VictoriaMetrics/lib/mergeset/part_search.go
Aliaksandr Valialkin 6232eaa938
lib/bytesutil: split Resize() into ResizeNoCopy() and ResizeWithCopy() functions
Previously bytesutil.Resize() was copying the original byte slice contents to a newly allocated slice.
This wasted CPU cycles and memory bandwidth in some places, where the original slice contents wasn't needed
after slize resizing. Switch such places to bytesutil.ResizeNoCopy().

Rename the original bytesutil.Resize() function to bytesutil.ResizeWithCopy() for the sake of improved readability.

Additionally, allocate new slice with `make()` instead of `append()`. This guarantees that the capacity of the allocated slice
exactly matches the requested size. The `append()` could return a slice with bigger capacity as an optimization for further `append()` calls.
This could result in excess memory usage when the returned byte slice was cached (for instance, in lib/blockcache).

Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2007
2022-01-25 15:28:42 +02:00

351 lines
7.8 KiB
Go

package mergeset
import (
"fmt"
"io"
"sort"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/blockcache"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)
type partSearch struct {
// Item contains the last item found after the call to NextItem.
//
// The Item content is valid until the next call to NextItem.
Item []byte
// p is a part to search.
p *part
// The remaining metaindex rows to scan, obtained from p.mrs.
mrs []metaindexRow
// The remaining block headers to scan in the current metaindexRow.
bhs []blockHeader
// err contains the last error.
err error
indexBuf []byte
compressedIndexBuf []byte
sb storageBlock
ib *inmemoryBlock
ibItemIdx int
}
func (ps *partSearch) reset() {
ps.Item = nil
ps.p = nil
ps.mrs = nil
ps.bhs = nil
ps.err = nil
ps.indexBuf = ps.indexBuf[:0]
ps.compressedIndexBuf = ps.compressedIndexBuf[:0]
ps.sb.Reset()
ps.ib = nil
ps.ibItemIdx = 0
}
// Init initializes ps for search in the p.
//
// Use Seek for search in p.
func (ps *partSearch) Init(p *part) {
ps.reset()
ps.p = p
}
// Seek seeks for the first item greater or equal to k in ps.
func (ps *partSearch) Seek(k []byte) {
if err := ps.Error(); err != nil {
// Do nothing on unrecoverable error.
return
}
ps.err = nil
if string(k) > string(ps.p.ph.lastItem) {
// Not matching items in the part.
ps.err = io.EOF
return
}
if ps.tryFastSeek(k) {
return
}
ps.Item = nil
ps.mrs = ps.p.mrs
ps.bhs = nil
ps.indexBuf = ps.indexBuf[:0]
ps.compressedIndexBuf = ps.compressedIndexBuf[:0]
ps.sb.Reset()
ps.ib = nil
ps.ibItemIdx = 0
if string(k) <= string(ps.p.ph.firstItem) {
// The first item in the first block matches.
ps.err = ps.nextBlock()
return
}
// Locate the first metaindexRow to scan.
if len(ps.mrs) == 0 {
logger.Panicf("BUG: part without metaindex rows passed to partSearch")
}
n := sort.Search(len(ps.mrs), func(i int) bool {
return string(k) <= string(ps.mrs[i].firstItem)
})
if n > 0 {
// The given k may be located in the previous metaindexRow, so go to it.
n--
}
ps.mrs = ps.mrs[n:]
// Read block headers for the found metaindexRow.
if err := ps.nextBHS(); err != nil {
ps.err = err
return
}
// Locate the first block to scan.
n = sort.Search(len(ps.bhs), func(i int) bool {
return string(k) <= string(ps.bhs[i].firstItem)
})
if n > 0 {
// The given k may be located in the previous block, so go to it.
n--
}
ps.bhs = ps.bhs[n:]
// Read the block.
if err := ps.nextBlock(); err != nil {
ps.err = err
return
}
// Locate the first item to scan in the block.
items := ps.ib.items
data := ps.ib.data
cpLen := commonPrefixLen(ps.ib.commonPrefix, k)
if cpLen > 0 {
keySuffix := k[cpLen:]
ps.ibItemIdx = sort.Search(len(items), func(i int) bool {
it := items[i]
it.Start += uint32(cpLen)
return string(keySuffix) <= it.String(data)
})
} else {
ps.ibItemIdx = binarySearchKey(data, items, k)
}
if ps.ibItemIdx < len(items) {
// The item has been found.
return
}
// Nothing found in the current block. Proceed to the next block.
// The item to search must be the first in the next block.
if err := ps.nextBlock(); err != nil {
ps.err = err
return
}
}
func (ps *partSearch) tryFastSeek(k []byte) bool {
if ps.ib == nil {
return false
}
data := ps.ib.data
items := ps.ib.items
idx := ps.ibItemIdx
