VictoriaMetrics/lib/mergeset/part_search.go

395 lines
8.9 KiB
Go

package mergeset
import (
"fmt"
"io"
"sort"
"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
// Pointer to index block, which may be reused.
indexBlockReuse *indexBlock
// Pointer to inmemory block, which may be reused.
inmemoryBlockReuse *inmemoryBlock
shouldCacheBlock func(item []byte) bool
idxbCache *indexBlockCache
ibCache *inmemoryBlockCache
// 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
if ps.indexBlockReuse != nil {
putIndexBlock(ps.indexBlockReuse)
ps.indexBlockReuse = nil
}
if ps.inmemoryBlockReuse != nil {
putInmemoryBlock(ps.inmemoryBlockReuse)
ps.inmemoryBlockReuse = nil
}
ps.shouldCacheBlock = nil
ps.idxbCache = nil
ps.ibCache = 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, shouldCacheBlock func(item []byte) bool) {
ps.reset()
ps.p = p
ps.idxbCache = &p.idxbCache
ps.ibCache = &p.ibCache
}
// 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
cpLen := commonPrefixLen(ps.ib.commonPrefix, k)
if cpLen > 0 {
keySuffix := k[cpLen:]
ps.ibItemIdx = sort.Search(len(items), func(i int) bool {
return string(keySuffix) <= string(items[i][cpLen:])
})
} else {
ps.ibItemIdx = binarySearchKey(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
}
items := ps.ib.items
idx := ps.ibItemIdx
if idx >= len(items) {
// The ib is exhausted.
return false
}
if string(k) > string(items[len(items)-1]) {
// 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) < string(items[idx]) {
if string(k) < string(items[0]) {
// The item is located in previous blocks.
return false
}
idx = 0
}
// The item is located in the current block
ps.ibItemIdx = idx + binarySearchKey(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
}
if ps.ibItemIdx < len(ps.ib.items) {
// Fast path - the current block contains more items.
// Proceed to the next item.
ps.Item = ps.ib.items[ps.ibItemIdx]
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]
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 ps.inmemoryBlockReuse != nil {
putInmemoryBlock(ps.inmemoryBlockReuse)
ps.inmemoryBlockReuse = nil
}
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, mayReuseInmemoryBlock, err := ps.getInmemoryBlock(bh)
if err != nil {
return err
}
if mayReuseInmemoryBlock {
ps.inmemoryBlockReuse = ib
}
ps.ib = ib
ps.ibItemIdx = 0
return nil
}
func (ps *partSearch) nextBHS() error {
if ps.indexBlockReuse != nil {
putIndexBlock(ps.indexBlockReuse)
ps.indexBlockReuse = nil
}
if len(ps.mrs) == 0 {
return io.EOF
}
mr := &ps.mrs[0]
ps.mrs = ps.mrs[1:]
idxb, mayReuseIndexBlock, err := ps.getIndexBlock(mr)
if err != nil {
return fmt.Errorf("cannot get index block: %s", err)
}
if mayReuseIndexBlock {
ps.indexBlockReuse = idxb
}
ps.bhs = idxb.bhs
return nil
}
func (ps *partSearch) getIndexBlock(mr *metaindexRow) (*indexBlock, bool, error) {
idxbKey := mr.indexBlockOffset
idxb := ps.idxbCache.Get(idxbKey)
if idxb != nil {
return idxb, false, nil
}
idxb, err := ps.readIndexBlock(mr)
if err != nil {
return nil, false, err
}
ok := ps.idxbCache.Put(idxbKey, idxb)
return idxb, !ok, nil
}
func (ps *partSearch) readIndexBlock(mr *metaindexRow) (*indexBlock, error) {
ps.compressedIndexBuf = bytesutil.Resize(ps.compressedIndexBuf, int(mr.indexBlockSize))
ps.p.indexFile.ReadAt(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 with size %d bytes: %s", len(ps.compressedIndexBuf), err)
}
idxb := getIndexBlock()
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): %s", mr.indexBlockOffset, mr.indexBlockSize, err)
}
return idxb, nil
}
func (ps *partSearch) getInmemoryBlock(bh *blockHeader) (*inmemoryBlock, bool, error) {
if ps.shouldCacheBlock != nil {
if !ps.shouldCacheBlock(bh.firstItem) {
ib, err := ps.readInmemoryBlock(bh)
if err != nil {
return nil, false, err
}
return ib, true, nil
}
}
var ibKey inmemoryBlockCacheKey
ibKey.Init(bh)
ib := ps.ibCache.Get(ibKey)
if ib != nil {
return ib, false, nil
}
ib, err := ps.readInmemoryBlock(bh)
if err != nil {
return nil, false, err
}
ok := ps.ibCache.Put(ibKey, ib)
return ib, !ok, nil
}
func (ps *partSearch) readInmemoryBlock(bh *blockHeader) (*inmemoryBlock, error) {
ps.sb.Reset()
ps.sb.itemsData = bytesutil.Resize(ps.sb.itemsData, int(bh.itemsBlockSize))
ps.p.itemsFile.ReadAt(ps.sb.itemsData, int64(bh.itemsBlockOffset))
ps.sb.lensData = bytesutil.Resize(ps.sb.lensData, int(bh.lensBlockSize))
ps.p.lensFile.ReadAt(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: %s", bh.itemsCount, err)
}
return ib, nil
}
func binarySearchKey(items [][]byte, key []byte) int {
if len(items) == 0 {
return 0
}
if string(key) <= string(items[0]) {
// 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) > string(items[h]) {
i = h + 1
} else {
j = h
}
}
return int(i + offset)
}