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403 lines
10 KiB
403 lines
10 KiB
// Copyright 2015 The etcd Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package mvcc
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import (
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"bytes"
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"errors"
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"fmt"
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"github.com/google/btree"
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"go.uber.org/zap"
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)
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var (
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ErrRevisionNotFound = errors.New("mvcc: revision not found")
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)
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// keyIndex stores the revisions of a key in the backend.
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// Each keyIndex has at least one key generation.
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// Each generation might have several key versions.
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// Tombstone on a key appends an tombstone version at the end
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// of the current generation and creates a new empty generation.
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// Each version of a key has an index pointing to the backend.
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//
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// For example: put(1.0);put(2.0);tombstone(3.0);put(4.0);tombstone(5.0) on key "foo"
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// generate a keyIndex:
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// key: "foo"
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// rev: 5
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// generations:
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// {empty}
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// {4.0, 5.0(t)}
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// {1.0, 2.0, 3.0(t)}
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//
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// Compact a keyIndex removes the versions with smaller or equal to
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// rev except the largest one. If the generation becomes empty
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// during compaction, it will be removed. if all the generations get
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// removed, the keyIndex should be removed.
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//
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// For example:
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// compact(2) on the previous example
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// generations:
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// {empty}
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// {4.0, 5.0(t)}
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// {2.0, 3.0(t)}
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//
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// compact(4)
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// generations:
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// {empty}
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// {4.0, 5.0(t)}
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//
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// compact(5):
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// generations:
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// {empty} -> key SHOULD be removed.
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//
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// compact(6):
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// generations:
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// {empty} -> key SHOULD be removed.
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type keyIndex struct {
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key []byte
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modified revision // the main rev of the last modification
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generations []generation
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}
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// put puts a revision to the keyIndex.
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func (ki *keyIndex) put(lg *zap.Logger, main int64, sub int64) {
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rev := revision{main: main, sub: sub}
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if !rev.GreaterThan(ki.modified) {
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if lg != nil {
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lg.Panic(
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"'put' with an unexpected smaller revision",
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zap.Int64("given-revision-main", rev.main),
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zap.Int64("given-revision-sub", rev.sub),
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zap.Int64("modified-revision-main", ki.modified.main),
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zap.Int64("modified-revision-sub", ki.modified.sub),
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)
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} else {
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plog.Panicf("store.keyindex: put with unexpected smaller revision [%v / %v]", rev, ki.modified)
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}
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}
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if len(ki.generations) == 0 {
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ki.generations = append(ki.generations, generation{})
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}
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g := &ki.generations[len(ki.generations)-1]
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if len(g.revs) == 0 { // create a new key
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keysGauge.Inc()
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g.created = rev
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}
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g.revs = append(g.revs, rev)
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g.ver++
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ki.modified = rev
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}
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func (ki *keyIndex) restore(lg *zap.Logger, created, modified revision, ver int64) {
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if len(ki.generations) != 0 {
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if lg != nil {
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lg.Panic(
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"'restore' got an unexpected non-empty generations",
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zap.Int("generations-size", len(ki.generations)),
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)
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} else {
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plog.Panicf("store.keyindex: cannot restore non-empty keyIndex")
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}
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}
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ki.modified = modified
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g := generation{created: created, ver: ver, revs: []revision{modified}}
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ki.generations = append(ki.generations, g)
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keysGauge.Inc()
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}
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// tombstone puts a revision, pointing to a tombstone, to the keyIndex.
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// It also creates a new empty generation in the keyIndex.
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// It returns ErrRevisionNotFound when tombstone on an empty generation.
