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// Copyright 2015 The etcd Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package mvcc
import (
"sort"
"sync"
"github.com/google/btree"
"go.uber.org/zap"
)
type index interface {
Get(key []byte, atRev int64) (rev, created revision, ver int64, err error)
Range(key, end []byte, atRev int64) ([][]byte, []revision)
Revisions(key, end []byte, atRev int64) []revision
Put(key []byte, rev revision)
Tombstone(key []byte, rev revision) error
RangeSince(key, end []byte, rev int64) []revision
Compact(rev int64) map[revision]struct{}
Keep(rev int64) map[revision]struct{}
Equal(b index) bool
Insert(ki *keyIndex)
KeyIndex(ki *keyIndex) *keyIndex
}
type treeIndex struct {
sync.RWMutex
tree *btree.BTree
lg *zap.Logger
}
func newTreeIndex(lg *zap.Logger) index {
return &treeIndex{
tree: btree.New(32),
lg: lg,
}
}
func (ti *treeIndex) Put(key []byte, rev revision) {
keyi := &keyIndex{key: key}
ti.Lock()
defer ti.Unlock()
item := ti.tree.Get(keyi)
if item == nil {
keyi.put(ti.lg, rev.main, rev.sub)
ti.tree.ReplaceOrInsert(keyi)
return
}
okeyi := item.(*keyIndex)
okeyi.put(ti.lg, rev.main, rev.sub)
}
func (ti *treeIndex) Get(key []byte, atRev int64) (modified, created revision, ver int64, err error) {
keyi := &keyIndex{key: key}
ti.RLock()
defer ti.RUnlock()
if keyi = ti.keyIndex(keyi); keyi == nil {
return revision{}, revision{}, 0, ErrRevisionNotFound
}
return keyi.get(ti.lg, atRev)
}
func (ti *treeIndex) KeyIndex(keyi *keyIndex) *keyIndex {
ti.RLock()
defer ti.RUnlock()
return ti.keyIndex(keyi)
}
func (ti *treeIndex) keyIndex(keyi *keyIndex) *keyIndex {
if item := ti.tree.Get(keyi); item != nil {
return item.(*keyIndex)
}
return nil
}
func (ti *treeIndex) visit(key, end []byte, f func(ki *keyIndex)) {
keyi, endi := &keyIndex{key: key}, &keyIndex{key: end}
ti.RLock()
defer ti.RUnlock()
ti.tree.AscendGreaterOrEqual(keyi, func(item btree.Item) bool {
if len(endi.key) > 0 && !item.Less(endi) {
return false
}
f(item.(*keyIndex))
return true
})
}
func (ti *treeIndex) Revisions(key, end []byte, atRev int64) (revs []revision) {
if end == nil {
rev, _, _, err := ti.Get(key, atRev)
if err != nil {
return nil
}
return []revision{rev}
}
ti.visit(key, end, func(ki *keyIndex) {
if rev, _, _, err := ki.get(ti.lg, atRev); err == nil {
revs = append(revs, rev)
}
})
return revs
}
func (ti *treeIndex) Range(key, end []byte, atRev int64) (keys [][]byte, revs []revision) {
if end == nil {
rev, _, _, err := ti.Get(key, atRev)
if err != nil {
return nil, nil
}
return [][]byte{key}, []revision{rev}
}
ti.visit(key, end, func(ki *keyIndex) {
if rev, _, _, err := ki.get(ti.lg, atRev); err == nil {
revs = append(revs, rev)
keys = append(keys, ki.key)
}
})
return keys, revs
}
func (ti *treeIndex) Tombstone(key []byte, rev revision) error {
keyi := &keyIndex{key: key}
ti.Lock()
defer ti.Unlock()
item := ti.tree.Get(keyi)
if item == nil {
return ErrRevisionNotFound
}
ki := item.(*keyIndex)
return ki.tombstone(ti.lg, rev.main, rev.sub)
}
// RangeSince returns all revisions from key(including) to end(excluding)
// at or after the given rev. The returned slice is sorted in the order
// of revision.
func (ti *treeIndex) RangeSince(key, end []byte, rev int64) []revision {
keyi := &keyIndex{key: key}
ti.RLock()
defer ti.RUnlock()
if end == nil {
item := ti.tree.Get(keyi)
if item == nil {
return nil
}
keyi = item.(*keyIndex)
return keyi.since(ti.lg, rev)
}
endi := &keyIndex{key: end}
var revs []revision
ti.tree.AscendGreaterOrEqual(keyi, func(item btree.Item) bool {
if len(endi.key) > 0 && !item.Less(endi) {
return false
}
curKeyi := item.(*keyIndex)
revs = append(revs, curKeyi.since(ti.lg, rev)...)
return true
})
sort.Sort(revisions(revs))
return revs
}
func (ti *treeIndex) Compact(rev int64) map[revision]struct{} {
available := make(map[revision]struct{})
if ti.lg != nil {
ti.lg.Info("compact tree index", zap.Int64("revision", rev))
} else {
plog.Printf("store.index: compact %d", rev)
}
ti.Lock()
clone := ti.tree.Clone()
ti.Unlock()
clone.Ascend(func(item btree.Item) bool {
keyi := item.(*keyIndex)
//Lock is needed here to prevent modification to the keyIndex while
//compaction is going on or revision added to empty before deletion
ti.Lock()
keyi.compact(ti.lg, rev, available)
if keyi.isEmpty() {
item := ti.tree.Delete(keyi)
if item == nil {
if ti.lg != nil {
ti.lg.Panic("failed to delete during compaction")
} else {
plog.Panic("store.index: unexpected delete failure during compaction")
}
}
}
ti.Unlock()
return true
})
return available
}
// Keep finds all revisions to be kept for a Compaction at the given rev.
func (ti *treeIndex) Keep(rev int64) map[revision]struct{} {
available := make(map[revision]struct{})
ti.RLock()
defer ti.RUnlock()
ti.tree.Ascend(func(i btree.Item) bool {
keyi := i.(*keyIndex)
keyi.keep(rev, available)
return true
})
return available
}
func (ti *treeIndex) Equal(bi index) bool {
b := bi.(*treeIndex)
if ti.tree.Len() != b.tree.Len() {
return false
}
equal := true
ti.tree.Ascend(func(item btree.Item) bool {
aki := item.(*keyIndex)
bki := b.tree.Get(item).(*keyIndex)
if !aki.equal(bki) {
equal = false
return false
}
return true
})
return equal
}
func (ti *treeIndex) Insert(ki *keyIndex) {
ti.Lock()
defer ti.Unlock()
ti.tree.ReplaceOrInsert(ki)
}