VictoriaMetrics/lib/logstorage/indexdb.go

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package logstorage
import (
"bytes"
"fmt"
"io"
"sort"
"sync"
"sync/atomic"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/mergeset"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/regexutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/slicesutil"
)
const (
// (tenantID:streamID) entries have this prefix
//
// These entries are used for detecting whether the given stream is already registered
nsPrefixStreamID = 0
// (tenantID:streamID -> streamTagsCanonical) entries have this prefix
nsPrefixStreamIDToStreamTags = 1
// (tenantID:name:value => streamIDs) entries have this prefix
nsPrefixTagToStreamIDs = 2
)
// IndexdbStats contains indexdb stats
type IndexdbStats struct {
// StreamsCreatedTotal is the number of log streams created since the indexdb initialization.
StreamsCreatedTotal uint64
// IndexdbSizeBytes is the size of data in indexdb.
IndexdbSizeBytes uint64
// IndexdbItemsCount is the number of items in indexdb.
IndexdbItemsCount uint64
// IndexdbBlocksCount is the number of blocks in indexdb.
IndexdbBlocksCount uint64
// IndexdbPartsCount is the number of parts in indexdb.
IndexdbPartsCount uint64
}
type indexdb struct {
// streamsCreatedTotal is the number of log streams created since the indexdb intialization.
streamsCreatedTotal atomic.Uint64
// the generation of the filterStreamCache.
// It is updated each time new item is added to tb.
filterStreamCacheGeneration atomic.Uint32
// path is the path to indexdb
path string
// partitionName is the name of the partition for the indexdb.
partitionName string
// tb is the storage for indexdb
tb *mergeset.Table
// indexSearchPool is a pool of indexSearch struct for the given indexdb
indexSearchPool sync.Pool
// s is the storage where indexdb belongs to.
s *Storage
}
func mustCreateIndexdb(path string) {
fs.MustMkdirFailIfExist(path)
}
func mustOpenIndexdb(path, partitionName string, s *Storage) *indexdb {
idb := &indexdb{
path: path,
partitionName: partitionName,
s: s,
}
var isReadOnly atomic.Bool
idb.tb = mergeset.MustOpenTable(path, idb.invalidateStreamFilterCache, mergeTagToStreamIDsRows, &isReadOnly)
return idb
}
func mustCloseIndexdb(idb *indexdb) {
idb.tb.MustClose()
idb.tb = nil
idb.s = nil
idb.partitionName = ""
idb.path = ""
}
func (idb *indexdb) debugFlush() {
idb.tb.DebugFlush()
}
func (idb *indexdb) updateStats(d *IndexdbStats) {
d.StreamsCreatedTotal += idb.streamsCreatedTotal.Load()
var tm mergeset.TableMetrics
idb.tb.UpdateMetrics(&tm)
d.IndexdbSizeBytes += tm.InmemorySizeBytes + tm.FileSizeBytes
d.IndexdbItemsCount += tm.InmemoryItemsCount + tm.FileItemsCount
d.IndexdbPartsCount += tm.InmemoryPartsCount + tm.FilePartsCount
d.IndexdbBlocksCount += tm.InmemoryBlocksCount + tm.FileBlocksCount
}
func (idb *indexdb) appendStreamTagsByStreamID(dst []byte, sid *streamID) []byte {
is := idb.getIndexSearch()
defer idb.putIndexSearch(is)
ts := &is.ts
kb := &is.kb
kb.B = marshalCommonPrefix(kb.B[:0], nsPrefixStreamIDToStreamTags, sid.tenantID)
kb.B = sid.id.marshal(kb.B)
if err := ts.FirstItemWithPrefix(kb.B); err != nil {
if err == io.EOF {
return dst
}
logger.Panicf("FATAL: unexpected error when searching for StreamTags by streamID=%s in indexdb: %s", sid, err)
}
data := ts.Item[len(kb.B):]
dst = append(dst, data...)
