closed.
func (db *DB) setClosed() bool {
return atomic.CompareAndSwapUint32(&db.closed, 0, 1)

View File

@ -59,8 +59,8 @@ func (tr *Transaction) Has(key []byte, ro *opt.ReadOptions) (bool, error) {
}
// NewIterator returns an iterator for the latest snapshot of the transaction.
// The returned iterator is not safe for concurrent use, but it is safe to use
// multiple iterators concurrently, with each in a dedicated goroutine.
// The returned iterator is not goroutine-safe, but it is safe to use multiple
// iterators concurrently, with each in a dedicated goroutine.
// It is also safe to use an iterator concurrently while writes to the
// transaction. The resultant key/value pairs are guaranteed to be consistent.
//
@ -167,8 +167,8 @@ func (tr *Transaction) Write(b *Batch, wo *opt.WriteOptions) error {
if tr.closed {
return errTransactionDone
}
return b.replayInternal(func(i int, kt keyType, k, v []byte) error {
return tr.put(kt, k, v)
return b.decodeRec(func(i int, kt keyType, key, value []byte) error {
return tr.put(kt, key, value)
})
}
@ -179,8 +179,7 @@ func (tr *Transaction) setDone() {
<-tr.db.writeLockC
}
// Commit commits the transaction. If error is not nil, then the transaction is
// not committed, it can then either be retried or discarded.
// Commit commits the transaction.
//
// Other methods should not be called after transaction has been committed.
func (tr *Transaction) Commit() error {
@ -193,27 +192,24 @@ func (tr *Transaction) Commit() error {
if tr.closed {
return errTransactionDone
}
defer tr.setDone()
if err := tr.flush(); err != nil {
// Return error, lets user decide either to retry or discard
// transaction.
tr.discard()
return err
}
if len(tr.tables) != 0 {
// Committing transaction.
tr.rec.setSeqNum(tr.seq)
tr.db.compCommitLk.Lock()
tr.stats.startTimer()
var cerr error
defer tr.db.compCommitLk.Unlock()
for retry := 0; retry < 3; retry++ {
cerr = tr.db.s.commit(&tr.rec)
if cerr != nil {
tr.db.logf("transaction@commit error R·%d %q", retry, cerr)
if err := tr.db.s.commit(&tr.rec); err != nil {
tr.db.logf("transaction@commit error R·%d %q", retry, err)
select {
case <-time.After(time.Second):
case <-tr.db.closeC:
case _, _ = <-tr.db.closeC:
tr.db.logf("transaction@commit exiting")
tr.db.compCommitLk.Unlock()
return cerr
return err
}
} else {
// Success. Set db.seq.
@ -221,26 +217,9 @@ func (tr *Transaction) Commit() error {
break
}
}
tr.stats.stopTimer()
if cerr != nil {
// Return error, lets user decide either to retry or discard
// transaction.
return cerr
}
// Update compaction stats. This is safe as long as we hold compCommitLk.
tr.db.compStats.addStat(0, &tr.stats)
// Trigger table auto-compaction.
tr.db.compTrigger(tr.db.tcompCmdC)
tr.db.compCommitLk.Unlock()
// Additionally, wait compaction when certain threshold reached.
// Ignore error, returns error only if transaction can't be committed.
tr.db.waitCompaction()
}
// Only mark as done if transaction committed successfully.
tr.setDone()
return nil
}
@ -266,20 +245,10 @@ func (tr *Transaction) Discard() {
tr.lk.Unlock()
}
func (db *DB) waitCompaction() error {
if db.s.tLen(0) >= db.s.o.GetWriteL0PauseTrigger() {
return db.compTriggerWait(db.tcompCmdC)
}
return nil
}
// OpenTransaction opens an atomic DB transaction. Only one transaction can be
// opened at a time. Subsequent call to Write and OpenTransaction will be blocked
// until in-flight transaction is committed or discarded.
// The returned transaction handle is safe for concurrent use.
//
// Transaction is expensive and can overwhelm compaction, especially if
// transaction size is small. Use with caution.
// opened at a time. Write will be blocked until the transaction is committed or
// discarded.
// The returned transaction handle is goroutine-safe.
//
// The transaction must be closed once done, either by committing or discarding
// the transaction.
@ -294,7 +263,7 @@ func (db *DB) OpenTransaction() (*Transaction, error) {
case db.writeLockC <- struct{}{}:
case err := <-db.compPerErrC:
return nil, err
case <-db.closeC:
case _, _ = <-db.closeC:
return nil, ErrClosed
}
@ -309,11 +278,6 @@ func (db *DB) OpenTransaction() (*Transaction, error) {
}
}
// Wait compaction when certain threshold reached.
if err := db.waitCompaction(); err != nil {
return nil, err
}
tr := &Transaction{
db: db,
seq: db.seq,

View File

@ -62,7 +62,7 @@ func (db *DB) checkAndCleanFiles() error {
case storage.TypeManifest:
keep = fd.Num >= db.s.manifestFd.Num
case storage.TypeJournal:
if !db.frozenJournalFd.Zero() {
if !db.frozenJournalFd.Nil() {
keep = fd.Num >= db.frozenJournalFd.Num
} else {
keep = fd.Num >= db.journalFd.Num