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func (ki *keyIndex) tombstone(lg *zap.Logger, main int64, sub int64) error {
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if ki.isEmpty() {
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if lg != nil {
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lg.Panic(
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"'tombstone' got an unexpected empty keyIndex",
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zap.String("key", string(ki.key)),
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)
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} else {
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plog.Panicf("store.keyindex: unexpected tombstone on empty keyIndex %s", string(ki.key))
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}
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}
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if ki.generations[len(ki.generations)-1].isEmpty() {
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return ErrRevisionNotFound
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}
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ki.put(lg, main, sub)
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ki.generations = append(ki.generations, generation{})
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keysGauge.Dec()
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return nil
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}
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// get gets the modified, created revision and version of the key that satisfies the given atRev.
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// Rev must be higher than or equal to the given atRev.
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func (ki *keyIndex) get(lg *zap.Logger, atRev int64) (modified, created revision, ver int64, err error) {
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if ki.isEmpty() {
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if lg != nil {
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lg.Panic(
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"'get' got an unexpected empty keyIndex",
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zap.String("key", string(ki.key)),
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)
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} else {
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plog.Panicf("store.keyindex: unexpected get on empty keyIndex %s", string(ki.key))
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}
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}
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g := ki.findGeneration(atRev)
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if g.isEmpty() {
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return revision{}, revision{}, 0, ErrRevisionNotFound
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}
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n := g.walk(func(rev revision) bool { return rev.main > atRev })
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if n != -1 {
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return g.revs[n], g.created, g.ver - int64(len(g.revs)-n-1), nil
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}
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return revision{}, revision{}, 0, ErrRevisionNotFound
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}
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// since returns revisions since the given rev. Only the revision with the
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// largest sub revision will be returned if multiple revisions have the same
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// main revision.
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func (ki *keyIndex) since(lg *zap.Logger, rev int64) []revision {
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if ki.isEmpty() {
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if lg != nil {
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lg.Panic(
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"'since' got an unexpected empty keyIndex",
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zap.String("key", string(ki.key)),
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)
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} else {
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plog.Panicf("store.keyindex: unexpected get on empty keyIndex %s", string(ki.key))
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}
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}
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since := revision{rev, 0}
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var gi int
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// find the generations to start checking
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for gi = len(ki.generations) - 1; gi > 0; gi-- {
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g := ki.generations[gi]
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if g.isEmpty() {
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continue
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}
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if since.GreaterThan(g.created) {
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break
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}
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}
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var revs []revision
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var last int64
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for ; gi < len(ki.generations); gi++ {
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for _, r := range ki.generations[gi].revs {
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if since.GreaterThan(r) {
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continue
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}
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if r.main == last {
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// replace the revision with a new one that has higher sub value,
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// because the original one should not be seen by external
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revs[len(revs)-1] = r
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continue
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}
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revs = append(revs, r)
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last = r.main
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}
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}
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return revs
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}
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// compact compacts a keyIndex by removing the versions with smaller or equal
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// revision than the given atRev except the largest one (If the largest one is
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// a tombstone, it will not be kept).
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// If a generation becomes empty during compaction, it will be removed.
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func (ki *keyIndex) compact(lg *zap.Logger, atRev int64, available map[revision]struct{}) {
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if ki.isEmpty() {
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if lg != nil {
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lg.Panic(
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"'compact' got an unexpected empty keyIndex",
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zap.String("key", string(ki.key)),
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)
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} else {
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plog.Panicf("store.keyindex: unexpected compact on empty keyIndex %s", string(ki.key))
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}
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}
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genIdx, revIndex := ki.doCompact(atRev, available)
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g := &ki.generations[genIdx]
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if !g.isEmpty() {
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// remove the previous contents.
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if revIndex != -1 {
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g.revs = g.revs[revIndex:]
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}
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// remove any tombstone
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if len(g.revs) == 1 && genIdx != len(ki.generations)-1 {
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delete(available, g.revs[0])
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genIdx++
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}
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}
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// remove the previous generations.
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ki.generations = ki.generations[genIdx:]
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}
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// keep finds the revision to be kept if compact is called at given atRev.