return dst
}
// hasStreamID returns true if streamID exists in idb
func (idb *indexdb) hasStreamID(sid *streamID) bool {
is := idb.getIndexSearch()
defer idb.putIndexSearch(is)
ts := &is.ts
kb := &is.kb
kb.B = marshalCommonPrefix(kb.B, nsPrefixStreamID, sid.tenantID)
kb.B = sid.id.marshal(kb.B)
if err := ts.FirstItemWithPrefix(kb.B); err != nil {
if err == io.EOF {
return false
}
logger.Panicf("FATAL: unexpected error when searching for streamID=%s in indexdb: %s", sid, err)
}
return len(kb.B) == len(ts.Item)
}
type indexSearch struct {
idb *indexdb
ts mergeset.TableSearch
kb bytesutil.ByteBuffer
}
func (idb *indexdb) getIndexSearch() *indexSearch {
v := idb.indexSearchPool.Get()
if v == nil {
v = &indexSearch{
idb: idb,
}
}
is := v.(*indexSearch)
is.ts.Init(idb.tb, false)
return is
}
func (idb *indexdb) putIndexSearch(is *indexSearch) {
is.idb = nil
is.ts.MustClose()
is.kb.Reset()
idb.indexSearchPool.Put(is)
}
// searchStreamIDs returns streamIDs for the given tenantIDs and the given stream filters
func (idb *indexdb) searchStreamIDs(tenantIDs []TenantID, sf *StreamFilter) []streamID {
// Try obtaining streamIDs from cache
streamIDs, ok := idb.loadStreamIDsFromCache(tenantIDs, sf)
if ok {
// Fast path - streamIDs found in the cache.
return streamIDs
}
// Slow path - collect streamIDs from indexdb.
// Collect streamIDs for all the specified tenantIDs.
is := idb.getIndexSearch()
m := make(map[streamID]struct{})
for _, tenantID := range tenantIDs {
for _, asf := range sf.orFilters {
is.updateStreamIDs(m, tenantID, asf)
}
}
idb.putIndexSearch(is)
// Convert the collected streamIDs from m to sorted slice.
streamIDs = make([]streamID, 0, len(m))
for streamID := range m {
streamIDs = append(streamIDs, streamID)
}
sortStreamIDs(streamIDs)
// Store the collected streamIDs to cache.
idb.storeStreamIDsToCache(tenantIDs, sf, streamIDs)
return streamIDs
}
func sortStreamIDs(streamIDs []streamID) {
sort.Slice(streamIDs, func(i, j int) bool {
return streamIDs[i].less(&streamIDs[j])
})
}
func (is *indexSearch) updateStreamIDs(dst map[streamID]struct{}, tenantID TenantID, asf *andStreamFilter) {
var m map[u128]struct{}
for _, tf := range asf.tagFilters {
ids := is.getStreamIDsForTagFilter(tenantID, tf)
if len(ids) == 0 {
// There is no need in checking the remaining filters,
// since the result will be empty in any case.
