VictoriaMetrics/app/vmselect/netstorage/netstorage.go

2345 lines
75 KiB
Go

package netstorage
import (
"container/heap"
"errors"
"flag"
"fmt"
"io"
"net"
"net/http"
"regexp"
"sort"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/VictoriaMetrics/VictoriaMetrics/app/vmselect/searchutils"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/auth"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/cgroup"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/handshake"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/httpserver"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/netutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/querytracer"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/storage"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/syncwg"
"github.com/VictoriaMetrics/metrics"
"github.com/cespare/xxhash/v2"
"github.com/valyala/fastrand"
)
var (
replicationFactor = flag.Int("replicationFactor", 1, "How many copies of every time series is available on vmstorage nodes. "+
"See -replicationFactor command-line flag for vminsert nodes")
maxSamplesPerSeries = flag.Int("search.maxSamplesPerSeries", 30e6, "The maximum number of raw samples a single query can scan per each time series. See also -search.maxSamplesPerQuery")
maxSamplesPerQuery = flag.Int("search.maxSamplesPerQuery", 1e9, "The maximum number of raw samples a single query can process across all time series. This protects from heavy queries, which select unexpectedly high number of raw samples. See also -search.maxSamplesPerSeries")
vmstorageDialTimeout = flag.Duration("vmstorageDialTimeout", 5*time.Second, "Timeout for establishing RPC connections from vmselect to vmstorage")
)
// Result is a single timeseries result.
//
// ProcessSearchQuery returns Result slice.
type Result struct {
// The name of the metric.
MetricName storage.MetricName
// Values are sorted by Timestamps.
Values []float64
Timestamps []int64
}
func (r *Result) reset() {
r.MetricName.Reset()
r.Values = r.Values[:0]
r.Timestamps = r.Timestamps[:0]
}
// Results holds results returned from ProcessSearchQuery.
type Results struct {
at *auth.Token
tr storage.TimeRange
fetchData bool
deadline searchutils.Deadline
tbf *tmpBlocksFile
packedTimeseries []packedTimeseries
}
// Len returns the number of results in rss.
func (rss *Results) Len() int {
return len(rss.packedTimeseries)
}
// Cancel cancels rss work.
func (rss *Results) Cancel() {
putTmpBlocksFile(rss.tbf)
rss.tbf = nil
}
type timeseriesWork struct {
mustStop *uint32
rss *Results
pts *packedTimeseries
f func(rs *Result, workerID uint) error
doneCh chan error
rowsProcessed int
}
func (tsw *timeseriesWork) reset() {
tsw.mustStop = nil
tsw.rss = nil
tsw.pts = nil
tsw.f = nil
if n := len(tsw.doneCh); n > 0 {
logger.Panicf("BUG: tsw.doneCh must be empty during reset; it contains %d items instead", n)
}
tsw.rowsProcessed = 0
}
func getTimeseriesWork() *timeseriesWork {
v := tswPool.Get()
if v == nil {
v = &timeseriesWork{
doneCh: make(chan error, 1),
}
}
return v.(*timeseriesWork)
}
func putTimeseriesWork(tsw *timeseriesWork) {
tsw.reset()
tswPool.Put(tsw)
}
var tswPool sync.Pool
func scheduleTimeseriesWork(workChs []chan *timeseriesWork, tsw *timeseriesWork) {
if len(workChs) == 1 {
// Fast path for a single worker
workChs[0] <- tsw
return
}
attempts := 0
for {
idx := fastrand.Uint32n(uint32(len(workChs)))
select {
case workChs[idx] <- tsw:
return
default:
attempts++
if attempts >= len(workChs) {
workChs[idx] <- tsw
return
}
}
}
}
func (tsw *timeseriesWork) do(r *Result, workerID uint) error {
if atomic.LoadUint32(tsw.mustStop) != 0 {
return nil
}
rss := tsw.rss
if rss.deadline.Exceeded() {
atomic.StoreUint32(tsw.mustStop, 1)
return fmt.Errorf("timeout exceeded during query execution: %s", rss.deadline.String())
}
if err := tsw.pts.Unpack(r, rss.tbf, rss.tr, rss.fetchData, rss.at); err != nil {
atomic.StoreUint32(tsw.mustStop, 1)
return fmt.Errorf("error during time series unpacking: %w", err)
}
if len(r.Timestamps) > 0 || !rss.fetchData {
if err := tsw.f(r, workerID); err != nil {
atomic.StoreUint32(tsw.mustStop, 1)
return err
}
}
tsw.rowsProcessed = len(r.Values)
return nil
}
func timeseriesWorker(ch <-chan *timeseriesWork, workerID uint) {
v := resultPool.Get()
if v == nil {
v = &result{}
}
r := v.(*result)
for tsw := range ch {
err := tsw.do(&r.rs, workerID)
tsw.doneCh <- err
}
currentTime := fasttime.UnixTimestamp()
if cap(r.rs.Values) > 1024*1024 && 4*len(r.rs.Values) < cap(r.rs.Values) && currentTime-r.lastResetTime > 10 {
// Reset r.rs in order to preseve memory usage after processing big time series with millions of rows.
r.rs = Result{}
r.lastResetTime = currentTime
}
resultPool.Put(r)
}
type result struct {
rs Result
lastResetTime uint64
}
var resultPool sync.Pool
// RunParallel runs f in parallel for all the results from rss.
//
// f shouldn't hold references to rs after returning.
// workerID is the id of the worker goroutine that calls f.
// Data processing is immediately stopped if f returns non-nil error.
//
// rss becomes unusable after the call to RunParallel.
func (rss *Results) RunParallel(qt *querytracer.Tracer, f func(rs *Result, workerID uint) error) error {
qt = qt.NewChild("parallel process of fetched data")
defer func() {
putTmpBlocksFile(rss.tbf)
rss.tbf = nil
}()
// Spin up local workers.
//
// Do not use a global workChs with a global pool of workers, since it may lead to a deadlock in the following case:
// - RunParallel is called with f, which blocks without forward progress.
// - All the workers in the global pool became blocked in f.
// - workChs is filled up, so it cannot accept new work items from other RunParallel calls.
workers := len(rss.packedTimeseries)
if workers > gomaxprocs {
workers = gomaxprocs
}
if workers < 1 {
workers = 1
}
workChs := make([]chan *timeseriesWork, workers)
var workChsWG sync.WaitGroup
for i := 0; i < workers; i++ {
workChs[i] = make(chan *timeseriesWork, 16)
workChsWG.Add(1)
go func(workerID int) {
defer workChsWG.Done()
timeseriesWorker(workChs[workerID], uint(workerID))
}(i)
}
// Feed workers with work.
tsws := make([]*timeseriesWork, len(rss.packedTimeseries))
var mustStop uint32
for i := range rss.packedTimeseries {
tsw := getTimeseriesWork()
tsw.rss = rss
tsw.pts = &rss.packedTimeseries[i]
tsw.f = f
tsw.mustStop = &mustStop
scheduleTimeseriesWork(workChs, tsw)
tsws[i] = tsw
}
seriesProcessedTotal := len(rss.packedTimeseries)
rss.packedTimeseries = rss.packedTimeseries[:0]
// Wait until work is complete.
var firstErr error
rowsProcessedTotal := 0
for _, tsw := range tsws {
if err := <-tsw.doneCh; err != nil && firstErr == nil {
// Return just the first error, since other errors are likely duplicate the first error.