View File

@ -14,42 +14,47 @@ import (
"github.com/syndtr/goleveldb/leveldb/util"
)
func (db *DB) writeJournal(batches []*Batch, seq uint64, sync bool) error {
wr, err := db.journal.Next()
func (db *DB) writeJournal(b *Batch) error {
w, err := db.journal.Next()
if err != nil {
return err
}
if err := writeBatchesWithHeader(wr, batches, seq); err != nil {
if _, err := w.Write(b.encode()); err != nil {
return err
}
if err := db.journal.Flush(); err != nil {
return err
}
if sync {
if b.sync {
return db.journalWriter.Sync()
}
return nil
}
func (db *DB) jWriter() {
defer db.closeW.Done()
for {
select {
case b := <-db.journalC:
if b != nil {
db.journalAckC <- db.writeJournal(b)
}
case _, _ = <-db.closeC:
return
}
}
}
func (db *DB) rotateMem(n int, wait bool) (mem *memDB, err error) {
retryLimit := 3
retry:
// Wait for pending memdb compaction.
err = db.compTriggerWait(db.mcompCmdC)
if err != nil {
return
}
retryLimit--
// Create new memdb and journal.
mem, err = db.newMem(n)
if err != nil {
if err == errHasFrozenMem {
if retryLimit <= 0 {
panic("BUG: still has frozen memdb")
}
goto retry
}
return
}
@ -64,29 +69,24 @@ retry:
func (db *DB) flush(n int) (mdb *memDB, mdbFree int, err error) {
delayed := false
slowdownTrigger := db.s.o.GetWriteL0SlowdownTrigger()
pauseTrigger := db.s.o.GetWriteL0PauseTrigger()
flush := func() (retry bool) {
v := db.s.version()
defer v.release()
mdb = db.getEffectiveMem()
if mdb == nil {
err = ErrClosed
return false
}
defer func() {
if retry {
mdb.decref()
mdb = nil
}
}()
tLen := db.s.tLen(0)
mdbFree = mdb.Free()
switch {
case tLen >= slowdownTrigger && !delayed:
case v.tLen(0) >= db.s.o.GetWriteL0SlowdownTrigger() && !delayed:
delayed = true
time.Sleep(time.Millisecond)
case mdbFree >= n:
return false
case tLen >= pauseTrigger:
case v.tLen(0) >= db.s.o.GetWriteL0PauseTrigger():
delayed = true
err = db.compTriggerWait(db.tcompCmdC)
if err != nil {
@ -123,250 +123,159 @@ func (db *DB) flush(n int) (mdb *memDB, mdbFree int, err error) {
return
}
type writeMerge struct {
sync bool
batch *Batch
keyType keyType
key, value []byte
}
func (db *DB) unlockWrite(overflow bool, merged int, err error) {
for i := 0; i < merged; i++ {
db.writeAckC <- err
}
if overflow {
// Pass lock to the next write (that failed to merge).
db.writeMergedC <- false
} else {
// Release lock.
<-db.writeLockC
}
}
// ourBatch if defined should equal with batch.
func (db *DB) writeLocked(batch, ourBatch *Batch, merge, sync bool) error {
// Try to flush memdb. This method would also trying to throttle writes
// if it is too fast and compaction cannot catch-up.
mdb, mdbFree, err := db.flush(batch.internalLen)
if err != nil {
db.unlockWrite(false, 0, err)
return err
}
defer mdb.decref()
var (
overflow bool
merged int
batches = []*Batch{batch}
)
if merge {
// Merge limit.
var mergeLimit int
if batch.internalLen > 128<<10 {
mergeLimit = (1 << 20) - batch.internalLen
} else {
mergeLimit = 128 << 10
}
mergeCap := mdbFree - batch.internalLen
if mergeLimit > mergeCap {
mergeLimit = mergeCap
}
merge:
for mergeLimit > 0 {
select {
case incoming := <-db.writeMergeC:
if incoming.batch != nil {
// Merge batch.
if incoming.batch.internalLen > mergeLimit {
overflow = true
break merge
}
batches = append(batches, incoming.batch)
mergeLimit -= incoming.batch.internalLen
} else {
// Merge put.
internalLen := len(incoming.key) + len(incoming.value) + 8
if internalLen > mergeLimit {
overflow = true
break merge
}
if ourBatch == nil {
ourBatch = db.batchPool.Get().(*Batch)
ourBatch.Reset()
batches = append(batches, ourBatch)
}
// We can use same batch since concurrent write doesn't
// guarantee write order.
ourBatch.appendRec(incoming.keyType, incoming.key, incoming.value)
mergeLimit -= internalLen
}
sync = sync || incoming.sync
merged++
db.writeMergedC <- true
default:
break merge
}
}
}
// Seq number.
seq := db.seq + 1
// Write journal.
if err := db.writeJournal(batches, seq, sync); err != nil {
db.unlockWrite(overflow, merged, err)
return err
}
// Put batches.
for _, batch := range batches {
if err := batch.putMem(seq, mdb.DB); err != nil {
panic(err)
}
seq += uint64(batch.Len())
}
// Incr seq number.
db.addSeq(uint64(batchesLen(batches)))
// Rotate memdb if it's reach the threshold.
if batch.internalLen >= mdbFree {
db.rotateMem(0, false)
}
db.unlockWrite(overflow, merged, nil)
return nil
}
// Write apply the given batch to the DB. The batch records will be applied
// sequentially. Write might be used concurrently, when used concurrently and
// batch is small enough, write will try to merge the batches. Set NoWriteMerge
// option to true to disable write merge.
// Write apply the given batch to the DB. The batch will be applied
// sequentially.
//
// It is safe to modify the contents of the arguments after Write returns but
// not before. Write will not modify content of the batch.
func (db *DB) Write(batch *Batch, wo *opt.WriteOptions) error {
if err := db.ok(); err != nil || batch == nil || batch.Len() == 0 {
return err
// It is safe to modify the contents of the arguments after Write returns.
func (db *DB) Write(b *Batch, wo *opt.WriteOptions) (err error) {
err = db.ok()
if err != nil || b == nil || b.Len() == 0 {
return
}
// If the batch size is larger than write buffer, it may justified to write
// using transaction instead. Using transaction the batch will be written
// into tables directly, skipping the journaling.
if batch.internalLen > db.s.o.GetWriteBuffer() && !db.s.o.GetDisableLargeBatchTransaction() {
tr, err := db.OpenTransaction()
if err != nil {
return err
b.init(wo.GetSync() && !db.s.o.GetNoSync())
if b.size() > db.s.o.GetWriteBuffer() && !db.s.o.GetDisableLargeBatchTransaction() {
// Writes using transaction.