return
}
if m == nil {
m = ids
} else {
for id := range m {
if _, ok := ids[id]; !ok {
delete(m, id)
}
}
}
}
var sid streamID
for id := range m {
sid.tenantID = tenantID
sid.id = id
dst[sid] = struct{}{}
}
}
func (is *indexSearch) getStreamIDsForTagFilter(tenantID TenantID, tf *streamTagFilter) map[u128]struct{} {
switch tf.op {
case "=":
if tf.value == "" {
// (field="")
return is.getStreamIDsForEmptyTagValue(tenantID, tf.tagName)
}
// (field="value")
return is.getStreamIDsForNonEmptyTagValue(tenantID, tf.tagName, tf.value)
case "!=":
if tf.value == "" {
// (field!="")
return is.getStreamIDsForTagName(tenantID, tf.tagName)
}
// (field!="value") => (all and not field="value")
ids := is.getStreamIDsForTenant(tenantID)
idsForTag := is.getStreamIDsForNonEmptyTagValue(tenantID, tf.tagName, tf.value)
for id := range idsForTag {
delete(ids, id)
}
return ids
case "=~":
2024-05-20 02:08:30 +00:00
re := tf.regexp
if re.MatchString("") {
// (field=~"|re") => (field="" or field=~"re")
ids := is.getStreamIDsForEmptyTagValue(tenantID, tf.tagName)
idsForRe := is.getStreamIDsForTagRegexp(tenantID, tf.tagName, re)
for id := range idsForRe {
ids[id] = struct{}{}
}
return ids
}
return is.getStreamIDsForTagRegexp(tenantID, tf.tagName, re)
case "!~":
2024-05-20 02:08:30 +00:00
re := tf.regexp
if re.MatchString("") {
// (field!~"|re") => (field!="" and not field=~"re")
ids := is.getStreamIDsForTagName(tenantID, tf.tagName)
if len(ids) == 0 {
return ids
}
idsForRe := is.getStreamIDsForTagRegexp(tenantID, tf.tagName, re)
for id := range idsForRe {
delete(ids, id)
}
return ids
}
// (field!~"re") => (all and not field=~"re")
ids := is.getStreamIDsForTenant(tenantID)
idsForRe := is.getStreamIDsForTagRegexp(tenantID, tf.tagName, re)
for id := range idsForRe {
delete(ids, id)
}
return ids
default:
logger.Panicf("BUG: unexpected operation in stream tag filter: %q", tf.op)
return nil
}
}
func (is *indexSearch) getStreamIDsForNonEmptyTagValue(tenantID TenantID, tagName, tagValue string) map[u128]struct{} {
ids := make(map[u128]struct{})
var sp tagToStreamIDsRowParser
ts := &is.ts
kb := &is.kb
kb.B = marshalCommonPrefix(kb.B[:0], nsPrefixTagToStreamIDs, tenantID)
kb.B = marshalTagValue(kb.B, bytesutil.ToUnsafeBytes(tagName))
kb.B = marshalTagValue(kb.B, bytesutil.ToUnsafeBytes(tagValue))
prefix := kb.B
ts.Seek(prefix)
for ts.NextItem() {
item := ts.Item
if !bytes.HasPrefix(item, prefix) {
break
}
tail := item[len(prefix):]
sp.UpdateStreamIDs(ids, tail)
}
if err := ts.Error(); err != nil {
logger.Panicf("FATAL: unexpected error: %s", err)
}
return ids
}
func (is *indexSearch) getStreamIDsForEmptyTagValue(tenantID TenantID, tagName string) map[u128]struct{} {
ids := is.getStreamIDsForTenant(tenantID)
idsForTag := is.getStreamIDsForTagName(tenantID, tagName)
for id := range idsForTag {
delete(ids, id)
}
return ids
}
func (is *indexSearch) getStreamIDsForTenant(tenantID TenantID) map[u128]struct{} {
ids := make(map[u128]struct{})
ts := &is.ts
kb := &is.kb
kb.B = marshalCommonPrefix(kb.B[:0], nsPrefixStreamID, tenantID)
prefix := kb.B
ts.Seek(prefix)
var id u128
for ts.NextItem() {
item := ts.Item
if !bytes.HasPrefix(item, prefix) {
break
}
tail, err := id.unmarshal(item[len(prefix):])
if err != nil {
logger.Panicf("FATAL: cannot unmarshal streamID from (tenantID:streamID) entry: %s", err)