firstErr = err
}
rowsProcessedTotal += tsw.rowsProcessed
putTimeseriesWork(tsw)
}
perQueryRowsProcessed.Update(float64(rowsProcessedTotal))
perQuerySeriesProcessed.Update(float64(seriesProcessedTotal))
// Shut down local workers
for _, workCh := range workChs {
close(workCh)
}
workChsWG.Wait()
qt.Donef("series=%d, samples=%d", seriesProcessedTotal, rowsProcessedTotal)
return firstErr
}
var perQueryRowsProcessed = metrics.NewHistogram(`vm_per_query_rows_processed_count`)
var perQuerySeriesProcessed = metrics.NewHistogram(`vm_per_query_series_processed_count`)
var gomaxprocs = cgroup.AvailableCPUs()
type packedTimeseries struct {
metricName string
addrs []tmpBlockAddr
}
type unpackWorkItem struct {
addr tmpBlockAddr
tr storage.TimeRange
}
type unpackWork struct {
ws []unpackWorkItem
tbf *tmpBlocksFile
at *auth.Token
sbs []*sortBlock
doneCh chan error
}
func (upw *unpackWork) reset() {
ws := upw.ws
for i := range ws {
w := &ws[i]
w.addr = tmpBlockAddr{}
w.tr = storage.TimeRange{}
}
upw.ws = upw.ws[:0]
upw.tbf = nil
upw.at = nil
sbs := upw.sbs
for i := range sbs {
sbs[i] = nil
}
upw.sbs = upw.sbs[:0]
if n := len(upw.doneCh); n > 0 {
logger.Panicf("BUG: upw.doneCh must be empty; it contains %d items now", n)
}
}
func (upw *unpackWork) unpack(tmpBlock *storage.Block) {
for _, w := range upw.ws {
sb := getSortBlock()
if err := sb.unpackFrom(tmpBlock, upw.tbf, w.addr, w.tr, upw.at); err != nil {
putSortBlock(sb)
upw.doneCh <- fmt.Errorf("cannot unpack block: %w", err)
return
}
upw.sbs = append(upw.sbs, sb)
}
upw.doneCh <- nil
}
func getUnpackWork() *unpackWork {
v := unpackWorkPool.Get()
if v != nil {
return v.(*unpackWork)
}
return &unpackWork{
doneCh: make(chan error, 1),
}
}
func putUnpackWork(upw *unpackWork) {
upw.reset()
unpackWorkPool.Put(upw)
}
var unpackWorkPool sync.Pool
func scheduleUnpackWork(workChs []chan *unpackWork, uw *unpackWork) {
if len(workChs) == 1 {
// Fast path for a single worker
workChs[0] <- uw
return
}
attempts := 0
for {
idx := fastrand.Uint32n(uint32(len(workChs)))
select {
case workChs[idx] <- uw:
return
default:
attempts++
if attempts >= len(workChs) {
workChs[idx] <- uw
return
}
}
}
}
func unpackWorker(ch <-chan *unpackWork) {
v := tmpBlockPool.Get()
if v == nil {
v = &storage.Block{}
}
tmpBlock := v.(*storage.Block)
for upw := range ch {
upw.unpack(tmpBlock)
}
tmpBlockPool.Put(v)
}
var tmpBlockPool sync.Pool
// unpackBatchSize is the maximum number of blocks that may be unpacked at once by a single goroutine.
//
// It is better to load a single goroutine for up to one second on a system with many CPU cores
// in order to reduce inter-CPU memory ping-pong.
// A single goroutine can unpack up to 40 millions of rows per second, while a single block contains up to 8K rows.
// So the batch size should be 40M / 8K = 5K.
var unpackBatchSize = 5000
// Unpack unpacks pts to dst.
func (pts *packedTimeseries) Unpack(dst *Result, tbf *tmpBlocksFile, tr storage.TimeRange, fetchData bool, at *auth.Token) error {
dst.reset()
if err := dst.MetricName.Unmarshal(bytesutil.ToUnsafeBytes(pts.metricName)); err != nil {
return fmt.Errorf("cannot unmarshal metricName %q: %w", pts.metricName, err)
}
if !fetchData {
// Do not spend resources on data reading and unpacking.
return nil
}
// Spin up local workers.
// Do not use global workers pool, since it increases inter-CPU memory ping-poing,
// which reduces the scalability on systems with many CPU cores.
addrsLen := len(pts.addrs)
workers := addrsLen / unpackBatchSize
if workers > gomaxprocs {
workers = gomaxprocs
}
if workers < 1 {
workers = 1
}
workChs := make([]chan *unpackWork, workers)
var workChsWG sync.WaitGroup
for i := 0; i < workers; i++ {
// Use unbuffered channel on purpose, since there are high chances
// that only a single unpackWork is needed to unpack.
// The unbuffered channel should reduce inter-CPU ping-pong in this case,
// which should improve the performance in a system with many CPU cores.
workChs[i] = make(chan *unpackWork)
workChsWG.Add(1)
go func(workerID int) {
defer workChsWG.Done()
unpackWorker(workChs[workerID])
}(i)
}
// Feed workers with work
upws := make([]*unpackWork, 0, 1+addrsLen/unpackBatchSize)
upw := getUnpackWork()
upw.tbf = tbf
upw.at = at
for _, addr := range pts.addrs {
if len(upw.ws) >= unpackBatchSize {
scheduleUnpackWork(workChs, upw)
upws = append(upws, upw)
upw = getUnpackWork()
upw.tbf = tbf
upw.at = at
}
upw.ws = append(upw.ws, unpackWorkItem{
addr: addr,
tr: tr,
})
}
scheduleUnpackWork(workChs, upw)
upws = append(upws, upw)
pts.addrs = pts.addrs[:0]
// Wait until work is complete
samples := 0
sbs := make([]*sortBlock, 0, addrsLen)
var firstErr error
for _, upw := range upws {
if err := <-upw.doneCh; err != nil && firstErr == nil {
// Return the first error only, since other errors are likely the same.
firstErr = err
}
if firstErr == nil {
for _, sb := range upw.sbs {
samples += len(sb.Timestamps)
}
if *maxSamplesPerSeries <= 0 || samples < *maxSamplesPerSeries {
sbs = append(sbs, upw.sbs...)
} else {
firstErr = fmt.Errorf("cannot process more than %d samples per series; either increase -search.maxSamplesPerSeries "+
"or reduce time range for the query", *maxSamplesPerSeries)
}
}
if firstErr != nil {
for _, sb := range upw.sbs {
putSortBlock(sb)
}
}
putUnpackWork(upw)
}
// Shut down local workers
for _, workCh := range workChs {
close(workCh)
}
workChsWG.Wait()
if firstErr != nil {
return firstErr
}
dedupInterval := storage.GetDedupInterval()
mergeSortBlocks(dst, sbs, dedupInterval)
return nil
}
func getSortBlock() *sortBlock {
v := sbPool.Get()
if v == nil {
return &sortBlock{}
}
return v.(*sortBlock)
}
func putSortBlock(sb *sortBlock) {
sb.reset()
sbPool.Put(sb)
}
var sbPool sync.Pool
var metricRowsSkipped = metrics.NewCounter(`vm_metric_rows_skipped_total{name="vmselect"}`)
func mergeSortBlocks(dst *Result, sbh sortBlocksHeap, dedupInterval int64) {
// Skip empty sort blocks, since they cannot be passed to heap.Init.
src := sbh
sbh = sbh[:0]
for _, sb := range src {
if len(sb.Timestamps) == 0 {
putSortBlock(sb)
continue
}
sbh = append(sbh, sb)
}
if len(sbh) == 0 {
return
}
heap.Init(&sbh)
for {
top := sbh[0]
heap.Pop(&sbh)
if len(sbh) == 0 {
dst.Timestamps = append(dst.Timestamps, top.Timestamps[top.NextIdx:]...)
dst.Values = append(dst.Values, top.Values[top.NextIdx:]...)
putSortBlock(top)
break
}
sbNext := sbh[0]
tsNext := sbNext.Timestamps[sbNext.NextIdx]
idxNext := len(top.Timestamps)
if top.Timestamps[idxNext-1] > tsNext {
idxNext = top.NextIdx
for top.Timestamps[idxNext] <= tsNext {
idxNext++
}
}
dst.Timestamps = append(dst.Timestamps, top.Timestamps[top.NextIdx:idxNext]...)
dst.Values = append(dst.Values, top.Values[top.NextIdx:idxNext]...)
if idxNext < len(top.Timestamps) {
top.NextIdx = idxNext
heap.Push(&sbh, top)
} else {
// Return top to the pool.