tr, err1 := db.OpenTransaction()
if err1 != nil {
return err1
}
if err := tr.Write(batch, wo); err != nil {
if err1 := tr.Write(b, wo); err1 != nil {
tr.Discard()
return err
return err1
}
return tr.Commit()
}
merge := !wo.GetNoWriteMerge() && !db.s.o.GetNoWriteMerge()
sync := wo.GetSync() && !db.s.o.GetNoSync()
// The write happen synchronously.
select {
case db.writeC <- b:
if <-db.writeMergedC {
return <-db.writeAckC
}
// Continue, the write lock already acquired by previous writer
// and handed out to us.
case db.writeLockC <- struct{}{}:
case err = <-db.compPerErrC:
return
case _, _ = <-db.closeC:
return ErrClosed
}
// Acquire write lock.
if merge {
merged := 0
danglingMerge := false
defer func() {
for i := 0; i < merged; i++ {
db.writeAckC <- err
}
if danglingMerge {
// Only one dangling merge at most, so this is safe.
db.writeMergedC <- false
} else {
<-db.writeLockC
}
}()
mdb, mdbFree, err := db.flush(b.size())
if err != nil {
return
}
defer mdb.decref()
// Calculate maximum size of the batch.
m := 1 << 20
if x := b.size(); x <= 128<<10 {
m = x + (128 << 10)
}
m = minInt(m, mdbFree)
// Merge with other batch.
drain:
for b.size() < m && !b.sync {
select {
case db.writeMergeC <- writeMerge{sync: sync, batch: batch}:
if <-db.writeMergedC {
// Write is merged.
return <-db.writeAckC
case nb := <-db.writeC:
if b.size()+nb.size() <= m {
b.append(nb)
db.writeMergedC <- true
merged++
} else {
danglingMerge = true
break drain
}
// Write is not merged, the write lock is handed to us. Continue.
case db.writeLockC <- struct{}{}:
// Write lock acquired.
case err := <-db.compPerErrC:
// Compaction error.
return err
case <-db.closeC:
// Closed
return ErrClosed
default:
break drain
}
}
// Set batch first seq number relative from last seq.
b.seq = db.seq + 1
// Write journal concurrently if it is large enough.
if b.size() >= (128 << 10) {
// Push the write batch to the journal writer
select {
case db.journalC <- b:
// Write into memdb
if berr := b.memReplay(mdb.DB); berr != nil {
panic(berr)
}
case err = <-db.compPerErrC:
return
case _, _ = <-db.closeC:
err = ErrClosed
return
}
// Wait for journal writer
select {
case err = <-db.journalAckC:
if err != nil {
// Revert memdb if error detected
if berr := b.revertMemReplay(mdb.DB); berr != nil {
panic(berr)
}
return
}
case _, _ = <-db.closeC:
err = ErrClosed
return
}
} else {
select {
case db.writeLockC <- struct{}{}:
// Write lock acquired.
case err := <-db.compPerErrC:
// Compaction error.
return err
case <-db.closeC:
// Closed
return ErrClosed
err = db.writeJournal(b)
if err != nil {
return
}
if berr := b.memReplay(mdb.DB); berr != nil {
panic(berr)
}
}
return db.writeLocked(batch, nil, merge, sync)
}
// Set last seq number.
db.addSeq(uint64(b.Len()))
func (db *DB) putRec(kt keyType, key, value []byte, wo *opt.WriteOptions) error {
if err := db.ok(); err != nil {
return err
if b.size() >= mdbFree {
db.rotateMem(0, false)
}
merge := !wo.GetNoWriteMerge() && !db.s.o.GetNoWriteMerge()
sync := wo.GetSync() && !db.s.o.GetNoSync()
// Acquire write lock.
if merge {
select {
case db.writeMergeC <- writeMerge{sync: sync, keyType: kt, key: key, value: value}:
if <-db.writeMergedC {
// Write is merged.
return <-db.writeAckC
}
// Write is not merged, the write lock is handed to us. Continue.
case db.writeLockC <- struct{}{}:
// Write lock acquired.
case err := <-db.compPerErrC:
// Compaction error.
return err
case <-db.closeC:
// Closed
return ErrClosed
}
} else {
select {
case db.writeLockC <- struct{}{}:
// Write lock acquired.
case err := <-db.compPerErrC:
// Compaction error.
return err
case <-db.closeC:
// Closed
return ErrClosed
}
}
batch := db.batchPool.Get().(*Batch)
batch.Reset()
batch.appendRec(kt, key, value)
return db.writeLocked(batch, batch, merge, sync)
return
}
// Put sets the value for the given key. It overwrites any previous value
// for that key; a DB is not a multi-map. Write merge also applies for Put, see
// Write.
// for that key; a DB is not a multi-map.
//
// It is safe to modify the contents of the arguments after Put returns but not
// before.
// It is safe to modify the contents of the arguments after Put returns.
func (db *DB) Put(key, value []byte, wo *opt.WriteOptions) error {
return db.putRec(keyTypeVal, key, value, wo)
b := new(Batch)
b.Put(key, value)
return db.Write(b, wo)
}
// Delete deletes the value for the given key. Delete will not returns error if
// key doesn't exist. Write merge also applies for Delete, see Write.
// Delete deletes the value for the given key.
//
// It is safe to modify the contents of the arguments after Delete returns but
// not before.
// It is safe to modify the contents of the arguments after Delete returns.
func (db *DB) Delete(key []byte, wo *opt.WriteOptions) error {
return db.putRec(keyTypeDel, key, nil, wo)
b := new(Batch)
b.Delete(key)
return db.Write(b, wo)
}
func isMemOverlaps(icmp *iComparer, mem *memdb.DB, min, max []byte) bool {
@ -395,15 +304,12 @@ func (db *DB) CompactRange(r util.Range) error {
case db.writeLockC <- struct{}{}:
case err := <-db.compPerErrC:
return err
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}
// Check for overlaps in memdb.
mdb := db.getEffectiveMem()
if mdb == nil {
return ErrClosed
}
defer mdb.decref()
if isMemOverlaps(db.s.icmp, mdb.DB, r.Start, r.Limit) {
// Memdb compaction.
@ -435,7 +341,7 @@ func (db *DB) SetReadOnly() error {
db.compWriteLocking = true
case err := <-db.compPerErrC:
return err
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}
@ -444,7 +350,7 @@ func (db *DB) SetReadOnly() error {
case db.compErrSetC <- ErrReadOnly:
case perr := <-db.compPerErrC:
return perr
case <-db.closeC:
case _, _ = <-db.closeC:
return ErrClosed
}