}
if len(tail) > 0 {
logger.Panicf("FATAL: unexpected non-empty tail left after unmarshaling streamID from (tenantID:streamID); tail len=%d", len(tail))
}
ids[id] = struct{}{}
}
if err := ts.Error(); err != nil {
logger.Panicf("FATAL: unexpected error: %s", err)
}
return ids
}
func (is *indexSearch) getStreamIDsForTagName(tenantID TenantID, tagName string) map[u128]struct{} {
ids := make(map[u128]struct{})
var sp tagToStreamIDsRowParser
ts := &is.ts
kb := &is.kb
kb.B = marshalCommonPrefix(kb.B[:0], nsPrefixTagToStreamIDs, tenantID)
kb.B = marshalTagValue(kb.B, bytesutil.ToUnsafeBytes(tagName))
prefix := kb.B
ts.Seek(prefix)
for ts.NextItem() {
item := ts.Item
if !bytes.HasPrefix(item, prefix) {
break
}
tail := item[len(prefix):]
n := bytes.IndexByte(tail, tagSeparatorChar)
if n < 0 {
logger.Panicf("FATAL: cannot find the end of tag value")
}
tail = tail[n+1:]
sp.UpdateStreamIDs(ids, tail)
}
if err := ts.Error(); err != nil {
logger.Panicf("FATAL: unexpected error: %s", err)
}
return ids
}
func (is *indexSearch) getStreamIDsForTagRegexp(tenantID TenantID, tagName string, re *regexutil.PromRegex) map[u128]struct{} {
ids := make(map[u128]struct{})
var sp tagToStreamIDsRowParser
var tagValue, prevMatchingTagValue []byte
var err error
ts := &is.ts
kb := &is.kb
kb.B = marshalCommonPrefix(kb.B[:0], nsPrefixTagToStreamIDs, tenantID)
kb.B = marshalTagValue(kb.B, bytesutil.ToUnsafeBytes(tagName))
prefix := kb.B
ts.Seek(prefix)
for ts.NextItem() {
item := ts.Item
if !bytes.HasPrefix(item, prefix) {
break
}
tail := item[len(prefix):]
tail, tagValue, err = unmarshalTagValue(tagValue[:0], tail)
if err != nil {
logger.Panicf("FATAL: cannot unmarshal tag value: %s", err)
}
if !bytes.Equal(tagValue, prevMatchingTagValue) {
if !re.MatchString(bytesutil.ToUnsafeString(tagValue)) {
continue
}
prevMatchingTagValue = append(prevMatchingTagValue[:0], tagValue...)
}
sp.UpdateStreamIDs(ids, tail)
}
if err := ts.Error(); err != nil {
logger.Panicf("FATAL: unexpected error: %s", err)
}
return ids
}
func (idb *indexdb) mustRegisterStream(streamID *streamID, streamTagsCanonical []byte) {
st := GetStreamTags()
mustUnmarshalStreamTags(st, streamTagsCanonical)
tenantID := streamID.tenantID
bi := getBatchItems()
buf := bi.buf[:0]
items := bi.items[:0]
// Register tenantID:streamID entry.
bufLen := len(buf)
buf = marshalCommonPrefix(buf, nsPrefixStreamID, tenantID)
buf = streamID.id.marshal(buf)
items = append(items, buf[bufLen:])
// Register tenantID:streamID -> streamTagsCanonical entry.
bufLen = len(buf)
buf = marshalCommonPrefix(buf, nsPrefixStreamIDToStreamTags, tenantID)
buf = streamID.id.marshal(buf)
buf = append(buf, streamTagsCanonical...)
items = append(items, buf[bufLen:])
// Register tenantID:name:value -> streamIDs entries.
tags := st.tags
for i := range tags {
bufLen = len(buf)
buf = marshalCommonPrefix(buf, nsPrefixTagToStreamIDs, tenantID)
buf = tags[i].indexdbMarshal(buf)
buf = streamID.id.marshal(buf)
items = append(items, buf[bufLen:])
}
PutStreamTags(st)
// Add items to the storage
idb.tb.AddItems(items)
bi.buf = buf
bi.items = items
putBatchItems(bi)
idb.streamsCreatedTotal.Add(1)
}
func (idb *indexdb) invalidateStreamFilterCache() {
// This function must be fast, since it is called each
// time new indexdb entry is added.
