VictoriaMetrics/lib/mergeset/merge.go
Aliaksandr Valialkin 29bbab0ec9 lib/storage: remove prioritizing of merging small parts over merging big parts, since it doesn't work as expected
The prioritizing could lead to big merge starvation, which could end up in too big number of parts that must be merged into big parts.

Multiple big merges may be initiated after the migration from v1.39.0 or v1.39.1. It is OK - these merges should be finished soon,
which should return CPU and disk IO usage to normal levels.

Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/648
Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/618
2020-07-30 20:02:22 +03:00

225 lines
6 KiB
Go

package mergeset
import (
"container/heap"
"fmt"
"sync"
"sync/atomic"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)
// PrepareBlockCallback can transform the passed items allocated at the given data.
//
// The callback is called during merge before flushing full block of the given items
// to persistent storage.
//
// The callback must return sorted items. The first and the last item must be unchanged.
// The callback can re-use data and items for storing the result.
type PrepareBlockCallback func(data []byte, items [][]byte) ([]byte, [][]byte)
// mergeBlockStreams merges bsrs and writes result to bsw.
//
// It also fills ph.
//
// prepareBlock is optional.
//
// The function immediately returns when stopCh is closed.
//
// It also atomically adds the number of items merged to itemsMerged.
func mergeBlockStreams(ph *partHeader, bsw *blockStreamWriter, bsrs []*blockStreamReader, prepareBlock PrepareBlockCallback, stopCh <-chan struct{},
itemsMerged *uint64) error {
bsm := bsmPool.Get().(*blockStreamMerger)
if err := bsm.Init(bsrs, prepareBlock); err != nil {
return fmt.Errorf("cannot initialize blockStreamMerger: %w", err)
}
err := bsm.Merge(bsw, ph, stopCh, itemsMerged)
bsm.reset()
bsmPool.Put(bsm)
bsw.MustClose()
if err == nil {
return nil
}
if err == errForciblyStopped {
return err
}
return fmt.Errorf("cannot merge %d block streams: %s: %w", len(bsrs), bsrs, err)
}
var bsmPool = &sync.Pool{
New: func() interface{} {
return &blockStreamMerger{}
},
}
type blockStreamMerger struct {
prepareBlock PrepareBlockCallback
bsrHeap bsrHeap
// ib is a scratch block with pending items.
ib inmemoryBlock
phFirstItemCaught bool
// This are auxiliary buffers used in flushIB
// for consistency checks after prepareBlock call.
firstItem []byte
lastItem []byte
}
func (bsm *blockStreamMerger) reset() {
bsm.prepareBlock = nil
for i := range bsm.bsrHeap {
bsm.bsrHeap[i] = nil
}
bsm.bsrHeap = bsm.bsrHeap[:0]
bsm.ib.Reset()
bsm.phFirstItemCaught = false
}
func (bsm *blockStreamMerger) Init(bsrs []*blockStreamReader, prepareBlock PrepareBlockCallback) error {
bsm.reset()
bsm.prepareBlock = prepareBlock
for _, bsr := range bsrs {
if bsr.Next() {
bsm.bsrHeap = append(bsm.bsrHeap, bsr)
}
if err := bsr.Error(); err != nil {
return fmt.Errorf("cannot obtain the next block from blockStreamReader %q: %w", bsr.path, err)
}
}
heap.Init(&bsm.bsrHeap)
if len(bsm.bsrHeap) == 0 {
return fmt.Errorf("bsrHeap cannot be empty")
}
return nil
}
var errForciblyStopped = fmt.Errorf("forcibly stopped")
func (bsm *blockStreamMerger) Merge(bsw *blockStreamWriter, ph *partHeader, stopCh <-chan struct{}, itemsMerged *uint64) error {
