VictoriaMetrics/lib/storage/table.go
Aliaksandr Valialkin d52fd73f18
all: add up to 10% random jitter to the interval between periodic tasks performed by various components
This should smooth CPU and RAM usage spikes related to these periodic tasks,
by reducing the probability that multiple concurrent periodic tasks are performed at the same time.
2024-01-22 18:39:16 +02:00

523 lines
13 KiB
Go

package storage
import (
"fmt"
"path/filepath"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/timeutil"
)
// table represents a single table with time series data.
type table struct {
path string
smallPartitionsPath string
bigPartitionsPath string
s *Storage
ptws []*partitionWrapper
ptwsLock sync.Mutex
stop chan struct{}
retentionWatcherWG sync.WaitGroup
finalDedupWatcherWG sync.WaitGroup
}
// partitionWrapper provides refcounting mechanism for the partition.
type partitionWrapper struct {
// Atomic counters must be at the top of struct for proper 8-byte alignment on 32-bit archs.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/212
refCount uint64
// The partition must be dropped if mustDrop > 0
mustDrop uint64
pt *partition
}
func (ptw *partitionWrapper) incRef() {
atomic.AddUint64(&ptw.refCount, 1)
}
func (ptw *partitionWrapper) decRef() {
n := atomic.AddUint64(&ptw.refCount, ^uint64(0))
if int64(n) < 0 {
logger.Panicf("BUG: pts.refCount must be positive; got %d", int64(n))
}
if n > 0 {
return
}
// refCount is zero. Close the partition.
ptw.pt.MustClose()
if atomic.LoadUint64(&ptw.mustDrop) == 0 {
ptw.pt = nil
return
}
// ptw.mustDrop > 0. Drop the partition.
ptw.pt.Drop()
ptw.pt = nil
}
func (ptw *partitionWrapper) scheduleToDrop() {
atomic.AddUint64(&ptw.mustDrop, 1)
}
// mustOpenTable opens a table on the given path.
//
// The table is created if it doesn't exist.
func mustOpenTable(path string, s *Storage) *table {
path = filepath.Clean(path)
// Create a directory for the table if it doesn't exist yet.
fs.MustMkdirIfNotExist(path)
// Create directories for small and big partitions if they don't exist yet.
smallPartitionsPath := filepath.Join(path, smallDirname)
fs.MustMkdirIfNotExist(smallPartitionsPath)
fs.MustRemoveTemporaryDirs(smallPartitionsPath)
smallSnapshotsPath := filepath.Join(smallPartitionsPath, snapshotsDirname)
fs.MustMkdirIfNotExist(smallSnapshotsPath)
fs.MustRemoveTemporaryDirs(smallSnapshotsPath)
bigPartitionsPath := filepath.Join(path, bigDirname)
fs.MustMkdirIfNotExist(bigPartitionsPath)
fs.MustRemoveTemporaryDirs(bigPartitionsPath)
bigSnapshotsPath := filepath.Join(bigPartitionsPath, snapshotsDirname)
fs.MustMkdirIfNotExist(bigSnapshotsPath)
fs.MustRemoveTemporaryDirs(bigSnapshotsPath)
// Open partitions.
pts := mustOpenPartitions(smallPartitionsPath, bigPartitionsPath, s)
tb := &table{
path: path,
smallPartitionsPath: smallPartitionsPath,
bigPartitionsPath: bigPartitionsPath,
s: s,
stop: make(chan struct{}),
}
for _, pt := range pts {
tb.addPartitionNolock(pt)
}
tb.startRetentionWatcher()
tb.startFinalDedupWatcher()
return tb
}
// CreateSnapshot creates tb snapshot and returns paths to small and big parts of it.
// If deadline is reached before snapshot is created error is returned.