idb.filterStreamCacheGeneration.Add(1)
}
func (idb *indexdb) marshalStreamFilterCacheKey(dst []byte, tenantIDs []TenantID, sf *StreamFilter) []byte {
dst = encoding.MarshalUint32(dst, idb.filterStreamCacheGeneration.Load())
dst = encoding.MarshalBytes(dst, bytesutil.ToUnsafeBytes(idb.partitionName))
dst = encoding.MarshalVarUint64(dst, uint64(len(tenantIDs)))
for i := range tenantIDs {
dst = tenantIDs[i].marshal(dst)
}
dst = sf.marshalForCacheKey(dst)
return dst
}
func (idb *indexdb) loadStreamIDsFromCache(tenantIDs []TenantID, sf *StreamFilter) ([]streamID, bool) {
bb := bbPool.Get()
bb.B = idb.marshalStreamFilterCacheKey(bb.B[:0], tenantIDs, sf)
v, ok := idb.s.filterStreamCache.Get(bb.B)
bbPool.Put(bb)
if !ok {
// Cache miss
return nil, false
}
// Cache hit - unpack streamIDs from data.
data := *(v.(*[]byte))
n, nSize := encoding.UnmarshalVarUint64(data)
if nSize <= 0 {
logger.Panicf("BUG: unexpected error when unmarshaling the number of streamIDs from cache")
}
src := data[nSize:]
streamIDs := make([]streamID, n)
for i := uint64(0); i < n; i++ {
tail, err := streamIDs[i].unmarshal(src)
if err != nil {
logger.Panicf("BUG: unexpected error when unmarshaling streamID #%d: %s", i, err)
}
src = tail
}
if len(src) > 0 {
logger.Panicf("BUG: unexpected non-empty tail left with len=%d", len(src))
}
return streamIDs, true
}
func (idb *indexdb) storeStreamIDsToCache(tenantIDs []TenantID, sf *StreamFilter, streamIDs []streamID) {
// marshal streamIDs
var b []byte
b = encoding.MarshalVarUint64(b, uint64(len(streamIDs)))
for i := 0; i < len(streamIDs); i++ {
b = streamIDs[i].marshal(b)
}
// Store marshaled streamIDs to cache.
bb := bbPool.Get()
bb.B = idb.marshalStreamFilterCacheKey(bb.B[:0], tenantIDs, sf)
idb.s.filterStreamCache.Set(bb.B, &b)
bbPool.Put(bb)
}
type batchItems struct {
buf []byte
items [][]byte
}
func (bi *batchItems) reset() {
bi.buf = bi.buf[:0]
items := bi.items
for i := range items {
items[i] = nil
}
bi.items = items[:0]
}
func getBatchItems() *batchItems {
v := batchItemsPool.Get()
if v == nil {
return &batchItems{}
}
return v.(*batchItems)
}
func putBatchItems(bi *batchItems) {
bi.reset()
batchItemsPool.Put(bi)
}
var batchItemsPool sync.Pool
func mergeTagToStreamIDsRows(data []byte, items []mergeset.Item) ([]byte, []mergeset.Item) {
// Perform quick checks whether items contain rows starting from nsPrefixTagToStreamIDs
// based on the fact that items are sorted.
if len(items) <= 2 {
// The first and the last row must remain unchanged.
return data, items
}
firstItem := items[0].Bytes(data)
if len(firstItem) > 0 && firstItem[0] > nsPrefixTagToStreamIDs {
return data, items
}
lastItem := items[len(items)-1].Bytes(data)
if len(lastItem) > 0 && lastItem[0] < nsPrefixTagToStreamIDs {
return data, items
}
// items contain at least one row starting from nsPrefixTagToStreamIDs. Merge rows with common tag.
tsm := getTagToStreamIDsRowsMerger()
tsm.dataCopy = append(tsm.dataCopy[:0], data...)
tsm.itemsCopy = append(tsm.itemsCopy[:0], items...)
sp := &tsm.sp
spPrev := &tsm.spPrev
dstData := data[:0]
dstItems := items[:0]
for i, it := range items {
item := it.Bytes(data)
if len(item) == 0 || item[0] != nsPrefixTagToStreamIDs || i == 0 || i == len(items)-1 {
// Write rows not starting with nsPrefixTagToStreamIDs as-is.