putSortBlock(top)
}
}
timestamps, values := storage.DeduplicateSamples(dst.Timestamps, dst.Values, dedupInterval)
dedups := len(dst.Timestamps) - len(timestamps)
dedupsDuringSelect.Add(dedups)
dst.Timestamps = timestamps
dst.Values = values
}
var dedupsDuringSelect = metrics.NewCounter(`vm_deduplicated_samples_total{type="select"}`)
type sortBlock struct {
Timestamps []int64
Values []float64
NextIdx int
}
func (sb *sortBlock) reset() {
sb.Timestamps = sb.Timestamps[:0]
sb.Values = sb.Values[:0]
sb.NextIdx = 0
}
func (sb *sortBlock) unpackFrom(tmpBlock *storage.Block, tbf *tmpBlocksFile, addr tmpBlockAddr, tr storage.TimeRange, at *auth.Token) error {
tmpBlock.Reset()
tbf.MustReadBlockAt(tmpBlock, addr)
if err := tmpBlock.UnmarshalData(); err != nil {
return fmt.Errorf("cannot unmarshal block: %w", err)
}
sb.Timestamps, sb.Values = tmpBlock.AppendRowsWithTimeRangeFilter(sb.Timestamps[:0], sb.Values[:0], tr)
skippedRows := tmpBlock.RowsCount() - len(sb.Timestamps)
metricRowsSkipped.Add(skippedRows)
return nil
}
type sortBlocksHeap []*sortBlock
func (sbh sortBlocksHeap) Len() int {
return len(sbh)
}
func (sbh sortBlocksHeap) Less(i, j int) bool {
a := sbh[i]
b := sbh[j]
return a.Timestamps[a.NextIdx] < b.Timestamps[b.NextIdx]
}
func (sbh sortBlocksHeap) Swap(i, j int) {
sbh[i], sbh[j] = sbh[j], sbh[i]
}
func (sbh *sortBlocksHeap) Push(x interface{}) {
*sbh = append(*sbh, x.(*sortBlock))
}
func (sbh *sortBlocksHeap) Pop() interface{} {
a := *sbh
v := a[len(a)-1]
*sbh = a[:len(a)-1]
return v
}
// RegisterMetricNames registers metric names from mrs in the storage.
func RegisterMetricNames(qt *querytracer.Tracer, at *auth.Token, mrs []storage.MetricRow, deadline searchutils.Deadline) error {
qt = qt.NewChild("register metric names")
defer qt.Done()
// Split mrs among available vmstorage nodes.
mrsPerNode := make([][]storage.MetricRow, len(storageNodes))
for _, mr := range mrs {
idx := 0
if len(storageNodes) > 1 {
// There is no need in using the same hash as for time series distribution in vminsert,
// since RegisterMetricNames is used only in Graphite Tags API.
h := xxhash.Sum64(mr.MetricNameRaw)
idx = int(h % uint64(len(storageNodes)))
}
mrsPerNode[idx] = append(mrsPerNode[idx], mr)
}
// Push mrs to storage nodes in parallel.
snr := startStorageNodesRequest(qt, true, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.registerMetricNamesRequests.Inc()
err := sn.registerMetricNames(qt, mrsPerNode[idx], deadline)
if err != nil {
sn.registerMetricNamesErrors.Inc()
}
return &err
})
// Collect results
err := snr.collectAllResults(func(result interface{}) error {
errP := result.(*error)
return *errP
})
if err != nil {
return fmt.Errorf("cannot register series on all the vmstorage nodes: %w", err)
}
return nil
}
// DeleteSeries deletes time series matching the given sq.
func DeleteSeries(qt *querytracer.Tracer, at *auth.Token, sq *storage.SearchQuery, deadline searchutils.Deadline) (int, error) {
qt = qt.NewChild("delete series: %s", sq)
defer qt.Done()
requestData := sq.Marshal(nil)
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
deletedCount int
err error
}
snr := startStorageNodesRequest(qt, true, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.deleteSeriesRequests.Inc()
deletedCount, err := sn.deleteMetrics(qt, requestData, deadline)
if err != nil {
sn.deleteSeriesErrors.Inc()
}
return &nodeResult{
deletedCount: deletedCount,
err: err,
}
})
// Collect results
deletedTotal := 0
err := snr.collectAllResults(func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
deletedTotal += nr.deletedCount
return nil
})
if err != nil {
return deletedTotal, fmt.Errorf("cannot delete time series on all the vmstorage nodes: %w", err)
}
return deletedTotal, nil
}
// LabelNames returns label names matching the given sq until the given deadline.
func LabelNames(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, sq *storage.SearchQuery, maxLabelNames int, deadline searchutils.Deadline) ([]string, bool, error) {
qt = qt.NewChild("get labels: %s", sq)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
requestData := sq.Marshal(nil)
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
labelNames []string
err error
}
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.labelNamesRequests.Inc()
labelNames, err := sn.getLabelNames(qt, requestData, maxLabelNames, deadline)
if err != nil {
sn.labelNamesErrors.Inc()
err = fmt.Errorf("cannot get labels from vmstorage %s: %w", sn.connPool.Addr(), err)
}
return &nodeResult{
labelNames: labelNames,
err: err,
}
})
// Collect results
var labelNames []string
isPartial, err := snr.collectResults(partialLabelNamesResults, func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
labelNames = append(labelNames, nr.labelNames...)
return nil
})
qt.Printf("get %d non-duplicated labels", len(labelNames))
if err != nil {
return nil, isPartial, fmt.Errorf("cannot fetch labels from vmstorage nodes: %w", err)
}
// Deduplicate labels
labelNames = deduplicateStrings(labelNames)
qt.Printf("get %d unique labels after de-duplication", len(labelNames))
if maxLabelNames > 0 && maxLabelNames < len(labelNames) {
labelNames = labelNames[:maxLabelNames]
}
// Sort labelNames like Prometheus does
sort.Strings(labelNames)
qt.Printf("sort %d labels", len(labelNames))
return labelNames, isPartial, nil
}
// GraphiteTags returns Graphite tags until the given deadline.
func GraphiteTags(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, filter string, limit int, deadline searchutils.Deadline) ([]string, bool, error) {
qt = qt.NewChild("get graphite tags: filter=%s, limit=%d", filter, limit)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
sq := storage.NewSearchQuery(at.AccountID, at.ProjectID, 0, 0, nil, 0)
labels, isPartial, err := LabelNames(qt, at, denyPartialResponse, sq, 0, deadline)
if err != nil {
return nil, false, err
}
// Substitute "__name__" with "name" for Graphite compatibility
for i := range labels {
if labels[i] != "__name__" {
continue
}
// Prevent from duplicate `name` tag.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/942
if hasString(labels, "name") {
labels = append(labels[:i], labels[i+1:]...)
} else {
labels[i] = "name"
sort.Strings(labels)
}
break
}
if len(filter) > 0 {
labels, err = applyGraphiteRegexpFilter(filter, labels)
if err != nil {
return nil, false, err
}
}
if limit > 0 && limit < len(labels) {
labels = labels[:limit]
}
return labels, isPartial, nil
}
func hasString(a []string, s string) bool {
for _, x := range a {
if x == s {
return true
}
}
return false
}
// LabelValues returns label values matching the given labelName and sq until the given deadline.
func LabelValues(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, labelName string, sq *storage.SearchQuery,
maxLabelValues int, deadline searchutils.Deadline) ([]string, bool, error) {
qt = qt.NewChild("get values for label %s: %s", labelName, sq)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
requestData := sq.Marshal(nil)
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
labelValues []string
err error
}
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.labelValuesRequests.Inc()
labelValues, err := sn.getLabelValues(qt, labelName, requestData, maxLabelValues, deadline)
if err != nil {
sn.labelValuesErrors.Inc()
err = fmt.Errorf("cannot get label values from vmstorage %s: %w", sn.connPool.Addr(), err)
}
return &nodeResult{
labelValues: labelValues,
err: err,
}
})
// Collect results
var labelValues []string
isPartial, err := snr.collectResults(partialLabelValuesResults, func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
labelValues = append(labelValues, nr.labelValues...)
return nil
})
qt.Printf("get %d non-duplicated label values", len(labelValues))
if err != nil {
return nil, isPartial, fmt.Errorf("cannot fetch label values from vmstorage nodes: %w", err)
}
// Deduplicate label values
labelValues = deduplicateStrings(labelValues)
qt.Printf("get %d unique label values after de-duplication", len(labelValues))
// Sort labelValues like Prometheus does
if maxLabelValues > 0 && maxLabelValues < len(labelValues) {
labelValues = labelValues[:maxLabelValues]
}
sort.Strings(labelValues)
qt.Printf("sort %d label values", len(labelValues))
return labelValues, isPartial, nil
}
// GraphiteTagValues returns tag values for the given tagName until the given deadline.
func GraphiteTagValues(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, tagName, filter string, limit int, deadline searchutils.Deadline) ([]string, bool, error) {
qt = qt.NewChild("get graphite tag values for tagName=%s, filter=%s, limit=%d", tagName, filter, limit)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
if tagName == "name" {
tagName = ""
}
sq := storage.NewSearchQuery(at.AccountID, at.ProjectID, 0, 0, nil, 0)
tagValues, isPartial, err := LabelValues(qt, at, denyPartialResponse, tagName, sq, 0, deadline)
if err != nil {
return nil, false, err
}
if len(filter) > 0 {
tagValues, err = applyGraphiteRegexpFilter(filter, tagValues)
if err != nil {
return nil, false, err
}
}
if limit > 0 && limit < len(tagValues) {
tagValues = tagValues[:limit]
}
return tagValues, isPartial, nil
}
// TagValueSuffixes returns tag value suffixes for the given tagKey and the given tagValuePrefix.