// If any error occurs during snapshot created data is not removed.
func (tb *table) CreateSnapshot(snapshotName string, deadline uint64) (string, string, error) {
logger.Infof("creating table snapshot of %q...", tb.path)
startTime := time.Now()
ptws := tb.GetPartitions(nil)
defer tb.PutPartitions(ptws)
dstSmallDir := filepath.Join(tb.path, smallDirname, snapshotsDirname, snapshotName)
fs.MustMkdirFailIfExist(dstSmallDir)
dstBigDir := filepath.Join(tb.path, bigDirname, snapshotsDirname, snapshotName)
fs.MustMkdirFailIfExist(dstBigDir)
for _, ptw := range ptws {
if deadline > 0 && fasttime.UnixTimestamp() > deadline {
fs.MustRemoveAll(dstSmallDir)
fs.MustRemoveAll(dstBigDir)
return "", "", fmt.Errorf("cannot create snapshot for %q: timeout exceeded", tb.path)
}
smallPath := filepath.Join(dstSmallDir, ptw.pt.name)
bigPath := filepath.Join(dstBigDir, ptw.pt.name)
ptw.pt.MustCreateSnapshotAt(smallPath, bigPath)
}
fs.MustSyncPath(dstSmallDir)
fs.MustSyncPath(dstBigDir)
fs.MustSyncPath(filepath.Dir(dstSmallDir))
fs.MustSyncPath(filepath.Dir(dstBigDir))
logger.Infof("created table snapshot for %q at (%q, %q) in %.3f seconds", tb.path, dstSmallDir, dstBigDir, time.Since(startTime).Seconds())
return dstSmallDir, dstBigDir, nil
}
// MustDeleteSnapshot deletes snapshot with the given snapshotName.
func (tb *table) MustDeleteSnapshot(snapshotName string) {
smallDir := filepath.Join(tb.path, smallDirname, snapshotsDirname, snapshotName)
fs.MustRemoveDirAtomic(smallDir)
bigDir := filepath.Join(tb.path, bigDirname, snapshotsDirname, snapshotName)
fs.MustRemoveDirAtomic(bigDir)
}
func (tb *table) addPartitionNolock(pt *partition) {
ptw := &partitionWrapper{
pt: pt,
refCount: 1,
}
tb.ptws = append(tb.ptws, ptw)
}
// MustClose closes the table.
// It is expected that all the pending searches on the table are finished before calling MustClose.
func (tb *table) MustClose() {
close(tb.stop)
tb.retentionWatcherWG.Wait()
tb.finalDedupWatcherWG.Wait()
tb.ptwsLock.Lock()
ptws := tb.ptws
tb.ptws = nil
tb.ptwsLock.Unlock()
for _, ptw := range ptws {
if n := atomic.LoadUint64(&ptw.refCount); n != 1 {
logger.Panicf("BUG: unexpected refCount=%d when closing the partition; probably there are pending searches", n)
}
ptw.decRef()
}
}
// flushPendingRows flushes all the pending raw rows, so they become visible to search.
//
// This function is for debug purposes only.
func (tb *table) flushPendingRows() {
ptws := tb.GetPartitions(nil)
defer tb.PutPartitions(ptws)
var rows []rawRow
for _, ptw := range ptws {
rows = ptw.pt.flushPendingRows(rows[:0], true)
}
}
// TableMetrics contains essential metrics for the table.
type TableMetrics struct {
partitionMetrics
PartitionsRefCount uint64
}
// UpdateMetrics updates m with metrics from tb.
func (tb *table) UpdateMetrics(m *TableMetrics) {
tb.ptwsLock.Lock()
for _, ptw := range tb.ptws {
ptw.pt.UpdateMetrics(&m.partitionMetrics)
m.PartitionsRefCount += atomic.LoadUint64(&ptw.refCount)
}
tb.ptwsLock.Unlock()
}
// ForceMergePartitions force-merges partitions in tb with names starting from the given partitionNamePrefix.