// Additionally write the first and the last row as-is in order to preserve
// sort order for adjacent blocks.
dstData, dstItems = tsm.flushPendingStreamIDs(dstData, dstItems, spPrev)
dstData = append(dstData, item...)
dstItems = append(dstItems, mergeset.Item{
Start: uint32(len(dstData) - len(item)),
End: uint32(len(dstData)),
})
continue
}
if err := sp.Init(item); err != nil {
logger.Panicf("FATAL: cannot parse row during merge: %s", err)
}
if sp.StreamIDsLen() >= maxStreamIDsPerRow {
dstData, dstItems = tsm.flushPendingStreamIDs(dstData, dstItems, spPrev)
dstData = append(dstData, item...)
dstItems = append(dstItems, mergeset.Item{
Start: uint32(len(dstData) - len(item)),
End: uint32(len(dstData)),
})
continue
}
if !sp.EqualPrefix(spPrev) {
dstData, dstItems = tsm.flushPendingStreamIDs(dstData, dstItems, spPrev)
}
sp.ParseStreamIDs()
tsm.pendingStreamIDs = append(tsm.pendingStreamIDs, sp.StreamIDs...)
spPrev, sp = sp, spPrev
if len(tsm.pendingStreamIDs) >= maxStreamIDsPerRow {
dstData, dstItems = tsm.flushPendingStreamIDs(dstData, dstItems, spPrev)
}
}
if len(tsm.pendingStreamIDs) > 0 {
logger.Panicf("BUG: tsm.pendingStreamIDs must be empty at this point; got %d items", len(tsm.pendingStreamIDs))
}
if !checkItemsSorted(dstData, dstItems) {
// Items could become unsorted if initial items contain duplicate streamIDs:
//
// item1: 1, 1, 5
// item2: 1, 4
//
// Items could become the following after the merge:
//
// item1: 1, 5
// item2: 1, 4
//
// i.e. item1 > item2
//
// Leave the original items unmerged, so they can be merged next time.
// This case should be quite rare - if multiple data points are simultaneously inserted
// into the same new time series from multiple concurrent goroutines.
dstData = append(dstData[:0], tsm.dataCopy...)
dstItems = append(dstItems[:0], tsm.itemsCopy...)
if !checkItemsSorted(dstData, dstItems) {
logger.Panicf("BUG: the original items weren't sorted; items=%q", dstItems)
}
}
putTagToStreamIDsRowsMerger(tsm)
return dstData, dstItems
}
// maxStreamIDsPerRow limits the number of streamIDs in tenantID:name:value -> streamIDs row.
//
// This reduces overhead on index and metaindex in lib/mergeset.
const maxStreamIDsPerRow = 32
type u128Sorter []u128
func (s u128Sorter) Len() int { return len(s) }
func (s u128Sorter) Less(i, j int) bool {
return s[i].less(&s[j])
}
func (s u128Sorter) Swap(i, j int) {
s[i], s[j] = s[j], s[i]
}
type tagToStreamIDsRowsMerger struct {
pendingStreamIDs u128Sorter
sp tagToStreamIDsRowParser
spPrev tagToStreamIDsRowParser
itemsCopy []mergeset.Item
dataCopy []byte
}
func (tsm *tagToStreamIDsRowsMerger) Reset() {
tsm.pendingStreamIDs = tsm.pendingStreamIDs[:0]
tsm.sp.Reset()
tsm.spPrev.Reset()
tsm.itemsCopy = tsm.itemsCopy[:0]
tsm.dataCopy = tsm.dataCopy[:0]
}
func (tsm *tagToStreamIDsRowsMerger) flushPendingStreamIDs(dstData []byte, dstItems []mergeset.Item, sp *tagToStreamIDsRowParser) ([]byte, []mergeset.Item) {
if len(tsm.pendingStreamIDs) == 0 {
// Nothing to flush
return dstData, dstItems
}
// Use sort.Sort instead of sort.Slice in order to reduce memory allocations.