//
// It can be used for implementing https://graphite-api.readthedocs.io/en/latest/api.html#metrics-find
func TagValueSuffixes(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, tr storage.TimeRange, tagKey, tagValuePrefix string,
delimiter byte, deadline searchutils.Deadline) ([]string, bool, error) {
qt = qt.NewChild("get tag value suffixes for tagKey=%s, tagValuePrefix=%s, timeRange=%s", tagKey, tagValuePrefix, &tr)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
suffixes []string
err error
}
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.tagValueSuffixesRequests.Inc()
suffixes, err := sn.getTagValueSuffixes(qt, at.AccountID, at.ProjectID, tr, tagKey, tagValuePrefix, delimiter, deadline)
if err != nil {
sn.tagValueSuffixesErrors.Inc()
err = fmt.Errorf("cannot get tag value suffixes for tr=%s, tagKey=%q, tagValuePrefix=%q, delimiter=%c from vmstorage %s: %w",
tr.String(), tagKey, tagValuePrefix, delimiter, sn.connPool.Addr(), err)
}
return &nodeResult{
suffixes: suffixes,
err: err,
}
})
// Collect results
m := make(map[string]struct{})
isPartial, err := snr.collectResults(partialTagValueSuffixesResults, func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
for _, suffix := range nr.suffixes {
m[suffix] = struct{}{}
}
return nil
})
if err != nil {
return nil, isPartial, fmt.Errorf("cannot fetch tag value suffixes from vmstorage nodes: %w", err)
}
suffixes := make([]string, 0, len(m))
for suffix := range m {
suffixes = append(suffixes, suffix)
}
return suffixes, isPartial, nil
}
func deduplicateStrings(a []string) []string {
m := make(map[string]bool, len(a))
for _, s := range a {
m[s] = true
}
a = a[:0]
for s := range m {
a = append(a, s)
}
return a
}
// TSDBStatus returns tsdb status according to https://prometheus.io/docs/prometheus/latest/querying/api/#tsdb-stats
//
// It accepts aribtrary filters on time series in sq.
func TSDBStatus(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, sq *storage.SearchQuery, focusLabel string, topN int, deadline searchutils.Deadline) (*storage.TSDBStatus, bool, error) {
qt = qt.NewChild("get tsdb stats: %s, focusLabel=%q, topN=%d", sq, focusLabel, topN)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
requestData := sq.Marshal(nil)
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
status *storage.TSDBStatus
err error
}
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.tsdbStatusRequests.Inc()
status, err := sn.getTSDBStatus(qt, requestData, focusLabel, topN, deadline)
if err != nil {
sn.tsdbStatusErrors.Inc()
err = fmt.Errorf("cannot obtain tsdb status from vmstorage %s: %w", sn.connPool.Addr(), err)
}
return &nodeResult{
status: status,
err: err,
}
})
// Collect results.
var statuses []*storage.TSDBStatus
isPartial, err := snr.collectResults(partialTSDBStatusResults, func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
statuses = append(statuses, nr.status)
return nil
})
if err != nil {
return nil, isPartial, fmt.Errorf("cannot fetch tsdb status from vmstorage nodes: %w", err)
}
status := mergeTSDBStatuses(statuses, topN)
return status, isPartial, nil
}
func mergeTSDBStatuses(statuses []*storage.TSDBStatus, topN int) *storage.TSDBStatus {
totalSeries := uint64(0)
totalLabelValuePairs := uint64(0)
seriesCountByMetricName := make(map[string]uint64)
seriesCountByLabelName := make(map[string]uint64)
seriesCountByFocusLabelValue := make(map[string]uint64)
seriesCountByLabelValuePair := make(map[string]uint64)
labelValueCountByLabelName := make(map[string]uint64)
for _, st := range statuses {
totalSeries += st.TotalSeries
totalLabelValuePairs += st.TotalLabelValuePairs
for _, e := range st.SeriesCountByMetricName {
seriesCountByMetricName[e.Name] += e.Count
}
for _, e := range st.SeriesCountByLabelName {
seriesCountByLabelName[e.Name] += e.Count
}
for _, e := range st.SeriesCountByFocusLabelValue {
seriesCountByFocusLabelValue[e.Name] += e.Count
}
for _, e := range st.SeriesCountByLabelValuePair {
seriesCountByLabelValuePair[e.Name] += e.Count
}
for _, e := range st.LabelValueCountByLabelName {
// The same label values may exist in multiple vmstorage nodes.
// So select the maximum label values count in order to get the value close to reality.
if e.Count > labelValueCountByLabelName[e.Name] {
labelValueCountByLabelName[e.Name] = e.Count
}
}
}
return &storage.TSDBStatus{
TotalSeries: totalSeries,
TotalLabelValuePairs: totalLabelValuePairs,
SeriesCountByMetricName: toTopHeapEntries(seriesCountByMetricName, topN),
SeriesCountByLabelName: toTopHeapEntries(seriesCountByLabelName, topN),
SeriesCountByFocusLabelValue: toTopHeapEntries(seriesCountByFocusLabelValue, topN),
SeriesCountByLabelValuePair: toTopHeapEntries(seriesCountByLabelValuePair, topN),
LabelValueCountByLabelName: toTopHeapEntries(labelValueCountByLabelName, topN),
}
}
func toTopHeapEntries(m map[string]uint64, topN int) []storage.TopHeapEntry {
a := make([]storage.TopHeapEntry, 0, len(m))
for name, count := range m {
a = append(a, storage.TopHeapEntry{
Name: name,
Count: count,
})
}
sort.Slice(a, func(i, j int) bool {
if a[i].Count != a[j].Count {
return a[i].Count > a[j].Count
}
return a[i].Name < a[j].Name
})
if len(a) > topN {
a = a[:topN]
}
return a
}
// SeriesCount returns the number of unique series for the given at.
func SeriesCount(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, deadline searchutils.Deadline) (uint64, bool, error) {
qt = qt.NewChild("get series count")
defer qt.Done()
if deadline.Exceeded() {
return 0, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
n uint64
err error
}
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.seriesCountRequests.Inc()
n, err := sn.getSeriesCount(qt, at.AccountID, at.ProjectID, deadline)
if err != nil {
sn.seriesCountErrors.Inc()
err = fmt.Errorf("cannot get series count from vmstorage %s: %w", sn.connPool.Addr(), err)
}
return &nodeResult{
n: n,
err: err,
}
})
// Collect results
var n uint64
isPartial, err := snr.collectResults(partialSeriesCountResults, func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
n += nr.n
return nil
})
if err != nil {
return 0, isPartial, fmt.Errorf("cannot fetch series count from vmstorage nodes: %w", err)
}
return n, isPartial, nil
}
type tmpBlocksFileWrapper struct {
mu sync.Mutex
tbf *tmpBlocksFile
m map[string][]tmpBlockAddr
orderedMetricNames []string
}
func (tbfw *tmpBlocksFileWrapper) RegisterEmptyBlock(mb *storage.MetricBlock) {
metricName := mb.MetricName
tbfw.mu.Lock()
if addrs := tbfw.m[string(metricName)]; addrs == nil {
// An optimization for big number of time series with long names: store only a single copy of metricNameStr
// in both tbfw.orderedMetricNames and tbfw.m.
tbfw.orderedMetricNames = append(tbfw.orderedMetricNames, string(metricName))
tbfw.m[tbfw.orderedMetricNames[len(tbfw.orderedMetricNames)-1]] = []tmpBlockAddr{{}}
}
tbfw.mu.Unlock()
}
func (tbfw *tmpBlocksFileWrapper) RegisterAndWriteBlock(mb *storage.MetricBlock) error {
bb := tmpBufPool.Get()
bb.B = storage.MarshalBlock(bb.B[:0], &mb.Block)
tbfw.mu.Lock()
addr, err := tbfw.tbf.WriteBlockData(bb.B)
tmpBufPool.Put(bb)
if err == nil {
metricName := mb.MetricName
addrs := tbfw.m[string(metricName)]
addrs = append(addrs, addr)
if len(addrs) > 1 {
tbfw.m[string(metricName)] = addrs
} else {
// An optimization for big number of time series with long names: store only a single copy of metricNameStr
// in both tbfw.orderedMetricNames and tbfw.m.
tbfw.orderedMetricNames = append(tbfw.orderedMetricNames, string(metricName))
tbfw.m[tbfw.orderedMetricNames[len(tbfw.orderedMetricNames)-1]] = addrs
}
}
tbfw.mu.Unlock()
return err
}
var metricNamePool = &sync.Pool{
New: func() interface{} {
return &storage.MetricName{}
},
}
// ExportBlocks searches for time series matching sq and calls f for each found block.
