/* * Copyright 2017 Dgraph Labs, Inc. and Contributors * * 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 badger import ( "bytes" "fmt" "log" "sync" "golang.org/x/net/trace" "github.com/dgraph-io/badger/table" "github.com/dgraph-io/badger/y" ) type keyRange struct { left []byte right []byte inf bool } var infRange = keyRange{inf: true} func (r keyRange) String() string { return fmt.Sprintf("[left=%q, right=%q, inf=%v]", r.left, r.right, r.inf) } func (r keyRange) equals(dst keyRange) bool { return bytes.Equal(r.left, dst.left) && bytes.Equal(r.right, dst.right) && r.inf == dst.inf } func (r keyRange) overlapsWith(dst keyRange) bool { if r.inf || dst.inf { return true } // If my left is greater than dst right, we have no overlap. if y.CompareKeys(r.left, dst.right) > 0 { return false } // If my right is less than dst left, we have no overlap. if y.CompareKeys(r.right, dst.left) < 0 { return false } // We have overlap. return true } func getKeyRange(tables []*table.Table) keyRange { y.AssertTrue(len(tables) > 0) smallest := tables[0].Smallest() biggest := tables[0].Biggest() for i := 1; i < len(tables); i++ { if y.CompareKeys(tables[i].Smallest(), smallest) < 0 { smallest = tables[i].Smallest() } if y.CompareKeys(tables[i].Biggest(), biggest) > 0 { biggest = tables[i].Biggest() } } return keyRange{left: smallest, right: biggest} } type levelCompactStatus struct { ranges []keyRange delSize int64 } func (lcs *levelCompactStatus) debug() string { var b bytes.Buffer for _, r := range lcs.ranges { b.WriteString(r.String()) } return b.String() } func (lcs *levelCompactStatus) overlapsWith(dst keyRange) bool { for _, r := range lcs.ranges { if r.overlapsWith(dst) { return true } } return false } func (lcs *levelCompactStatus) remove(dst keyRange) bool { final := lcs.ranges[:0] var found bool for _, r := range lcs.ranges { if !r.equals(dst) { final = append(final, r) } else { found = true } } lcs.ranges = final return found } type compactStatus struct { sync.RWMutex levels []*levelCompactStatus } func (cs *compactStatus) toLog(tr trace.Trace) { cs.RLock() defer cs.RUnlock() tr.LazyPrintf("Compaction status:") for i, l := range cs.levels { if len(l.debug()) == 0 { continue } tr.LazyPrintf("[%d] %s", i, l.debug()) } } func (cs *compactStatus) overlapsWith(level int, this keyRange) bool { cs.RLock() defer cs.RUnlock() thisLevel := cs.levels[level] return thisLevel.overlapsWith(this) } func (cs *compactStatus) delSize(l int) int64 { cs.RLock() defer cs.RUnlock() return cs.levels[l].delSize } type thisAndNextLevelRLocked struct{} // compareAndAdd will check whether we can run this compactDef. That it doesn't overlap with any // other running compaction. If it can be run, it would store this run in the compactStatus state. func (cs *compactStatus) compareAndAdd(_ thisAndNextLevelRLocked, cd compactDef) bool { cs.Lock() defer cs.Unlock() level := cd.thisLevel.level y.AssertTruef(level < len(cs.levels)-1, "Got level %d. Max levels: %d", level, len(cs.levels)) thisLevel := cs.levels[level] nextLevel := cs.levels[level+1] if thisLevel.overlapsWith(cd.thisRange) { return false } if nextLevel.overlapsWith(cd.nextRange) { return false } // Check whether this level really needs compaction or not. Otherwise, we'll end up // running parallel compactions for the same level. // NOTE: We can directly call thisLevel.totalSize, because we already have acquire a read lock // over this and the next level. if cd.thisLevel.totalSize-thisLevel.delSize < cd.thisLevel.maxTotalSize { return false } thisLevel.ranges = append(thisLevel.ranges, cd.thisRange) nextLevel.ranges = append(nextLevel.ranges, cd.nextRange) thisLevel.delSize += cd.thisSize return true } func (cs *compactStatus) delete(cd compactDef) { cs.Lock() defer cs.Unlock() level := cd.thisLevel.level y.AssertTruef(level < len(cs.levels)-1, "Got level %d. Max levels: %d", level, len(cs.levels)) thisLevel := cs.levels[level] nextLevel := cs.levels[level+1] thisLevel.delSize -= cd.thisSize found := thisLevel.remove(cd.thisRange) found = nextLevel.remove(cd.nextRange) && found if !found { this := cd.thisRange next := cd.nextRange fmt.Printf("Looking for: [%q, %q, %v] in this level.\n", this.left, this.right, this.inf) fmt.Printf("This Level:\n%s\n", thisLevel.debug()) fmt.Println() fmt.Printf("Looking for: [%q, %q, %v] in next level.\n", next.left, next.right, next.inf) fmt.Printf("Next Level:\n%s\n", nextLevel.debug()) log.Fatal("keyRange not found") } }