sort.Sort(&tsm.pendingStreamIDs)
tsm.pendingStreamIDs = removeDuplicateStreamIDs(tsm.pendingStreamIDs)
// Marshal pendingStreamIDs
dstDataLen := len(dstData)
dstData = sp.MarshalPrefix(dstData)
pendingStreamIDs := tsm.pendingStreamIDs
for i := range pendingStreamIDs {
dstData = pendingStreamIDs[i].marshal(dstData)
}
dstItems = append(dstItems, mergeset.Item{
Start: uint32(dstDataLen),
End: uint32(len(dstData)),
})
tsm.pendingStreamIDs = tsm.pendingStreamIDs[:0]
return dstData, dstItems
}
func removeDuplicateStreamIDs(sortedStreamIDs []u128) []u128 {
if len(sortedStreamIDs) < 2 {
return sortedStreamIDs
}
hasDuplicates := false
for i := 1; i < len(sortedStreamIDs); i++ {
if sortedStreamIDs[i-1] == sortedStreamIDs[i] {
hasDuplicates = true
break
}
}
if !hasDuplicates {
return sortedStreamIDs
}
dstStreamIDs := sortedStreamIDs[:1]
for i := 1; i < len(sortedStreamIDs); i++ {
if sortedStreamIDs[i-1] == sortedStreamIDs[i] {
continue
}
dstStreamIDs = append(dstStreamIDs, sortedStreamIDs[i])
}
return dstStreamIDs
}
func getTagToStreamIDsRowsMerger() *tagToStreamIDsRowsMerger {
v := tsmPool.Get()
if v == nil {
return &tagToStreamIDsRowsMerger{}
}
return v.(*tagToStreamIDsRowsMerger)
}
func putTagToStreamIDsRowsMerger(tsm *tagToStreamIDsRowsMerger) {
tsm.Reset()
tsmPool.Put(tsm)
}
var tsmPool sync.Pool
type tagToStreamIDsRowParser struct {
// TenantID contains TenantID of the parsed row
TenantID TenantID
// StreamIDs contains parsed StreamIDs after ParseStreamIDs call
StreamIDs []u128
// streamIDsParsed is set to true after ParseStreamIDs call
streamIDsParsed bool
// Tag contains parsed tag after Init call
Tag streamTag
// tail contains the remaining unparsed streamIDs
tail []byte
}
func (sp *tagToStreamIDsRowParser) Reset() {
sp.TenantID.Reset()
sp.StreamIDs = sp.StreamIDs[:0]
sp.streamIDsParsed = false
sp.Tag.reset()
sp.tail = nil
}
// Init initializes sp from b, which should contain encoded tenantID:name:value -> streamIDs row.
//
// b cannot be re-used until Reset call.
//
// ParseStreamIDs() must be called later for obtaining sp.StreamIDs from the given tail.
func (sp *tagToStreamIDsRowParser) Init(b []byte) error {
tail, nsPrefix, err := unmarshalCommonPrefix(&sp.TenantID, b)
if err != nil {
return fmt.Errorf("invalid tenantID:name:value -> streamIDs row %q: %w", b, err)
}
if nsPrefix != nsPrefixTagToStreamIDs {
return fmt.Errorf("invalid prefix for tenantID:name:value -> streamIDs row %q; got %d; want %d", b, nsPrefix, nsPrefixTagToStreamIDs)
}
tail, err = sp.Tag.indexdbUnmarshal(tail)
if err != nil {
return fmt.Errorf("cannot unmarshal tag from tenantID:name:value -> streamIDs row %q: %w", b, err)
}
if err = sp.InitOnlyTail(tail); err != nil {
return fmt.Errorf("cannot initialize tail from tenantID:name:value -> streamIDs row %q: %w", b, err)
}
return nil
}
// MarshalPrefix marshals row prefix without tail to dst.
func (sp *tagToStreamIDsRowParser) MarshalPrefix(dst []byte) []byte {
dst = marshalCommonPrefix(dst, nsPrefixTagToStreamIDs, sp.TenantID)
dst = sp.Tag.indexdbMarshal(dst)
return dst
}
// InitOnlyTail initializes sp.tail from tail, which must contain streamIDs.