if idx >= len(items) {
// The ib is exhausted.
return false
}
if string(k) > items[len(items)-1].String(data) {
// The item is located in next blocks.
return false
}
// The item is located either in the current block or in previous blocks.
if idx > 0 {
idx--
}
if string(k) < items[idx].String(data) {
if string(k) < items[0].String(data) {
// The item is located in previous blocks.
return false
}
idx = 0
}
// The item is located in the current block
ps.ibItemIdx = idx + binarySearchKey(data, items[idx:], k)
return true
}
// NextItem advances to the next Item.
//
// Returns true on success.
func (ps *partSearch) NextItem() bool {
if ps.err != nil {
return false
}
items := ps.ib.items
if ps.ibItemIdx < len(items) {
// Fast path - the current block contains more items.
// Proceed to the next item.
ps.Item = items[ps.ibItemIdx].Bytes(ps.ib.data)
ps.ibItemIdx++
return true
}
// The current block is over. Proceed to the next block.
if err := ps.nextBlock(); err != nil {
ps.err = err
return false
}
// Invariant: len(ps.ib.items) > 0 after nextBlock.
ps.Item = ps.ib.items[0].Bytes(ps.ib.data)
ps.ibItemIdx++
return true
}
// Error returns the last error occurred in the ps.
func (ps *partSearch) Error() error {
if ps.err == io.EOF {
return nil
}
return ps.err
}
func (ps *partSearch) nextBlock() error {
if len(ps.bhs) == 0 {
// The current metaindexRow is over. Proceed to the next metaindexRow.
if err := ps.nextBHS(); err != nil {
return err
}
}
bh := &ps.bhs[0]
ps.bhs = ps.bhs[1:]
ib, err := ps.getInmemoryBlock(bh)
if err != nil {
return err
}
ps.ib = ib
ps.ibItemIdx = 0
return nil
}
func (ps *partSearch) nextBHS() error {
if len(ps.mrs) == 0 {
return io.EOF
}
mr := &ps.mrs[0]
ps.mrs = ps.mrs[1:]
idxbKey := blockcache.Key{
Part: ps.p,
Offset: mr.indexBlockOffset,
}
b := idxbCache.GetBlock(idxbKey)
if b == nil {
idxb, err := ps.readIndexBlock(mr)
if err != nil {
return fmt.Errorf("cannot read index block: %w", err)
}
b = idxb
idxbCache.PutBlock(idxbKey, b)
}
idxb := b.(*indexBlock)
ps.bhs = idxb.bhs
return nil
}
func (ps *partSearch) readIndexBlock(mr *metaindexRow) (*indexBlock, error) {
ps.compressedIndexBuf = bytesutil.ResizeNoCopy(ps.compressedIndexBuf, int(mr.indexBlockSize))
ps.p.indexFile.MustReadAt(ps.compressedIndexBuf, int64(mr.indexBlockOffset))
var err error
ps.indexBuf, err = encoding.DecompressZSTD(ps.indexBuf[:0], ps.compressedIndexBuf)
if err != nil {
return nil, fmt.Errorf("cannot decompress index block: %w", err)
}
idxb := &indexBlock{}
idxb.bhs, err = unmarshalBlockHeaders(idxb.bhs[:0], ps.indexBuf, int(mr.blockHeadersCount))
if err != nil {
return nil, fmt.Errorf("cannot unmarshal block headers from index block (offset=%d, size=%d): %w", mr.indexBlockOffset, mr.indexBlockSize, err)
}
return idxb, nil
}
func (ps *partSearch) getInmemoryBlock(bh *blockHeader) (*inmemoryBlock, error) {
ibKey := blockcache.Key{
Part: ps.p,
Offset: bh.itemsBlockOffset,
}
b := ibCache.GetBlock(ibKey)
if b == nil {
ib, err := ps.readInmemoryBlock(bh)
if err != nil {
return nil, err
}
b = ib
ibCache.PutBlock(ibKey, b)
}
ib := b.(*inmemoryBlock)
return ib, nil
}
func (ps *partSearch) readInmemoryBlock(bh *blockHeader) (*inmemoryBlock, error) {
ps.sb.Reset()
ps.sb.itemsData = bytesutil.ResizeNoCopy(ps.sb.itemsData, int(bh.itemsBlockSize))
ps.p.itemsFile.MustReadAt(ps.sb.itemsData, int64(bh.itemsBlockOffset))
ps.sb.lensData = bytesutil.ResizeNoCopy(ps.sb.lensData, int(bh.lensBlockSize))
ps.p.lensFile.MustReadAt(ps.sb.lensData, int64(bh.lensBlockOffset))
ib := getInmemoryBlock()
if err := ib.UnmarshalData(&ps.sb, bh.firstItem, bh.commonPrefix, bh.itemsCount, bh.marshalType); err != nil {
return nil, fmt.Errorf("cannot unmarshal storage block with %d items: %w", bh.itemsCount, err)
}
return ib, nil
}
func binarySearchKey(data []byte, items []Item, key []byte) int {
if len(items) == 0 {
return 0
}
if string(key) <= items[0].String(data) {
// Fast path - the item is the first.
return 0
}
items = items[1:]
offset := uint(1)
// This has been copy-pasted from https://golang.org/src/sort/search.go
n := uint(len(items))
i, j := uint(0), n
for i < j {
h := uint(i+j) >> 1
if h >= 0 && h < uint(len(items)) && string(key) > items[h].String(data) {
i = h + 1
} else {
j = h
}
}
return int(i + offset)
}