forked from gitea/gitea
359 lines
7.7 KiB
Go
359 lines
7.7 KiB
Go
// Copyright (c) 2012, Suryandaru Triandana <syndtr@gmail.com>
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// All rights reserved.
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//
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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package leveldb
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import (
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"time"
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"github.com/syndtr/goleveldb/leveldb/memdb"
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"github.com/syndtr/goleveldb/leveldb/opt"
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"github.com/syndtr/goleveldb/leveldb/util"
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)
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func (db *DB) writeJournal(b *Batch) error {
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w, err := db.journal.Next()
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if err != nil {
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return err
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}
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if _, err := w.Write(b.encode()); err != nil {
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return err
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}
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if err := db.journal.Flush(); err != nil {
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return err
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}
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if b.sync {
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return db.journalWriter.Sync()
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}
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return nil
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}
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func (db *DB) jWriter() {
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defer db.closeW.Done()
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for {
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select {
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case b := <-db.journalC:
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if b != nil {
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db.journalAckC <- db.writeJournal(b)
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}
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case _, _ = <-db.closeC:
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return
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}
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}
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}
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func (db *DB) rotateMem(n int, wait bool) (mem *memDB, err error) {
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// Wait for pending memdb compaction.
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err = db.compTriggerWait(db.mcompCmdC)
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if err != nil {
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return
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}
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// Create new memdb and journal.
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mem, err = db.newMem(n)
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if err != nil {
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return
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}
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// Schedule memdb compaction.
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if wait {
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err = db.compTriggerWait(db.mcompCmdC)
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} else {
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db.compTrigger(db.mcompCmdC)
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}
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return
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}
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func (db *DB) flush(n int) (mdb *memDB, mdbFree int, err error) {
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delayed := false
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flush := func() (retry bool) {
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v := db.s.version()
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defer v.release()
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mdb = db.getEffectiveMem()
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defer func() {
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if retry {
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mdb.decref()
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mdb = nil
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}
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}()
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mdbFree = mdb.Free()
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switch {
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case v.tLen(0) >= db.s.o.GetWriteL0SlowdownTrigger() && !delayed:
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delayed = true
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time.Sleep(time.Millisecond)
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case mdbFree >= n:
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return false
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case v.tLen(0) >= db.s.o.GetWriteL0PauseTrigger():
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delayed = true
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err = db.compTriggerWait(db.tcompCmdC)
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if err != nil {
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return false
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}
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default:
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// Allow memdb to grow if it has no entry.
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if mdb.Len() == 0 {
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mdbFree = n
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} else {
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mdb.decref()
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mdb, err = db.rotateMem(n, false)
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if err == nil {
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mdbFree = mdb.Free()
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} else {
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mdbFree = 0
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}
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}
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return false
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}
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return true
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}
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start := time.Now()
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for flush() {
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}
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if delayed {
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db.writeDelay += time.Since(start)
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db.writeDelayN++
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} else if db.writeDelayN > 0 {
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db.logf("db@write was delayed N·%d T·%v", db.writeDelayN, db.writeDelay)
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db.writeDelay = 0
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db.writeDelayN = 0
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}
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return
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}
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// Write apply the given batch to the DB. The batch will be applied
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// sequentially.
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//
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// It is safe to modify the contents of the arguments after Write returns.
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func (db *DB) Write(b *Batch, wo *opt.WriteOptions) (err error) {
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err = db.ok()
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if err != nil || b == nil || b.Len() == 0 {
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return
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}
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b.init(wo.GetSync() && !db.s.o.GetNoSync())
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if b.size() > db.s.o.GetWriteBuffer() && !db.s.o.GetDisableLargeBatchTransaction() {
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// Writes using transaction.
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tr, err1 := db.OpenTransaction()
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if err1 != nil {
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return err1
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}
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if err1 := tr.Write(b, wo); err1 != nil {
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tr.Discard()
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return err1
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}
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return tr.Commit()
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}
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// The write happen synchronously.
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select {
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case db.writeC <- b:
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if <-db.writeMergedC {
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return <-db.writeAckC
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}
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// Continue, the write lock already acquired by previous writer
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// and handed out to us.
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case db.writeLockC <- struct{}{}:
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case err = <-db.compPerErrC:
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return
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case _, _ = <-db.closeC:
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return ErrClosed
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}
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merged := 0
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danglingMerge := false
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defer func() {
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for i := 0; i < merged; i++ {
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db.writeAckC <- err
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}
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if danglingMerge {
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// Only one dangling merge at most, so this is safe.
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db.writeMergedC <- false
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} else {
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<-db.writeLockC
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}
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}()
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mdb, mdbFree, err := db.flush(b.size())
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if err != nil {
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return
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}
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defer mdb.decref()
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// Calculate maximum size of the batch.