//
// Partitions are merged sequentially in order to reduce load on the system.
func (tb *table) ForceMergePartitions(partitionNamePrefix string) error {
ptws := tb.GetPartitions(nil)
defer tb.PutPartitions(ptws)
for _, ptw := range ptws {
if !strings.HasPrefix(ptw.pt.name, partitionNamePrefix) {
continue
}
logger.Infof("starting forced merge for partition %q", ptw.pt.name)
startTime := time.Now()
if err := ptw.pt.ForceMergeAllParts(); err != nil {
return fmt.Errorf("cannot complete forced merge for partition %q: %w", ptw.pt.name, err)
}
logger.Infof("forced merge for partition %q has been finished in %.3f seconds", ptw.pt.name, time.Since(startTime).Seconds())
}
return nil
}
// MustAddRows adds the given rows to the table tb.
func (tb *table) MustAddRows(rows []rawRow) {
if len(rows) == 0 {
return
}
// Verify whether all the rows may be added to a single partition.
ptwsX := getPartitionWrappers()
defer putPartitionWrappers(ptwsX)
ptwsX.a = tb.GetPartitions(ptwsX.a[:0])
ptws := ptwsX.a
for i, ptw := range ptws {
singlePt := true
for j := range rows {
if !ptw.pt.HasTimestamp(rows[j].Timestamp) {
singlePt = false
break
}
}
if !singlePt {
continue
}
if i != 0 {
// Move the partition with the matching rows to the front of tb.ptws,
// so it will be detected faster next time.
tb.ptwsLock.Lock()
for j := range tb.ptws {
if ptw == tb.ptws[j] {
tb.ptws[0], tb.ptws[j] = tb.ptws[j], tb.ptws[0]
break
}
}
tb.ptwsLock.Unlock()
}
// Fast path - add all the rows into the ptw.
ptw.pt.AddRows(rows)
tb.PutPartitions(ptws)
return
}
// Slower path - split rows into per-partition buckets.
ptBuckets := make(map[*partitionWrapper][]rawRow)
var missingRows []rawRow
for i := range rows {
r := &rows[i]
ptFound := false
for _, ptw := range ptws {
if ptw.pt.HasTimestamp(r.Timestamp) {
ptBuckets[ptw] = append(ptBuckets[ptw], *r)
ptFound = true
break
}
}
if !ptFound {
missingRows = append(missingRows, *r)
}
}
for ptw, ptRows := range ptBuckets {
ptw.pt.AddRows(ptRows)
}
tb.PutPartitions(ptws)
if len(missingRows) == 0 {
return
}
// The slowest path - there are rows that don't fit any existing partition.
// Create new partitions for these rows.
// Do this under tb.ptwsLock.
minTimestamp, maxTimestamp := tb.getMinMaxTimestamps()
tb.ptwsLock.Lock()
for i := range missingRows {
r := &missingRows[i]
if r.Timestamp < minTimestamp || r.Timestamp > maxTimestamp {
// Silently skip row outside retention, since it should be deleted anyway.
continue
}
// Make sure the partition for the r hasn't been added by another goroutines.
ptFound := false
for _, ptw := range tb.ptws {
if ptw.pt.HasTimestamp(r.Timestamp) {
ptFound = true
ptw.pt.AddRows(missingRows[i : i+1])
break
}
}
if ptFound {
continue
}
pt := mustCreatePartition(r.Timestamp, tb.smallPartitionsPath, tb.bigPartitionsPath, tb.s)
pt.AddRows(missingRows[i : i+1])
tb.addPartitionNolock(pt)
}
tb.ptwsLock.Unlock()
}
func (tb *table) getMinMaxTimestamps() (int64, int64) {
now := int64(fasttime.UnixTimestamp() * 1000)
minTimestamp := now - tb.s.retentionMsecs
maxTimestamp := now + 2*24*3600*1000 // allow max +2 days from now due to timezones shit :)
if minTimestamp < 0 {
// Negative timestamps aren't supported by the storage.
minTimestamp = 0
}
if maxTimestamp < 0 {
maxTimestamp = (1 << 63) - 1
}
return minTimestamp, maxTimestamp
}
func (tb *table) startRetentionWatcher() {
tb.retentionWatcherWG.Add(1)
go func() {
tb.retentionWatcher()
tb.retentionWatcherWG.Done()
}()
}
func (tb *table) retentionWatcher() {
d := timeutil.AddJitterToDuration(time.Minute)
ticker := time.NewTicker(d)
defer ticker.Stop()
for {
select {
case <-tb.stop:
return
case <-ticker.C:
}
minTimestamp := int64(fasttime.UnixTimestamp()*1000) - tb.s.retentionMsecs
var ptwsDrop []*partitionWrapper
tb.ptwsLock.Lock()
dst := tb.ptws[:0]
for _, ptw := range tb.ptws {
if ptw.pt.tr.MaxTimestamp < minTimestamp {
ptwsDrop = append(ptwsDrop, ptw)
} else {
dst = append(dst, ptw)
}
}
tb.ptws = dst
tb.ptwsLock.Unlock()
if len(ptwsDrop) == 0 {
continue
}
// There are partitions to drop. Drop them.