again:
if len(bsm.bsrHeap) == 0 {
// Write the last (maybe incomplete) inmemoryBlock to bsw.
bsm.flushIB(bsw, ph, itemsMerged)
return nil
}
select {
case <-stopCh:
return errForciblyStopped
default:
}
bsr := heap.Pop(&bsm.bsrHeap).(*blockStreamReader)
var nextItem []byte
hasNextItem := false
if len(bsm.bsrHeap) > 0 {
nextItem = bsm.bsrHeap[0].bh.firstItem
hasNextItem = true
}
for bsr.blockItemIdx < len(bsr.Block.items) {
item := bsr.Block.items[bsr.blockItemIdx]
if hasNextItem && string(item) > string(nextItem) {
break
}
if !bsm.ib.Add(item) {
// The bsm.ib is full. Flush it to bsw and continue.
bsm.flushIB(bsw, ph, itemsMerged)
continue
}
bsr.blockItemIdx++
}
if bsr.blockItemIdx == len(bsr.Block.items) {
// bsr.Block is fully read. Proceed to the next block.
if bsr.Next() {
heap.Push(&bsm.bsrHeap, bsr)
goto again
}
if err := bsr.Error(); err != nil {
return fmt.Errorf("cannot read storageBlock: %w", err)
}
goto again
}
// The next item in the bsr.Block exceeds nextItem.
// Adjust bsr.bh.firstItem and return bsr to heap.
bsr.bh.firstItem = append(bsr.bh.firstItem[:0], bsr.Block.items[bsr.blockItemIdx]...)
heap.Push(&bsm.bsrHeap, bsr)
goto again
}
func (bsm *blockStreamMerger) flushIB(bsw *blockStreamWriter, ph *partHeader, itemsMerged *uint64) {
if len(bsm.ib.items) == 0 {
// Nothing to flush.
return
}
atomic.AddUint64(itemsMerged, uint64(len(bsm.ib.items)))
if bsm.prepareBlock != nil {
bsm.firstItem = append(bsm.firstItem[:0], bsm.ib.items[0]...)
bsm.lastItem = append(bsm.lastItem[:0], bsm.ib.items[len(bsm.ib.items)-1]...)
bsm.ib.data, bsm.ib.items = bsm.prepareBlock(bsm.ib.data, bsm.ib.items)
if len(bsm.ib.items) == 0 {
// Nothing to flush
return
}
// Consistency checks after prepareBlock call.
firstItem := bsm.ib.items[0]
if string(firstItem) != string(bsm.firstItem) {
logger.Panicf("BUG: prepareBlock must return first item equal to the original first item;\ngot\n%X\nwant\n%X", firstItem, bsm.firstItem)
}
lastItem := bsm.ib.items[len(bsm.ib.items)-1]
if string(lastItem) != string(bsm.lastItem) {
logger.Panicf("BUG: prepareBlock must return last item equal to the original last item;\ngot\n%X\nwant\n%X", lastItem, bsm.lastItem)
}
// Verify whether the bsm.ib.items are sorted only in tests, since this
// can be expensive check in prod for items with long common prefix.
if isInTest && !bsm.ib.isSorted() {
logger.Panicf("BUG: prepareBlock must return sorted items;\ngot\n%s", bsm.ib.debugItemsString())
}
}
ph.itemsCount += uint64(len(bsm.ib.items))
if !bsm.phFirstItemCaught {
ph.firstItem = append(ph.firstItem[:0], bsm.ib.items[0]...)
bsm.phFirstItemCaught = true
}
ph.lastItem = append(ph.lastItem[:0], bsm.ib.items[len(bsm.ib.items)-1]...)
bsw.WriteBlock(&bsm.ib)
bsm.ib.Reset()
ph.blocksCount++
}
type bsrHeap []*blockStreamReader
func (bh *bsrHeap) Len() int {
return len(*bh)
}
func (bh *bsrHeap) Swap(i, j int) {
x := *bh
x[i], x[j] = x[j], x[i]
}
func (bh *bsrHeap) Less(i, j int) bool {
x := *bh
return string(x[i].bh.firstItem) < string(x[j].bh.firstItem)
}
func (bh *bsrHeap) Pop() interface{} {
a := *bh
v := a[len(a)-1]
*bh = a[:len(a)-1]
return v
}
func (bh *bsrHeap) Push(x interface{}) {
v := x.(*blockStreamReader)
*bh = append(*bh, v)
}