View File

@ -10,7 +10,6 @@ import (
"github.com/syndtr/goleveldb/leveldb/errors"
)
// Common errors.
var (
ErrNotFound = errors.ErrNotFound
ErrReadOnly = errors.New("leveldb: read-only mode")

View File

@ -15,7 +15,6 @@ import (
"github.com/syndtr/goleveldb/leveldb/util"
)
// Common errors.
var (
ErrNotFound = New("leveldb: not found")
ErrReleased = util.ErrReleased
@ -35,10 +34,11 @@ type ErrCorrupted struct {
}
func (e *ErrCorrupted) Error() string {
if !e.Fd.Zero() {
if !e.Fd.Nil() {
return fmt.Sprintf("%v [file=%v]", e.Err, e.Fd)
} else {
return e.Err.Error()
}
return e.Err.Error()
}
// NewErrCorrupted creates new ErrCorrupted error.

View File

@ -21,13 +21,13 @@ var (
// IteratorSeeker is the interface that wraps the 'seeks method'.
type IteratorSeeker interface {
// First moves the iterator to the first key/value pair. If the iterator
// only contains one key/value pair then First and Last would moves
// only contains one key/value pair then First and Last whould moves
// to the same key/value pair.
// It returns whether such pair exist.
First() bool
// Last moves the iterator to the last key/value pair. If the iterator
// only contains one key/value pair then First and Last would moves
// only contains one key/value pair then First and Last whould moves
// to the same key/value pair.
// It returns whether such pair exist.
Last() bool
@ -48,7 +48,7 @@ type IteratorSeeker interface {
Prev() bool
}
// CommonIterator is the interface that wraps common iterator methods.
// CommonIterator is the interface that wraps common interator methods.
type CommonIterator interface {
IteratorSeeker
@ -71,15 +71,14 @@ type CommonIterator interface {
// Iterator iterates over a DB's key/value pairs in key order.
//
// When encounter an error any 'seeks method' will return false and will
// When encouter an error any 'seeks method' will return false and will
// yield no key/value pairs. The error can be queried by calling the Error
// method. Calling Release is still necessary.
//
// An iterator must be released after use, but it is not necessary to read
// an iterator until exhaustion.
// Also, an iterator is not necessarily safe for concurrent use, but it is
// safe to use multiple iterators concurrently, with each in a dedicated
// goroutine.
// Also, an iterator is not necessarily goroutine-safe, but it is safe to use
// multiple iterators concurrently, with each in a dedicated goroutine.
type Iterator interface {
CommonIterator
@ -99,7 +98,7 @@ type Iterator interface {
//
// ErrorCallbackSetter implemented by indexed and merged iterator.
type ErrorCallbackSetter interface {
// SetErrorCallback allows set an error callback of the corresponding
// SetErrorCallback allows set an error callback of the coresponding
// iterator. Use nil to clear the callback.
SetErrorCallback(f func(err error))
}

View File

@ -180,37 +180,34 @@ func (r *Reader) nextChunk(first bool) error {
checksum := binary.LittleEndian.Uint32(r.buf[r.j+0 : r.j+4])
length := binary.LittleEndian.Uint16(r.buf[r.j+4 : r.j+6])
chunkType := r.buf[r.j+6]
unprocBlock := r.n - r.j
if checksum == 0 && length == 0 && chunkType == 0 {
// Drop entire block.
m := r.n - r.j
r.i = r.n
r.j = r.n
return r.corrupt(unprocBlock, "zero header", false)
}
if chunkType < fullChunkType || chunkType > lastChunkType {
// Drop entire block.
r.i = r.n
r.j = r.n
return r.corrupt(unprocBlock, fmt.Sprintf("invalid chunk type %#x", chunkType), false)
}
r.i = r.j + headerSize
r.j = r.j + headerSize + int(length)
if r.j > r.n {
// Drop entire block.
r.i = r.n
r.j = r.n
return r.corrupt(unprocBlock, "chunk length overflows block", false)
} else if r.checksum && checksum != util.NewCRC(r.buf[r.i-1:r.j]).Value() {
// Drop entire block.
r.i = r.n
r.j = r.n
return r.corrupt(unprocBlock, "checksum mismatch", false)
return r.corrupt(m, "zero header", false)
} else {
m := r.n - r.j
r.i = r.j + headerSize
r.j = r.j + headerSize + int(length)
if r.j > r.n {
// Drop entire block.
r.i = r.n
r.j = r.n
return r.corrupt(m, "chunk length overflows block", false)
} else if r.checksum && checksum != util.NewCRC(r.buf[r.i-1:r.j]).Value() {
// Drop entire block.
r.i = r.n
r.j = r.n
return r.corrupt(m, "checksum mismatch", false)
}
}
if first && chunkType != fullChunkType && chunkType != firstChunkType {
chunkLength := (r.j - r.i) + headerSize
m := r.j - r.i
r.i = r.j
// Report the error, but skip it.
return r.corrupt(chunkLength, "orphan chunk", true)
return r.corrupt(m+headerSize, "orphan chunk", true)
}
r.last = chunkType == fullChunkType || chunkType == lastChunkType
return nil

View File

@ -37,14 +37,14 @@ func (kt keyType) String() string {
case keyTypeVal:
return "v"
}
return fmt.Sprintf("<invalid:%#x>", uint(kt))
return "x"
}
// Value types encoded as the last component of internal keys.
// Don't modify; this value are saved to disk.
const (
keyTypeDel = keyType(0)
keyTypeVal = keyType(1)
keyTypeDel keyType = iota
keyTypeVal
)
// keyTypeSeek defines the keyType that should be passed when constructing an
@ -79,7 +79,11 @@ func makeInternalKey(dst, ukey []byte, seq uint64, kt keyType) internalKey {
panic("leveldb: invalid type")
}
dst = ensureBuffer(dst, len(ukey)+8)
if n := len(ukey) + 8; cap(dst) < n {
dst = make([]byte, n)
} else {
dst = dst[:n]
}
copy(dst, ukey)
binary.LittleEndian.PutUint64(dst[len(ukey):], (seq<<8)|uint64(kt))
return internalKey(dst)
@ -139,5 +143,5 @@ func (ik internalKey) String() string {
if ukey, seq, kt, err := parseInternalKey(ik); err == nil {
return fmt.Sprintf("%s,%s%d", shorten(string(ukey)), kt, seq)
}
return fmt.Sprintf("<invalid:%#x>", []byte(ik))
return "<invalid>"
}