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m := 1 << 20
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if x := b.size(); x <= 128<<10 {
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m = x + (128 << 10)
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}
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m = minInt(m, mdbFree)
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// Merge with other batch.
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drain:
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for b.size() < m && !b.sync {
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select {
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case nb := <-db.writeC:
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if b.size()+nb.size() <= m {
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b.append(nb)
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db.writeMergedC <- true
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merged++
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} else {
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danglingMerge = true
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break drain
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}
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default:
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break drain
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}
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}
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// Set batch first seq number relative from last seq.
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b.seq = db.seq + 1
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// Write journal concurrently if it is large enough.
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if b.size() >= (128 << 10) {
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// Push the write batch to the journal writer
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select {
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case db.journalC <- b:
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// Write into memdb
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if berr := b.memReplay(mdb.DB); berr != nil {
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panic(berr)
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}
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case err = <-db.compPerErrC:
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return
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case _, _ = <-db.closeC:
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err = ErrClosed
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return
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}
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// Wait for journal writer
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select {
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case err = <-db.journalAckC:
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if err != nil {
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// Revert memdb if error detected
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if berr := b.revertMemReplay(mdb.DB); berr != nil {
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panic(berr)
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}
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return
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}
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case _, _ = <-db.closeC:
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err = ErrClosed
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return
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}
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} else {
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err = db.writeJournal(b)
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if err != nil {
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return
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}
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if berr := b.memReplay(mdb.DB); berr != nil {
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panic(berr)
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}
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}
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// Set last seq number.
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db.addSeq(uint64(b.Len()))
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if b.size() >= mdbFree {
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db.rotateMem(0, false)
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}
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return
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}
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// Put sets the value for the given key. It overwrites any previous value
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// for that key; a DB is not a multi-map.
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//
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// It is safe to modify the contents of the arguments after Put returns.
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func (db *DB) Put(key, value []byte, wo *opt.WriteOptions) error {
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b := new(Batch)
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b.Put(key, value)
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return db.Write(b, wo)
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}
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// Delete deletes the value for the given key.
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//
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// It is safe to modify the contents of the arguments after Delete returns.
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func (db *DB) Delete(key []byte, wo *opt.WriteOptions) error {
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b := new(Batch)
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b.Delete(key)
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return db.Write(b, wo)
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}
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func isMemOverlaps(icmp *iComparer, mem *memdb.DB, min, max []byte) bool {
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iter := mem.NewIterator(nil)
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defer iter.Release()
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return (max == nil || (iter.First() && icmp.uCompare(max, internalKey(iter.Key()).ukey()) >= 0)) &&
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(min == nil || (iter.Last() && icmp.uCompare(min, internalKey(iter.Key()).ukey()) <= 0))
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}
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// CompactRange compacts the underlying DB for the given key range.
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// In particular, deleted and overwritten versions are discarded,
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// and the data is rearranged to reduce the cost of operations
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// needed to access the data. This operation should typically only
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// be invoked by users who understand the underlying implementation.
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//
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// A nil Range.Start is treated as a key before all keys in the DB.
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// And a nil Range.Limit is treated as a key after all keys in the DB.
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// Therefore if both is nil then it will compact entire DB.
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func (db *DB) CompactRange(r util.Range) error {
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if err := db.ok(); err != nil {
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return err
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}
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// Lock writer.
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select {
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case db.writeLockC <- struct{}{}:
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case err := <-db.compPerErrC:
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return err
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case _, _ = <-db.closeC:
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return ErrClosed
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}
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// Check for overlaps in memdb.
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mdb := db.getEffectiveMem()
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defer mdb.decref()
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if isMemOverlaps(db.s.icmp, mdb.DB, r.Start, r.Limit) {
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// Memdb compaction.
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if _, err := db.rotateMem(0, false); err != nil {
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<-db.writeLockC
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return err
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}
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<-db.writeLockC
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if err := db.compTriggerWait(db.mcompCmdC); err != nil {
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return err
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}
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} else {
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<-db.writeLockC
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}
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// Table compaction.
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return db.compTriggerRange(db.tcompCmdC, -1, r.Start, r.Limit)
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}
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// SetReadOnly makes DB read-only. It will stay read-only until reopened.
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func (db *DB) SetReadOnly() error {
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if err := db.ok(); err != nil {
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return err
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}
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// Lock writer.
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select {
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case db.writeLockC <- struct{}{}:
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db.compWriteLocking = true
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case err := <-db.compPerErrC:
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return err
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case _, _ = <-db.closeC:
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return ErrClosed
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}
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// Set compaction read-only.
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select {
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case db.compErrSetC <- ErrReadOnly:
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case perr := <-db.compPerErrC:
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return perr
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case _, _ = <-db.closeC:
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return ErrClosed
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}
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return nil
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}
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