//
// f is called in parallel from multiple goroutines.
// It is the responsibility of f to call b.UnmarshalData before reading timestamps and values from the block.
// It is the responsibility of f to filter blocks according to the given tr.
func ExportBlocks(qt *querytracer.Tracer, at *auth.Token, sq *storage.SearchQuery, deadline searchutils.Deadline,
f func(mn *storage.MetricName, b *storage.Block, tr storage.TimeRange) error) error {
qt = qt.NewChild("export blocks: %s", sq)
defer qt.Done()
if deadline.Exceeded() {
return fmt.Errorf("timeout exceeded before starting data export: %s", deadline.String())
}
tr := storage.TimeRange{
MinTimestamp: sq.MinTimestamp,
MaxTimestamp: sq.MaxTimestamp,
}
var wg syncwg.WaitGroup
var stopped uint32
var blocksRead uint64
var samples uint64
processBlock := func(mb *storage.MetricBlock) error {
wg.Add(1)
defer wg.Done()
if atomic.LoadUint32(&stopped) != 0 {
return nil
}
mn := metricNamePool.Get().(*storage.MetricName)
if err := mn.Unmarshal(mb.MetricName); err != nil {
return fmt.Errorf("cannot unmarshal metricName: %w", err)
}
if err := f(mn, &mb.Block, tr); err != nil {
return err
}
mn.Reset()
metricNamePool.Put(mn)
atomic.AddUint64(&blocksRead, 1)
atomic.AddUint64(&samples, uint64(mb.Block.RowsCount()))
return nil
}
_, err := processSearchQuery(qt, at, true, sq, true, processBlock, deadline)
// Make sure processBlock isn't called anymore in order to prevent from data races.
atomic.StoreUint32(&stopped, 1)
wg.Wait()
qt.Printf("export blocks=%d, samples=%d", blocksRead, samples)
if err != nil {
return fmt.Errorf("error occured during export: %w", err)
}
return nil
}
// SearchMetricNames returns all the metric names matching sq until the given deadline.
func SearchMetricNames(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, sq *storage.SearchQuery, deadline searchutils.Deadline) ([]storage.MetricName, bool, error) {
qt = qt.NewChild("fetch metric names: %s", sq)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting to search metric names: %s", deadline.String())
}
requestData := sq.Marshal(nil)
// Send the query to all the storage nodes in parallel.
type nodeResult struct {
metricNames [][]byte
err error
}
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.searchMetricNamesRequests.Inc()
metricNames, err := sn.processSearchMetricNames(qt, requestData, deadline)
if err != nil {
sn.searchMetricNamesErrors.Inc()
err = fmt.Errorf("cannot search metric names on vmstorage %s: %w", sn.connPool.Addr(), err)
}
return &nodeResult{
metricNames: metricNames,
err: err,
}
})
// Collect results.
metricNames := make(map[string]struct{})
isPartial, err := snr.collectResults(partialSearchMetricNamesResults, func(result interface{}) error {
nr := result.(*nodeResult)
if nr.err != nil {
return nr.err
}
for _, metricName := range nr.metricNames {
metricNames[string(metricName)] = struct{}{}
}
return nil
})
if err != nil {
return nil, isPartial, fmt.Errorf("cannot fetch metric names from vmstorage nodes: %w", err)
}
// Unmarshal metricNames
mns := make([]storage.MetricName, len(metricNames))
i := 0
for metricName := range metricNames {
mn := &mns[i]
if err := mn.Unmarshal(bytesutil.ToUnsafeBytes(metricName)); err != nil {
return nil, false, fmt.Errorf("cannot unmarshal metric name obtained from vmstorage: %w; metricName=%q", err, metricName)
}
i++
}
return mns, isPartial, nil
}
// ProcessSearchQuery performs sq until the given deadline.
//
// Results.RunParallel or Results.Cancel must be called on the returned Results.
func ProcessSearchQuery(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, sq *storage.SearchQuery,
fetchData bool, deadline searchutils.Deadline) (*Results, bool, error) {
qt = qt.NewChild("fetch matching series: %s, fetchData=%v", sq, fetchData)
defer qt.Done()
if deadline.Exceeded() {
return nil, false, fmt.Errorf("timeout exceeded before starting the query processing: %s", deadline.String())
}
// Setup search.
tr := storage.TimeRange{
MinTimestamp: sq.MinTimestamp,
MaxTimestamp: sq.MaxTimestamp,
}
tbfw := &tmpBlocksFileWrapper{
tbf: getTmpBlocksFile(),
m: make(map[string][]tmpBlockAddr),
}
var wg syncwg.WaitGroup
var stopped uint32
var blocksRead uint64
var samples uint64
processBlock := func(mb *storage.MetricBlock) error {
wg.Add(1)
defer wg.Done()
if atomic.LoadUint32(&stopped) != 0 {
return nil
}
if !fetchData {
tbfw.RegisterEmptyBlock(mb)
return nil
}
atomic.AddUint64(&blocksRead, 1)
n := atomic.AddUint64(&samples, uint64(mb.Block.RowsCount()))
if *maxSamplesPerQuery > 0 && n > uint64(*maxSamplesPerQuery) {
return fmt.Errorf("cannot select more than -search.maxSamplesPerQuery=%d samples; possible solutions: to increase the -search.maxSamplesPerQuery; to reduce time range for the query; to use more specific label filters in order to select lower number of series", *maxSamplesPerQuery)
}
if err := tbfw.RegisterAndWriteBlock(mb); err != nil {
return fmt.Errorf("cannot write MetricBlock to temporary blocks file: %w", err)
}
return nil
}
isPartial, err := processSearchQuery(qt, at, denyPartialResponse, sq, fetchData, processBlock, deadline)
// Make sure processBlock isn't called anymore in order to protect from data races.
atomic.StoreUint32(&stopped, 1)
wg.Wait()
if err != nil {
putTmpBlocksFile(tbfw.tbf)
return nil, false, fmt.Errorf("error occured during search: %w", err)
}
if err := tbfw.tbf.Finalize(); err != nil {
putTmpBlocksFile(tbfw.tbf)
return nil, false, fmt.Errorf("cannot finalize temporary blocks file with %d time series: %w", len(tbfw.m), err)
}
qt.Printf("fetch unique series=%d, blocks=%d, samples=%d, bytes=%d", len(tbfw.m), blocksRead, samples, tbfw.tbf.Len())
var rss Results
rss.at = at
rss.tr = tr
rss.fetchData = fetchData
rss.deadline = deadline
rss.tbf = tbfw.tbf
pts := make([]packedTimeseries, len(tbfw.orderedMetricNames))
for i, metricName := range tbfw.orderedMetricNames {
pts[i] = packedTimeseries{
metricName: metricName,
addrs: tbfw.m[metricName],
}
}
rss.packedTimeseries = pts
return &rss, isPartial, nil
}
func processSearchQuery(qt *querytracer.Tracer, at *auth.Token, denyPartialResponse bool, sq *storage.SearchQuery, fetchData bool,
processBlock func(mb *storage.MetricBlock) error, deadline searchutils.Deadline) (bool, error) {
requestData := sq.Marshal(nil)
// Send the query to all the storage nodes in parallel.
snr := startStorageNodesRequest(qt, denyPartialResponse, func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{} {
sn.searchRequests.Inc()
err := sn.processSearchQuery(qt, requestData, fetchData, processBlock, deadline)
if err != nil {
sn.searchErrors.Inc()
err = fmt.Errorf("cannot perform search on vmstorage %s: %w", sn.connPool.Addr(), err)
}
return &err
})
// Collect results.