View File

@ -17,7 +17,6 @@ import (
"github.com/syndtr/goleveldb/leveldb/util"
)
// Common errors.
var (
ErrNotFound = errors.ErrNotFound
ErrIterReleased = errors.New("leveldb/memdb: iterator released")
@ -386,7 +385,7 @@ func (p *DB) Find(key []byte) (rkey, value []byte, err error) {
}
// NewIterator returns an iterator of the DB.
// The returned iterator is not safe for concurrent use, but it is safe to use
// The returned iterator is not goroutine-safe, but it is safe to use
// multiple iterators concurrently, with each in a dedicated goroutine.
// It is also safe to use an iterator concurrently with modifying its
// underlying DB. However, the resultant key/value pairs are not guaranteed
@ -412,7 +411,7 @@ func (p *DB) Capacity() int {
}
// Size returns sum of keys and values length. Note that deleted
// key/value will not be accounted for, but it will still consume
// key/value will not be accouted for, but it will still consume
// the buffer, since the buffer is append only.
func (p *DB) Size() int {
p.mu.RLock()
@ -454,14 +453,11 @@ func (p *DB) Reset() {
p.mu.Unlock()
}
// New creates a new initialized in-memory key/value DB. The capacity
// New creates a new initalized in-memory key/value DB. The capacity
// is the initial key/value buffer capacity. The capacity is advisory,
// not enforced.
//
// This DB is append-only, deleting an entry would remove entry node but not
// reclaim KV buffer.
//
// The returned DB instance is safe for concurrent use.
// The returned DB instance is goroutine-safe.
func New(cmp comparer.BasicComparer, capacity int) *DB {
p := &DB{
cmp: cmp,

View File

@ -312,11 +312,6 @@ type Options struct {
// The default is false.
NoSync bool
// NoWriteMerge allows disabling write merge.
//
// The default is false.
NoWriteMerge bool
// OpenFilesCacher provides cache algorithm for open files caching.
// Specify NoCacher to disable caching algorithm.
//
@ -548,13 +543,6 @@ func (o *Options) GetNoSync() bool {
return o.NoSync
}
func (o *Options) GetNoWriteMerge() bool {
if o == nil {
return false
}
return o.NoWriteMerge
}
func (o *Options) GetOpenFilesCacher() Cacher {
if o == nil || o.OpenFilesCacher == nil {
return DefaultOpenFilesCacher
@ -641,11 +629,6 @@ func (ro *ReadOptions) GetStrict(strict Strict) bool {
// WriteOptions holds the optional parameters for 'write operation'. The
// 'write operation' includes Write, Put and Delete.
type WriteOptions struct {
// NoWriteMerge allows disabling write merge.
//
// The default is false.
NoWriteMerge bool
// Sync is whether to sync underlying writes from the OS buffer cache
// through to actual disk, if applicable. Setting Sync can result in
// slower writes.
@ -661,13 +644,6 @@ type WriteOptions struct {
Sync bool
}
func (wo *WriteOptions) GetNoWriteMerge() bool {
if wo == nil {
return false
}
return wo.NoWriteMerge
}
func (wo *WriteOptions) GetSync() bool {
if wo == nil {
return false

View File

@ -18,8 +18,7 @@ import (
"github.com/syndtr/goleveldb/leveldb/storage"
)
// ErrManifestCorrupted records manifest corruption. This error will be
// wrapped with errors.ErrCorrupted.
// ErrManifestCorrupted records manifest corruption.
type ErrManifestCorrupted struct {
Field string
Reason string
@ -43,11 +42,10 @@ type session struct {
stSeqNum uint64 // last mem compacted seq; need external synchronization
stor storage.Storage
storLock storage.Locker
storLock storage.Lock
o *cachedOptions
icmp *iComparer
tops *tOps
fileRef map[int64]int
manifest *journal.Writer
manifestWriter storage.Writer
@ -70,7 +68,6 @@ func newSession(stor storage.Storage, o *opt.Options) (s *session, err error) {
s = &session{
stor: stor,
storLock: storLock,
fileRef: make(map[int64]int),
}
s.setOptions(o)
s.tops = newTableOps(s)
@ -90,12 +87,12 @@ func (s *session) close() {
}
s.manifest = nil
s.manifestWriter = nil
s.setVersion(&version{s: s, closing: true})
s.stVersion = nil
}
// Release session lock.
func (s *session) release() {
s.storLock.Unlock()
s.storLock.Release()
}
// Create a new database session; need external synchronization.

View File

@ -39,18 +39,6 @@ func (s *session) newTemp() storage.FileDesc {
return storage.FileDesc{storage.TypeTemp, num}
}
func (s *session) addFileRef(fd storage.FileDesc, ref int) int {
ref += s.fileRef[fd.Num]
if ref > 0 {
s.fileRef[fd.Num] = ref
} else if ref == 0 {
delete(s.fileRef, fd.Num)
} else {
panic(fmt.Sprintf("negative ref: %v", fd))
}
return ref
}
// Session state.
// Get current version. This will incr version ref, must call
@ -58,28 +46,21 @@ func (s *session) addFileRef(fd storage.FileDesc, ref int) int {
func (s *session) version() *version {
s.vmu.Lock()
defer s.vmu.Unlock()
s.stVersion.incref()
s.stVersion.ref++
return s.stVersion
}
func (s *session) tLen(level int) int {
s.vmu.Lock()
defer s.vmu.Unlock()
return s.stVersion.tLen(level)
}
// Set current version to v.
func (s *session) setVersion(v *version) {
s.vmu.Lock()
defer s.vmu.Unlock()
// Hold by session. It is important to call this first before releasing
// current version, otherwise the still used files might get released.
v.incref()
if s.stVersion != nil {
// Release current version.
s.stVersion.releaseNB()
v.ref = 1 // Holds by session.
if old := s.stVersion; old != nil {
v.ref++ // Holds by old version.
old.next = v
old.releaseNB()
}
s.stVersion = v
s.vmu.Unlock()
}
// Get current unused file number.
@ -216,7 +197,7 @@ func (s *session) newManifest(rec *sessionRecord, v *version) (err error) {
if s.manifestWriter != nil {
s.manifestWriter.Close()
}
if !s.manifestFd.Zero() {
if !s.manifestFd.Nil() {
s.stor.Remove(s.manifestFd)
}
s.manifestFd = fd