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func (ki *keyIndex) keep(atRev int64, available map[revision]struct{}) {
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if ki.isEmpty() {
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return
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}
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genIdx, revIndex := ki.doCompact(atRev, available)
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g := &ki.generations[genIdx]
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if !g.isEmpty() {
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// remove any tombstone
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if revIndex == len(g.revs)-1 && genIdx != len(ki.generations)-1 {
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delete(available, g.revs[revIndex])
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}
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}
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}
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func (ki *keyIndex) doCompact(atRev int64, available map[revision]struct{}) (genIdx int, revIndex int) {
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// walk until reaching the first revision smaller or equal to "atRev",
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// and add the revision to the available map
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f := func(rev revision) bool {
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if rev.main <= atRev {
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available[rev] = struct{}{}
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return false
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}
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return true
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}
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genIdx, g := 0, &ki.generations[0]
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// find first generation includes atRev or created after atRev
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for genIdx < len(ki.generations)-1 {
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if tomb := g.revs[len(g.revs)-1].main; tomb > atRev {
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break
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}
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genIdx++
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g = &ki.generations[genIdx]
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}
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revIndex = g.walk(f)
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return genIdx, revIndex
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}
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func (ki *keyIndex) isEmpty() bool {
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return len(ki.generations) == 1 && ki.generations[0].isEmpty()
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}
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// findGeneration finds out the generation of the keyIndex that the
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// given rev belongs to. If the given rev is at the gap of two generations,
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// which means that the key does not exist at the given rev, it returns nil.
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func (ki *keyIndex) findGeneration(rev int64) *generation {
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lastg := len(ki.generations) - 1
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cg := lastg
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for cg >= 0 {
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if len(ki.generations[cg].revs) == 0 {
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cg--
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continue
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}
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g := ki.generations[cg]
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if cg != lastg {
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if tomb := g.revs[len(g.revs)-1].main; tomb <= rev {
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return nil
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}
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}
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if g.revs[0].main <= rev {
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return &ki.generations[cg]
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}
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cg--
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}
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return nil
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}
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func (ki *keyIndex) Less(b btree.Item) bool {
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return bytes.Compare(ki.key, b.(*keyIndex).key) == -1
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}
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func (ki *keyIndex) equal(b *keyIndex) bool {
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if !bytes.Equal(ki.key, b.key) {
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return false
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}
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if ki.modified != b.modified {
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return false
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}
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if len(ki.generations) != len(b.generations) {
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return false
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}
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for i := range ki.generations {
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ag, bg := ki.generations[i], b.generations[i]
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if !ag.equal(bg) {
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return false
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}
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}
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return true
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}
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func (ki *keyIndex) String() string {
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var s string
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for _, g := range ki.generations {
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s += g.String()
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}
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return s
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}
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// generation contains multiple revisions of a key.
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type generation struct {
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ver int64
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created revision // when the generation is created (put in first revision).
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revs []revision
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}
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func (g *generation) isEmpty() bool { return g == nil || len(g.revs) == 0 }
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// walk walks through the revisions in the generation in descending order.
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// It passes the revision to the given function.
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// walk returns until: 1. it finishes walking all pairs 2. the function returns false.
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// walk returns the position at where it stopped. If it stopped after
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// finishing walking, -1 will be returned.
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func (g *generation) walk(f func(rev revision) bool) int {
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l := len(g.revs)
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for i := range g.revs {
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ok := f(g.revs[l-i-1])
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if !ok {
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return l - i - 1
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}
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}
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return -1
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}
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func (g *generation) String() string {
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return fmt.Sprintf("g: created[%d] ver[%d], revs %#v\n", g.created, g.ver, g.revs)
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}
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func (g generation) equal(b generation) bool {
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if g.ver != b.ver {
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return false
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}
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if len(g.revs) != len(b.revs) {
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return false
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}
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for i := range g.revs {
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ar, br := g.revs[i], b.revs[i]
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if ar != br {
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return false
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}
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}
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return true
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}
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