//
// tail cannot be re-used until Reset call.
//
// ParseStreamIDs() must be called later for obtaining sp.StreamIDs from the given tail.
func (sp *tagToStreamIDsRowParser) InitOnlyTail(tail []byte) error {
if len(tail) == 0 {
return fmt.Errorf("missing streamID in the tenantID:name:value -> streamIDs row")
}
if len(tail)%16 != 0 {
return fmt.Errorf("invalid tail length in the tenantID:name:value -> streamIDs row; got %d bytes; must be multiple of 16 bytes", len(tail))
}
sp.tail = tail
sp.streamIDsParsed = false
return nil
}
// EqualPrefix returns true if prefixes for sp and x are equal.
//
// Prefix contains (tenantID:name:value)
func (sp *tagToStreamIDsRowParser) EqualPrefix(x *tagToStreamIDsRowParser) bool {
if !sp.TenantID.equal(&x.TenantID) {
return false
}
if !sp.Tag.equal(&x.Tag) {
return false
}
return true
}
// StreamIDsLen returns the number of StreamIDs in the sp.tail
func (sp *tagToStreamIDsRowParser) StreamIDsLen() int {
return len(sp.tail) / 16
}
// ParseStreamIDs parses StreamIDs from sp.tail into sp.StreamIDs.
func (sp *tagToStreamIDsRowParser) ParseStreamIDs() {
if sp.streamIDsParsed {
return
}
tail := sp.tail
n := len(tail) / 16
sp.StreamIDs = slicesutil.SetLength(sp.StreamIDs, n)
streamIDs := sp.StreamIDs
_ = streamIDs[n-1]
for i := 0; i < n; i++ {
var err error
tail, err = streamIDs[i].unmarshal(tail)
if err != nil {
logger.Panicf("FATAL: cannot unmarshal streamID: %s", err)
}
}
sp.streamIDsParsed = true
}
func (sp *tagToStreamIDsRowParser) UpdateStreamIDs(ids map[u128]struct{}, tail []byte) {
sp.Reset()
if err := sp.InitOnlyTail(tail); err != nil {
logger.Panicf("FATAL: cannot parse '(date, tag) -> streamIDs' row: %s", err)
}
sp.ParseStreamIDs()
for _, id := range sp.StreamIDs {
ids[id] = struct{}{}
}
}
// commonPrefixLen is the length of common prefix for indexdb rows
// 1 byte for ns* prefix + 8 bytes for tenantID
const commonPrefixLen = 1 + 8
func marshalCommonPrefix(dst []byte, nsPrefix byte, tenantID TenantID) []byte {
dst = append(dst, nsPrefix)
dst = tenantID.marshal(dst)
return dst
}
func unmarshalCommonPrefix(dstTenantID *TenantID, src []byte) ([]byte, byte, error) {
if len(src) < commonPrefixLen {
return nil, 0, fmt.Errorf("cannot unmarshal common prefix from %d bytes; need at least %d bytes; data=%X", len(src), commonPrefixLen, src)
}
prefix := src[0]
src = src[1:]
tail, err := dstTenantID.unmarshal(src)
if err != nil {
return nil, 0, fmt.Errorf("cannot unmarshal tenantID: %w", err)
}
return tail, prefix, nil
}
func checkItemsSorted(data []byte, items []mergeset.Item) bool {
if len(items) == 0 {
return true
}
prevItem := items[0].String(data)
for _, it := range items[1:] {
currItem := it.String(data)
if prevItem > currItem {
return false
}
prevItem = currItem
}
return true
}