View File

@ -32,7 +32,7 @@ type fileStorageLock struct {
fs *fileStorage
}
func (lock *fileStorageLock) Unlock() {
func (lock *fileStorageLock) Release() {
if lock.fs != nil {
lock.fs.mu.Lock()
defer lock.fs.mu.Unlock()
@ -116,7 +116,7 @@ func OpenFile(path string, readOnly bool) (Storage, error) {
return fs, nil
}
func (fs *fileStorage) Lock() (Locker, error) {
func (fs *fileStorage) Lock() (Lock, error) {
fs.mu.Lock()
defer fs.mu.Unlock()
if fs.open < 0 {
@ -323,7 +323,7 @@ func (fs *fileStorage) GetMeta() (fd FileDesc, err error) {
}
}
// Don't remove any files if there is no valid CURRENT file.
if fd.Zero() {
if fd.Nil() {
if cerr != nil {
err = cerr
} else {

View File

@ -1,34 +0,0 @@
// Copyright (c) 2012, Suryandaru Triandana <syndtr@gmail.com>
// All rights reserved.
//
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// +build nacl
package storage
import (
"os"
"syscall"
)
func newFileLock(path string, readOnly bool) (fl fileLock, err error) {
return nil, syscall.ENOTSUP
}
func setFileLock(f *os.File, readOnly, lock bool) error {
return syscall.ENOTSUP
}
func rename(oldpath, newpath string) error {
return syscall.ENOTSUP
}
func isErrInvalid(err error) bool {
return false
}
func syncDir(name string) error {
return syscall.ENOTSUP
}

View File

@ -18,7 +18,7 @@ type memStorageLock struct {
ms *memStorage
}
func (lock *memStorageLock) Unlock() {
func (lock *memStorageLock) Release() {
ms := lock.ms
ms.mu.Lock()
defer ms.mu.Unlock()
@ -43,7 +43,7 @@ func NewMemStorage() Storage {
}
}
func (ms *memStorage) Lock() (Locker, error) {
func (ms *memStorage) Lock() (Lock, error) {
ms.mu.Lock()
defer ms.mu.Unlock()
if ms.slock != nil {
@ -69,7 +69,7 @@ func (ms *memStorage) SetMeta(fd FileDesc) error {
func (ms *memStorage) GetMeta() (FileDesc, error) {
ms.mu.Lock()
defer ms.mu.Unlock()
if ms.meta.Zero() {
if ms.meta.Nil() {
return FileDesc{}, os.ErrNotExist
}
return ms.meta, nil
@ -78,7 +78,7 @@ func (ms *memStorage) GetMeta() (FileDesc, error) {
func (ms *memStorage) List(ft FileType) ([]FileDesc, error) {
ms.mu.Lock()
var fds []FileDesc
for x := range ms.files {
for x, _ := range ms.files {
fd := unpackFile(x)
if fd.Type&ft != 0 {
fds = append(fds, fd)

View File

@ -11,12 +11,12 @@ import (
"errors"
"fmt"
"io"
"github.com/syndtr/goleveldb/leveldb/util"
)
// FileType represent a file type.
type FileType int
// File types.
const (
TypeManifest FileType = 1 << iota
TypeJournal
@ -40,7 +40,6 @@ func (t FileType) String() string {
return fmt.Sprintf("<unknown:%d>", t)
}
// Common error.
var (
ErrInvalidFile = errors.New("leveldb/storage: invalid file for argument")
ErrLocked = errors.New("leveldb/storage: already locked")
@ -56,10 +55,11 @@ type ErrCorrupted struct {
}
func (e *ErrCorrupted) Error() string {
if !e.Fd.Zero() {
if !e.Fd.Nil() {
return fmt.Sprintf("%v [file=%v]", e.Err, e.Fd)
} else {
return e.Err.Error()
}
return e.Err.Error()
}
// Syncer is the interface that wraps basic Sync method.
@ -83,12 +83,11 @@ type Writer interface {
Syncer
}
// Locker is the interface that wraps Unlock method.
type Locker interface {
Unlock()
type Lock interface {
util.Releaser
}
// FileDesc is a 'file descriptor'.
// FileDesc is a file descriptor.
type FileDesc struct {
Type FileType
Num int64
@ -109,12 +108,12 @@ func (fd FileDesc) String() string {
}
}
// Zero returns true if fd == (FileDesc{}).
func (fd FileDesc) Zero() bool {
// Nil returns true if fd == (FileDesc{}).
func (fd FileDesc) Nil() bool {
return fd == (FileDesc{})
}
// FileDescOk returns true if fd is a valid 'file descriptor'.
// FileDescOk returns true if fd is a valid file descriptor.
func FileDescOk(fd FileDesc) bool {
switch fd.Type {
case TypeManifest:
@ -127,44 +126,43 @@ func FileDescOk(fd FileDesc) bool {
return fd.Num >= 0
}
// Storage is the storage. A storage instance must be safe for concurrent use.
// Storage is the storage. A storage instance must be goroutine-safe.
type Storage interface {
// Lock locks the storage. Any subsequent attempt to call Lock will fail
// until the last lock released.
// Caller should call Unlock method after use.
Lock() (Locker, error)
// After use the caller should call the Release method.
Lock() (Lock, error)
// Log logs a string. This is used for logging.
// An implementation may write to a file, stdout or simply do nothing.
Log(str string)
// SetMeta store 'file descriptor' that can later be acquired using GetMeta
// method. The 'file descriptor' should point to a valid file.
// SetMeta should be implemented in such way that changes should happen
// SetMeta sets to point to the given fd, which then can be acquired using
// GetMeta method.
// SetMeta should be implemented in such way that changes should happened
// atomically.
SetMeta(fd FileDesc) error
// GetMeta returns 'file descriptor' stored in meta. The 'file descriptor'
// can be updated using SetMeta method.
// Returns os.ErrNotExist if meta doesn't store any 'file descriptor', or
// 'file descriptor' point to nonexistent file.
// GetManifest returns a manifest file.
// Returns os.ErrNotExist if meta doesn't point to any fd, or point to fd
// that doesn't exist.
GetMeta() (FileDesc, error)
// List returns file descriptors that match the given file types.
// List returns fds that match the given file types.
// The file types may be OR'ed together.
List(ft FileType) ([]FileDesc, error)
// Open opens file with the given 'file descriptor' read-only.
// Open opens file with the given fd read-only.
// Returns os.ErrNotExist error if the file does not exist.
// Returns ErrClosed if the underlying storage is closed.
Open(fd FileDesc) (Reader, error)
// Create creates file with the given 'file descriptor', truncate if already
// exist and opens write-only.
// Create creates file with the given fd, truncate if already exist and
// opens write-only.
// Returns ErrClosed if the underlying storage is closed.
Create(fd FileDesc) (Writer, error)
// Remove removes file with the given 'file descriptor'.
// Remove removes file with the given fd.
// Returns ErrClosed if the underlying storage is closed.
Remove(fd FileDesc) error