// Remove table references from partitions, so they will be eventually
// closed and dropped after all the pending searches are done.
for _, ptw := range ptwsDrop {
ptw.scheduleToDrop()
ptw.decRef()
}
}
}
func (tb *table) startFinalDedupWatcher() {
tb.finalDedupWatcherWG.Add(1)
go func() {
tb.finalDedupWatcher()
tb.finalDedupWatcherWG.Done()
}()
}
func (tb *table) finalDedupWatcher() {
if !isDedupEnabled() {
// Deduplication is disabled.
return
}
f := func() {
ptws := tb.GetPartitions(nil)
defer tb.PutPartitions(ptws)
timestamp := timestampFromTime(time.Now())
currentPartitionName := timestampToPartitionName(timestamp)
for _, ptw := range ptws {
if ptw.pt.name == currentPartitionName || !ptw.pt.isFinalDedupNeeded() {
// Do not run final dedup for the current month.
continue
}
if err := ptw.pt.runFinalDedup(); err != nil {
logger.Errorf("cannot run final dedup for partition %s: %s", ptw.pt.name, err)
continue
}
}
}
d := timeutil.AddJitterToDuration(time.Hour)
t := time.NewTicker(d)
defer t.Stop()
for {
select {
case <-tb.stop:
return
case <-t.C:
f()
}
}
}
// GetPartitions appends tb's partitions snapshot to dst and returns the result.
//
// The returned partitions must be passed to PutPartitions
// when they no longer needed.
func (tb *table) GetPartitions(dst []*partitionWrapper) []*partitionWrapper {
tb.ptwsLock.Lock()
for _, ptw := range tb.ptws {
ptw.incRef()
dst = append(dst, ptw)
}
tb.ptwsLock.Unlock()
return dst
}
// PutPartitions deregisters ptws obtained via GetPartitions.
func (tb *table) PutPartitions(ptws []*partitionWrapper) {
for _, ptw := range ptws {
ptw.decRef()
}
}
func mustOpenPartitions(smallPartitionsPath, bigPartitionsPath string, s *Storage) []*partition {
// Certain partition directories in either `big` or `small` dir may be missing
// after restoring from backup. So populate partition names from both dirs.
ptNames := make(map[string]bool)
mustPopulatePartitionNames(smallPartitionsPath, ptNames)
mustPopulatePartitionNames(bigPartitionsPath, ptNames)
var pts []*partition
for ptName := range ptNames {
smallPartsPath := filepath.Join(smallPartitionsPath, ptName)
bigPartsPath := filepath.Join(bigPartitionsPath, ptName)
pt := mustOpenPartition(smallPartsPath, bigPartsPath, s)
pts = append(pts, pt)
}
return pts
}
func mustPopulatePartitionNames(partitionsPath string, ptNames map[string]bool) {
des := fs.MustReadDir(partitionsPath)
for _, de := range des {
if !fs.IsDirOrSymlink(de) {
// Skip non-directories
continue
}
ptName := de.Name()
if ptName == snapshotsDirname {
// Skip directory with snapshots
continue
}
ptNames[ptName] = true
}
}
type partitionWrappers struct {
a []*partitionWrapper
}
func getPartitionWrappers() *partitionWrappers {
v := ptwsPool.Get()
if v == nil {
return &partitionWrappers{}
}
return v.(*partitionWrappers)
}
func putPartitionWrappers(ptwsX *partitionWrappers) {
ptwsX.a = ptwsX.a[:0]
ptwsPool.Put(ptwsX)
}
var ptwsPool sync.Pool