isPartial, err := snr.collectResults(partialSearchResults, func(result interface{}) error {
errP := result.(*error)
return *errP
})
if err != nil {
return isPartial, fmt.Errorf("cannot fetch query results from vmstorage nodes: %w", err)
}
return isPartial, nil
}
type storageNodesRequest struct {
denyPartialResponse bool
resultsCh chan interface{}
}
func startStorageNodesRequest(qt *querytracer.Tracer, denyPartialResponse bool, f func(qt *querytracer.Tracer, idx int, sn *storageNode) interface{}) *storageNodesRequest {
resultsCh := make(chan interface{}, len(storageNodes))
for idx, sn := range storageNodes {
qtChild := qt.NewChild("rpc at vmstorage %s", sn.connPool.Addr())
go func(idx int, sn *storageNode) {
result := f(qtChild, idx, sn)
resultsCh <- result
qtChild.Done()
}(idx, sn)
}
return &storageNodesRequest{
denyPartialResponse: denyPartialResponse,
resultsCh: resultsCh,
}
}
func (snr *storageNodesRequest) collectAllResults(f func(result interface{}) error) error {
for i := 0; i < len(storageNodes); i++ {
result := <-snr.resultsCh
if err := f(result); err != nil {
// Immediately return the error to the caller without waiting for responses from other vmstorage nodes -
// they will be processed in brackground.
return err
}
}
return nil
}
func (snr *storageNodesRequest) collectResults(partialResultsCounter *metrics.Counter, f func(result interface{}) error) (bool, error) {
var errsPartial []error
resultsCollected := 0
for i := 0; i < len(storageNodes); i++ {
// There is no need in timer here, since all the goroutines executing the f function
// passed to startStorageNodesRequest must be finished until the deadline.
result := <-snr.resultsCh
if err := f(result); err != nil {
var er *errRemote
if errors.As(err, &er) {
// Immediately return the error reported by vmstorage to the caller,
// since such errors usually mean misconfiguration at vmstorage.
// The misconfiguration must be known by the caller, so it is fixed ASAP.
return false, err
}
errsPartial = append(errsPartial, err)
if snr.denyPartialResponse && len(errsPartial) >= *replicationFactor {
// Return the error to the caller if partial responses are denied
// and the number of partial responses reach -replicationFactor,
// since this means that the response is partial.
return false, err
}
continue
}
resultsCollected++
if resultsCollected > len(storageNodes)-*replicationFactor {
// There is no need in waiting for the remaining results,
// because the collected results contain all the data according to the given -replicationFactor.
// This should speed up responses when a part of vmstorage nodes are slow and/or temporarily unavailable.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/711
//
// It is expected that cap(snr.resultsCh) == len(storageNodes), otherwise goroutine leak is possible.
return false, nil
}
}
if len(errsPartial) < *replicationFactor {
// Assume that the result is full if the the number of failing vmstorage nodes
// is smaller than the -replicationFactor.
return false, nil
}
if len(errsPartial) == len(storageNodes) {
// All the vmstorage nodes returned error.
// Return only the first error, since it has no sense in returning all errors.
return false, errsPartial[0]
}
// Return partial results.
// This allows gracefully degrade vmselect in the case
// if a part of vmstorage nodes are temporarily unavailable.
partialResultsCounter.Inc()
// Do not return the error, since it may spam logs on busy vmselect
// serving high amounts of requests.
partialErrorsLogger.Warnf("%d out of %d vmstorage nodes were unavailable during the query; a sample error: %s", len(errsPartial), len(storageNodes), errsPartial[0])
return true, nil
}
var partialErrorsLogger = logger.WithThrottler("partialErrors", 10*time.Second)
type storageNode struct {
connPool *netutil.ConnPool
// The number of concurrent queries to storageNode.
concurrentQueries *metrics.Counter
// The number of RegisterMetricNames requests to storageNode.
registerMetricNamesRequests *metrics.Counter
// The number of RegisterMetricNames request errors to storageNode.
registerMetricNamesErrors *metrics.Counter
// The number of DeleteSeries requests to storageNode.
deleteSeriesRequests *metrics.Counter
// The number of DeleteSeries request errors to storageNode.
deleteSeriesErrors *metrics.Counter
// The number of requests to labelNames.
labelNamesRequests *metrics.Counter
// The number of errors during requests to labelNames.
labelNamesErrors *metrics.Counter
// The number of requests to labelValues.
labelValuesRequests *metrics.Counter
// The number of errors during requests to labelValuesOnTimeRange.
labelValuesErrors *metrics.Counter
// The number of requests to tagValueSuffixes.
tagValueSuffixesRequests *metrics.Counter
// The number of errors during requests to tagValueSuffixes.
tagValueSuffixesErrors *metrics.Counter
// The number of requests to tsdb status.
tsdbStatusRequests *metrics.Counter
// The number of errors during requests to tsdb status.
tsdbStatusErrors *metrics.Counter
// The number of requests to seriesCount.
seriesCountRequests *metrics.Counter
// The number of errors during requests to seriesCount.
seriesCountErrors *metrics.Counter
// The number of searchMetricNames requests to storageNode.
searchMetricNamesRequests *metrics.Counter
// The number of searchMetricNames errors to storageNode.
searchMetricNamesErrors *metrics.Counter
// The number of search requests to storageNode.
searchRequests *metrics.Counter
// The number of search request errors to storageNode.
searchErrors *metrics.Counter
// The number of metric blocks read.
metricBlocksRead *metrics.Counter
// The number of read metric rows.
metricRowsRead *metrics.Counter
}
func (sn *storageNode) registerMetricNames(qt *querytracer.Tracer, mrs []storage.MetricRow, deadline searchutils.Deadline) error {
if len(mrs) == 0 {
return nil
}
f := func(bc *handshake.BufferedConn) error {
return sn.registerMetricNamesOnConn(bc, mrs)
}
return sn.execOnConnWithPossibleRetry(qt, "registerMetricNames_v3", f, deadline)
}
func (sn *storageNode) deleteMetrics(qt *querytracer.Tracer, requestData []byte, deadline searchutils.Deadline) (int, error) {
var deletedCount int
f := func(bc *handshake.BufferedConn) error {
n, err := sn.deleteMetricsOnConn(bc, requestData)
if err != nil {
return err
}
deletedCount = n
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "deleteMetrics_v5", f, deadline); err != nil {
return 0, err
}
return deletedCount, nil
}
func (sn *storageNode) getLabelNames(qt *querytracer.Tracer, requestData []byte, maxLabelNames int, deadline searchutils.Deadline) ([]string, error) {
var labels []string
f := func(bc *handshake.BufferedConn) error {
ls, err := sn.getLabelNamesOnConn(bc, requestData, maxLabelNames)
if err != nil {
return err
}
labels = ls
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "labelNames_v5", f, deadline); err != nil {
return nil, err
}
return labels, nil
}
func (sn *storageNode) getLabelValues(qt *querytracer.Tracer, labelName string, requestData []byte, maxLabelValues int, deadline searchutils.Deadline) ([]string, error) {
var labelValues []string
f := func(bc *handshake.BufferedConn) error {
lvs, err := sn.getLabelValuesOnConn(bc, labelName, requestData, maxLabelValues)
if err != nil {
return err
}
labelValues = lvs
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "labelValues_v5", f, deadline); err != nil {
return nil, err
}
return labelValues, nil
}
func (sn *storageNode) getTagValueSuffixes(qt *querytracer.Tracer, accountID, projectID uint32, tr storage.TimeRange, tagKey, tagValuePrefix string,
delimiter byte, deadline searchutils.Deadline) ([]string, error) {
var suffixes []string
f := func(bc *handshake.BufferedConn) error {
ss, err := sn.getTagValueSuffixesOnConn(bc, accountID, projectID, tr, tagKey, tagValuePrefix, delimiter)
if err != nil {
return err
}
suffixes = ss
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "tagValueSuffixes_v3", f, deadline); err != nil {
return nil, err
}
return suffixes, nil
}
func (sn *storageNode) getTSDBStatus(qt *querytracer.Tracer, requestData []byte, focusLabel string, topN int, deadline searchutils.Deadline) (*storage.TSDBStatus, error) {
var status *storage.TSDBStatus
f := func(bc *handshake.BufferedConn) error {
st, err := sn.getTSDBStatusOnConn(bc, requestData, focusLabel, topN)
if err != nil {
return err
}
status = st
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "tsdbStatus_v5", f, deadline); err != nil {
return nil, err
}
return status, nil
}
func (sn *storageNode) getSeriesCount(qt *querytracer.Tracer, accountID, projectID uint32, deadline searchutils.Deadline) (uint64, error) {
var n uint64
f := func(bc *handshake.BufferedConn) error {
nn, err := sn.getSeriesCountOnConn(bc, accountID, projectID)
if err != nil {
return err
}
n = nn
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "seriesCount_v4", f, deadline); err != nil {
return 0, err
}
return n, nil
}
func (sn *storageNode) processSearchMetricNames(qt *querytracer.Tracer, requestData []byte, deadline searchutils.Deadline) ([][]byte, error) {
var metricNames [][]byte
f := func(bc *handshake.BufferedConn) error {
mns, err := sn.processSearchMetricNamesOnConn(bc, requestData)
if err != nil {
return err
}
metricNames = mns
return nil
}
if err := sn.execOnConnWithPossibleRetry(qt, "searchMetricNames_v3", f, deadline); err != nil {
return nil, err
}
return metricNames, nil
}
func (sn *storageNode) processSearchQuery(qt *querytracer.Tracer, requestData []byte, fetchData bool,
processBlock func(mb *storage.MetricBlock) error, deadline searchutils.Deadline) error {
f := func(bc *handshake.BufferedConn) error {
if err := sn.processSearchQueryOnConn(bc, requestData, fetchData, processBlock); err != nil {
return err
}
return nil
}
return sn.execOnConnWithPossibleRetry(qt, "search_v6", f, deadline)
}
func (sn *storageNode) execOnConnWithPossibleRetry(qt *querytracer.Tracer, funcName string, f func(bc *handshake.BufferedConn) error, deadline searchutils.Deadline) error {
qtChild := qt.NewChild("rpc call %s()", funcName)
err := sn.execOnConn(qtChild, funcName, f, deadline)
qtChild.Done()
if err == nil {
return nil
}
var er *errRemote
var ne net.Error
if errors.As(err, &er) || errors.As(err, &ne) && ne.Timeout() {
// There is no sense in repeating the query on errors induced by vmstorage (errRemote) or on network timeout errors.