View File

@ -434,7 +434,7 @@ func (t *tOps) close() {
t.bpool.Close()
t.cache.Close()
if t.bcache != nil {
t.bcache.CloseWeak()
t.bcache.Close()
}
}

View File

@ -26,15 +26,12 @@ import (
"github.com/syndtr/goleveldb/leveldb/util"
)
// Reader errors.
var (
ErrNotFound = errors.ErrNotFound
ErrReaderReleased = errors.New("leveldb/table: reader released")
ErrIterReleased = errors.New("leveldb/table: iterator released")
)
// ErrCorrupted describes error due to corruption. This error will be wrapped
// with errors.ErrCorrupted.
type ErrCorrupted struct {
Pos int64
Size int64
@ -64,7 +61,7 @@ type block struct {
func (b *block) seek(cmp comparer.Comparer, rstart, rlimit int, key []byte) (index, offset int, err error) {
index = sort.Search(b.restartsLen-rstart-(b.restartsLen-rlimit), func(i int) bool {
offset := int(binary.LittleEndian.Uint32(b.data[b.restartsOffset+4*(rstart+i):]))
offset++ // shared always zero, since this is a restart point
offset += 1 // shared always zero, since this is a restart point
v1, n1 := binary.Uvarint(b.data[offset:]) // key length
_, n2 := binary.Uvarint(b.data[offset+n1:]) // value length
m := offset + n1 + n2
@ -359,7 +356,7 @@ func (i *blockIter) Prev() bool {
i.value = nil
offset := i.block.restartOffset(ri)
if offset == i.offset {
ri--
ri -= 1
if ri < 0 {
i.dir = dirSOI
return false
@ -581,7 +578,6 @@ func (r *Reader) readRawBlock(bh blockHandle, verifyChecksum bool) ([]byte, erro
case blockTypeSnappyCompression:
decLen, err := snappy.DecodedLen(data[:bh.length])
if err != nil {
r.bpool.Put(data)
return nil, r.newErrCorruptedBH(bh, err.Error())
}
decData := r.bpool.Get(decLen)
@ -787,8 +783,8 @@ func (r *Reader) getDataIterErr(dataBH blockHandle, slice *util.Range, verifyChe
// table. And a nil Range.Limit is treated as a key after all keys in
// the table.
//
// The returned iterator is not safe for concurrent use and should be released
// after use.
// The returned iterator is not goroutine-safe and should be released
// when not used.
//
// Also read Iterator documentation of the leveldb/iterator package.
func (r *Reader) NewIterator(slice *util.Range, ro *opt.ReadOptions) iterator.Iterator {
@ -830,21 +826,18 @@ func (r *Reader) find(key []byte, filtered bool, ro *opt.ReadOptions, noValue bo
index := r.newBlockIter(indexBlock, nil, nil, true)
defer index.Release()
if !index.Seek(key) {
if err = index.Error(); err == nil {
err = index.Error()
if err == nil {
err = ErrNotFound
}
return
}
dataBH, n := decodeBlockHandle(index.Value())
if n == 0 {
r.err = r.newErrCorruptedBH(r.indexBH, "bad data block handle")
return nil, nil, r.err
return
}
// The filter should only used for exact match.
if filtered && r.filter != nil {
filterBlock, frel, ferr := r.getFilterBlock(true)
if ferr == nil {
@ -854,53 +847,30 @@ func (r *Reader) find(key []byte, filtered bool, ro *opt.ReadOptions, noValue bo
}
frel.Release()
} else if !errors.IsCorrupted(ferr) {
return nil, nil, ferr
err = ferr
return
}
}
data := r.getDataIter(dataBH, nil, r.verifyChecksum, !ro.GetDontFillCache())
defer data.Release()
if !data.Seek(key) {
data.Release()
if err = data.Error(); err != nil {
return
}
// The nearest greater-than key is the first key of the next block.
if !index.Next() {
if err = index.Error(); err == nil {
err = ErrNotFound
}
return
}
dataBH, n = decodeBlockHandle(index.Value())
if n == 0 {
r.err = r.newErrCorruptedBH(r.indexBH, "bad data block handle")
return nil, nil, r.err
}
data = r.getDataIter(dataBH, nil, r.verifyChecksum, !ro.GetDontFillCache())
if !data.Next() {
data.Release()
if err = data.Error(); err == nil {
err = ErrNotFound
}
return
err = data.Error()
if err == nil {
err = ErrNotFound
}
return
}
// Key doesn't use block buffer, no need to copy the buffer.
// Don't use block buffer, no need to copy the buffer.
rkey = data.Key()
if !noValue {
if r.bpool == nil {
value = data.Value()
} else {
// Value does use block buffer, and since the buffer will be
// recycled, it need to be copied.
// Use block buffer, and since the buffer will be recycled, the buffer
// need to be copied.
value = append([]byte{}, data.Value()...)
}
}
data.Release()
return
}
@ -918,7 +888,7 @@ func (r *Reader) Find(key []byte, filtered bool, ro *opt.ReadOptions) (rkey, val
return r.find(key, filtered, ro, false)
}
// FindKey finds key that is greater than or equal to the given key.
// Find finds key that is greater than or equal to the given key.
// It returns ErrNotFound if the table doesn't contain such key.
// If filtered is true then the nearest 'block' will be checked against
// 'filter data' (if present) and will immediately return ErrNotFound if
@ -1017,7 +987,7 @@ func (r *Reader) Release() {
// NewReader creates a new initialized table reader for the file.
// The fi, cache and bpool is optional and can be nil.
//
// The returned table reader instance is safe for concurrent use.
// The returned table reader instance is goroutine-safe.
func NewReader(f io.ReaderAt, size int64, fd storage.FileDesc, cache *cache.NamespaceGetter, bpool *util.BufferPool, o *opt.Options) (*Reader, error) {
if f == nil {
return nil, errors.New("leveldb/table: nil file")
@ -1069,8 +1039,9 @@ func NewReader(f io.ReaderAt, size int64, fd storage.FileDesc, cache *cache.Name
if errors.IsCorrupted(err) {
r.err = err
return r, nil
} else {
return nil, err
}
return nil, err
}
// Set data end.
@ -1115,8 +1086,9 @@ func NewReader(f io.ReaderAt, size int64, fd storage.FileDesc, cache *cache.Name
if errors.IsCorrupted(err) {
r.err = err
return r, nil
} else {
return nil, err
}
return nil, err
}
if r.filter != nil {
r.filterBlock, err = r.readFilterBlock(r.filterBH)

View File

@ -349,7 +349,7 @@ func (w *Writer) Close() error {
// NewWriter creates a new initialized table writer for the file.
//
// Table writer is not safe for concurrent use.
// Table writer is not goroutine-safe.
func NewWriter(f io.Writer, o *opt.Options) *Writer {
w := &Writer{
writer: f,

View File

@ -89,10 +89,3 @@ func (p fdSorter) Swap(i, j int) {
func sortFds(fds []storage.FileDesc) {
sort.Sort(fdSorter(fds))
}
func ensureBuffer(b []byte, n int) []byte {
if cap(b) < n {
return make([]byte, n)
}
return b[:n]
}

View File

@ -34,48 +34,43 @@ type version struct {
cSeek unsafe.Pointer
closing bool
ref int
released bool
ref int
// Succeeding version.
next *version
}
func newVersion(s *session) *version {
return &version{s: s}
}
func (v *version) incref() {
if v.released {
panic("already released")
}
v.ref++
if v.ref == 1 {
// Incr file ref.
for _, tt := range v.levels {
for _, t := range tt {
v.s.addFileRef(t.fd, 1)
}
}
}
}
func (v *version) releaseNB() {
v.ref--
if v.ref > 0 {
return
} else if v.ref < 0 {
}
if v.ref < 0 {
panic("negative version ref")
}
nextTables := make(map[int64]bool)
for _, tt := range v.next.levels {
for _, t := range tt {
num := t.fd.Num
nextTables[num] = true
}
}
for _, tt := range v.levels {
for _, t := range tt {
if v.s.addFileRef(t.fd, -1) == 0 {
num := t.fd.Num
if _, ok := nextTables[num]; !ok {
v.s.tops.remove(t)
}
}
}
v.released = true
v.next.releaseNB()
v.next = nil
}
func (v *version) release() {
@ -136,10 +131,6 @@ func (v *version) walkOverlapping(aux tFiles, ikey internalKey, f func(level int
}
func (v *version) get(aux tFiles, ikey internalKey, ro *opt.ReadOptions, noValue bool) (value []byte, tcomp bool, err error) {
if v.closing {
return nil, false, ErrClosed
}
ukey := ikey.ukey()
var (

6
glide.lock generated
View File

@ -1,5 +1,5 @@
hash: b1848c39932685b6791ef2b3eaf9840bfe4591706f0a53cc83b52833be63d545
updated: 2017-03-12T16:13:15.751664496+08:00
hash: bb587732cf0325595c4805c0351a47c2410c86e3aa279c4cc7c8959d2221631c
updated: 2017-03-14T21:51:57.391664488+08:00
imports:
- name: github.com/BurntSushi/toml
version: bbd5bb678321a0d6e58f1099321dfa73391c1b6f
@ -32,7 +32,7 @@ imports:
- name: github.com/siddontang/rdb
version: fc89ed2e418d27e3ea76e708e54276d2b44ae9cf
- name: github.com/syndtr/goleveldb
version: 3c5717caf1475fd25964109a0fc640bd150fce43
version: cfa635847112c5dc4782e128fa7e0d05fdbfb394
subpackages:
- leveldb
- leveldb/cache

View File

@ -24,7 +24,7 @@ import:
- package: github.com/siddontang/rdb
version: fc89ed2e418d27e3ea76e708e54276d2b44ae9cf
- package: github.com/syndtr/goleveldb
version: 3c5717caf1475fd25964109a0fc640bd150fce43
version: cfa635847112c5dc4782e128fa7e0d05fdbfb394
subpackages:
- leveldb
- leveldb/cache

View File

@ -75,12 +75,9 @@ func (w *WriteBatch) commit(wb *WriteOptions) error {
return nil
}
const batchDataHeadLen = 12
func (w *WriteBatch) Data() []byte {
var vallen C.size_t
value := C.rocksdb_writebatch_data(w.wbatch, &vallen)
buf := slice(unsafe.Pointer(value), int(vallen))
return buf[batchDataHeadLen:]
return slice(unsafe.Pointer(value), int(vallen))
}

View File

@ -358,7 +358,7 @@ func testBatchData(db *DB, t *testing.T) {
expected := []BatchItem{
{[]byte("a"), []byte("1")},
{[]byte("b"), []byte(nil)},
{[]byte("b"), []byte{}},
{[]byte("c"), nil},
}