return err
}
// Repeat the query in the hope the error was temporary.
qtChild = qt.NewChild("retry rpc call %s() after error", funcName)
err = sn.execOnConn(qtChild, funcName, f, deadline)
qtChild.Done()
return err
}
func (sn *storageNode) execOnConn(qt *querytracer.Tracer, funcName string, f func(bc *handshake.BufferedConn) error, deadline searchutils.Deadline) error {
sn.concurrentQueries.Inc()
defer sn.concurrentQueries.Dec()
d := time.Unix(int64(deadline.Deadline()), 0)
nowSecs := fasttime.UnixTimestamp()
currentTime := time.Unix(int64(nowSecs), 0)
timeout := d.Sub(currentTime)
if timeout <= 0 {
return fmt.Errorf("request timeout reached: %s", deadline.String())
}
bc, err := sn.connPool.Get()
if err != nil {
return fmt.Errorf("cannot obtain connection from a pool: %w", err)
}
// Extend the connection deadline by 2 seconds, so the remote storage could return `timeout` error
// without the need to break the connection.
connDeadline := d.Add(2 * time.Second)
if err := bc.SetDeadline(connDeadline); err != nil {
_ = bc.Close()
logger.Panicf("FATAL: cannot set connection deadline: %s", err)
}
if err := writeBytes(bc, []byte(funcName)); err != nil {
// Close the connection instead of returning it to the pool,
// since it may be broken.
_ = bc.Close()
return fmt.Errorf("cannot send funcName=%q to the server: %w", funcName, err)
}
// Send query trace flag
traceEnabled := qt.Enabled()
if err := writeBool(bc, traceEnabled); err != nil {
// Close the connection instead of returning it to the pool,
// since it may be broken.
_ = bc.Close()
return fmt.Errorf("cannot send traceEnabled=%v for funcName=%q to the server: %w", traceEnabled, funcName, err)
}
// Send the remaining timeout instead of deadline to remote server, since it may have different time.
timeoutSecs := uint32(timeout.Seconds() + 1)
if err := writeUint32(bc, timeoutSecs); err != nil {
// Close the connection instead of returning it to the pool,
// since it may be broken.
_ = bc.Close()
return fmt.Errorf("cannot send timeout=%d for funcName=%q to the server: %w", timeout, funcName, err)
}
// Execute the rpc function.
if err := f(bc); err != nil {
remoteAddr := bc.RemoteAddr()
var er *errRemote
if errors.As(err, &er) {
// Remote error. The connection may be re-used. Return it to the pool.
_ = readTrace(qt, bc)
sn.connPool.Put(bc)
} else {
// Local error.
// Close the connection instead of returning it to the pool,
// since it may be broken.
_ = bc.Close()
}
if deadline.Exceeded() {
return fmt.Errorf("cannot execute funcName=%q on vmstorage %q with timeout %s: %w", funcName, remoteAddr, deadline.String(), err)
}
return fmt.Errorf("cannot execute funcName=%q on vmstorage %q: %w", funcName, remoteAddr, err)
}
// Read trace from the response
if err := readTrace(qt, bc); err != nil {
// Close the connection instead of returning it to the pool,
// since it may be broken.
_ = bc.Close()
return err
}
// Return the connection back to the pool, assuming it is healthy.
sn.connPool.Put(bc)
return nil
}
func readTrace(qt *querytracer.Tracer, bc *handshake.BufferedConn) error {
bb := traceJSONBufPool.Get()
var err error
bb.B, err = readBytes(bb.B[:0], bc, maxTraceJSONSize)
if err != nil {
return fmt.Errorf("cannot read trace from the server: %w", err)
}
if err := qt.AddJSON(bb.B); err != nil {
return fmt.Errorf("cannot parse trace read from the server: %w", err)
}
traceJSONBufPool.Put(bb)
return nil
}
var traceJSONBufPool bytesutil.ByteBufferPool
const maxTraceJSONSize = 1024 * 1024
type errRemote struct {
msg string
}
func (er *errRemote) Error() string {
return er.msg
}
func newErrRemote(buf []byte) error {
err := &errRemote{
msg: string(buf),
}
if !strings.Contains(err.msg, "denyQueriesOutsideRetention") {
return err
}
return &httpserver.ErrorWithStatusCode{
Err: err,
StatusCode: http.StatusServiceUnavailable,
}
}
func (sn *storageNode) registerMetricNamesOnConn(bc *handshake.BufferedConn, mrs []storage.MetricRow) error {
// Send the request to sn.
if err := writeUint64(bc, uint64(len(mrs))); err != nil {
return fmt.Errorf("cannot send metricsCount to conn: %w", err)
}
for i, mr := range mrs {
if err := writeBytes(bc, mr.MetricNameRaw); err != nil {
return fmt.Errorf("cannot send MetricNameRaw #%d to conn: %w", i+1, err)
}
if err := writeUint64(bc, uint64(mr.Timestamp)); err != nil {
return fmt.Errorf("cannot send Timestamp #%d to conn: %w", i+1, err)
}
}
if err := bc.Flush(); err != nil {
return fmt.Errorf("cannot flush registerMetricNames request to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return newErrRemote(buf)
}
return nil
}
func (sn *storageNode) deleteMetricsOnConn(bc *handshake.BufferedConn, requestData []byte) (int, error) {
// Send the request to sn
if err := writeBytes(bc, requestData); err != nil {
return 0, fmt.Errorf("cannot send deleteMetrics request to conn: %w", err)
}
if err := bc.Flush(); err != nil {
return 0, fmt.Errorf("cannot flush deleteMetrics request to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return 0, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return 0, newErrRemote(buf)
}
// Read deletedCount
deletedCount, err := readUint64(bc)
if err != nil {
return 0, fmt.Errorf("cannot read deletedCount value: %w", err)
}
return int(deletedCount), nil
}
const maxLabelNameSize = 16 * 1024 * 1024
func (sn *storageNode) getLabelNamesOnConn(bc *handshake.BufferedConn, requestData []byte, maxLabelNames int) ([]string, error) {
// Send the request to sn.
if err := writeBytes(bc, requestData); err != nil {
return nil, fmt.Errorf("cannot write requestData: %w", err)
}
if err := writeLimit(bc, maxLabelNames); err != nil {
return nil, fmt.Errorf("cannot write maxLabelNames=%d: %w", maxLabelNames, err)
}
if err := bc.Flush(); err != nil {
return nil, fmt.Errorf("cannot flush request to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return nil, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return nil, newErrRemote(buf)
}
// Read response
var labels []string
for {
buf, err = readBytes(buf[:0], bc, maxLabelNameSize)
if err != nil {
return nil, fmt.Errorf("cannot read labels: %w", err)
}
if len(buf) == 0 {
// Reached the end of the response
return labels, nil
}
labels = append(labels, string(buf))
}
}
const maxLabelValueSize = 16 * 1024 * 1024
func (sn *storageNode) getLabelValuesOnConn(bc *handshake.BufferedConn, labelName string, requestData []byte, maxLabelValues int) ([]string, error) {
// Send the request to sn.
if err := writeBytes(bc, []byte(labelName)); err != nil {
return nil, fmt.Errorf("cannot send labelName=%q to conn: %w", labelName, err)
}
if err := writeBytes(bc, requestData); err != nil {
return nil, fmt.Errorf("cannot write requestData: %w", err)
}
if err := writeLimit(bc, maxLabelValues); err != nil {
return nil, fmt.Errorf("cannot write maxLabelValues=%d: %w", maxLabelValues, err)
}
if err := bc.Flush(); err != nil {
return nil, fmt.Errorf("cannot flush labelName to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return nil, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return nil, newErrRemote(buf)
}
// Read response
labelValues, _, err := readLabelValues(buf, bc)
if err != nil {
return nil, err
}
return labelValues, nil
}
func readLabelValues(buf []byte, bc *handshake.BufferedConn) ([]string, []byte, error) {
var labelValues []string
for {
var err error
buf, err = readBytes(buf[:0], bc, maxLabelValueSize)
if err != nil {
return nil, buf, fmt.Errorf("cannot read labelValue: %w", err)
}
if len(buf) == 0 {
// Reached the end of the response
return labelValues, buf, nil
}
labelValues = append(labelValues, string(buf))
}
}
func (sn *storageNode) getTagValueSuffixesOnConn(bc *handshake.BufferedConn, accountID, projectID uint32,
tr storage.TimeRange, tagKey, tagValuePrefix string, delimiter byte) ([]string, error) {
// Send the request to sn.
if err := sendAccountIDProjectID(bc, accountID, projectID); err != nil {
return nil, err
}
if err := writeTimeRange(bc, tr); err != nil {
return nil, err
}
if err := writeBytes(bc, []byte(tagKey)); err != nil {
return nil, fmt.Errorf("cannot send tagKey=%q to conn: %w", tagKey, err)
}
if err := writeBytes(bc, []byte(tagValuePrefix)); err != nil {
return nil, fmt.Errorf("cannot send tagValuePrefix=%q to conn: %w", tagValuePrefix, err)
}
if err := writeByte(bc, delimiter); err != nil {
return nil, fmt.Errorf("cannot send delimiter=%c to conn: %w", delimiter, err)
}
if err := bc.Flush(); err != nil {
return nil, fmt.Errorf("cannot flush request to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return nil, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return nil, newErrRemote(buf)
}
// Read response.
// The response may contain empty suffix, so it is prepended with the number of the following suffixes.
suffixesCount, err := readUint64(bc)
if err != nil {
return nil, fmt.Errorf("cannot read the number of tag value suffixes: %w", err)
}
suffixes := make([]string, 0, suffixesCount)
for i := 0; i < int(suffixesCount); i++ {
buf, err = readBytes(buf[:0], bc, maxLabelValueSize)
if err != nil {
return nil, fmt.Errorf("cannot read tag value suffix #%d: %w", i+1, err)
}
suffixes = append(suffixes, string(buf))
}
return suffixes, nil
}
func (sn *storageNode) getTSDBStatusOnConn(bc *handshake.BufferedConn, requestData []byte, focusLabel string, topN int) (*storage.TSDBStatus, error) {
// Send the request to sn.
if err := writeBytes(bc, requestData); err != nil {
return nil, fmt.Errorf("cannot write requestData: %w", err)
}
if err := writeBytes(bc, []byte(focusLabel)); err != nil {
return nil, fmt.Errorf("cannot write focusLabel=%q: %w", focusLabel, err)
}
// topN shouldn't exceed 32 bits, so send it as uint32.
if err := writeUint32(bc, uint32(topN)); err != nil {
return nil, fmt.Errorf("cannot send topN=%d to conn: %w", topN, err)
}
if err := bc.Flush(); err != nil {
return nil, fmt.Errorf("cannot flush tsdbStatus args to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return nil, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return nil, newErrRemote(buf)
}
// Read response
return readTSDBStatus(bc)
}
func readTSDBStatus(bc *handshake.BufferedConn) (*storage.TSDBStatus, error) {
totalSeries, err := readUint64(bc)
if err != nil {
return nil, fmt.Errorf("cannot read totalSeries: %w", err)
}
totalLabelValuePairs, err := readUint64(bc)
if err != nil {
return nil, fmt.Errorf("cannot read totalLabelValuePairs: %w", err)
}
seriesCountByMetricName, err := readTopHeapEntries(bc)
if err != nil {
return nil, fmt.Errorf("cannot read seriesCountByMetricName: %w", err)
}
seriesCountByLabelName, err := readTopHeapEntries(bc)
if err != nil {
return nil, fmt.Errorf("cannot read seriesCountByLabelName: %w", err)
}
seriesCountByFocusLabelValue, err := readTopHeapEntries(bc)
if err != nil {
return nil, fmt.Errorf("cannot read seriesCountByFocusLabelValue: %w", err)
}
seriesCountByLabelValuePair, err := readTopHeapEntries(bc)
if err != nil {
return nil, fmt.Errorf("cannot read seriesCountByLabelValuePair: %w", err)
}
labelValueCountByLabelName, err := readTopHeapEntries(bc)
if err != nil {
return nil, fmt.Errorf("cannot read labelValueCountByLabelName: %w", err)
}
status := &storage.TSDBStatus{
TotalSeries: totalSeries,
TotalLabelValuePairs: totalLabelValuePairs,
SeriesCountByMetricName: seriesCountByMetricName,
SeriesCountByLabelName: seriesCountByLabelName,
SeriesCountByFocusLabelValue: seriesCountByFocusLabelValue,
SeriesCountByLabelValuePair: seriesCountByLabelValuePair,
LabelValueCountByLabelName: labelValueCountByLabelName,
}
return status, nil
}
func readTopHeapEntries(bc *handshake.BufferedConn) ([]storage.TopHeapEntry, error) {
n, err := readUint64(bc)
if err != nil {
return nil, fmt.Errorf("cannot read the number of topHeapEntries: %w", err)
}
var a []storage.TopHeapEntry
var buf []byte
for i := uint64(0); i < n; i++ {
buf, err = readBytes(buf[:0], bc, maxLabelNameSize)
if err != nil {
return nil, fmt.Errorf("cannot read label name: %w", err)
}
count, err := readUint64(bc)
if err != nil {
return nil, fmt.Errorf("cannot read label count: %w", err)
}
a = append(a, storage.TopHeapEntry{
Name: string(buf),
Count: count,
})
}
return a, nil
}
func (sn *storageNode) getSeriesCountOnConn(bc *handshake.BufferedConn, accountID, projectID uint32) (uint64, error) {
// Send the request to sn.
if err := sendAccountIDProjectID(bc, accountID, projectID); err != nil {
return 0, err
}
if err := bc.Flush(); err != nil {
return 0, fmt.Errorf("cannot flush seriesCount args to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return 0, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return 0, newErrRemote(buf)
}
// Read response
n, err := readUint64(bc)
if err != nil {
return 0, fmt.Errorf("cannot read series count: %w", err)
}
return n, nil
}
// maxMetricBlockSize is the maximum size of serialized MetricBlock.
const maxMetricBlockSize = 1024 * 1024
// maxErrorMessageSize is the maximum size of error message received
// from vmstorage.
const maxErrorMessageSize = 64 * 1024
func (sn *storageNode) processSearchMetricNamesOnConn(bc *handshake.BufferedConn, requestData []byte) ([][]byte, error) {
// Send the requst to sn.
if err := writeBytes(bc, requestData); err != nil {
return nil, fmt.Errorf("cannot write requestData: %w", err)
}
if err := bc.Flush(); err != nil {
return nil, fmt.Errorf("cannot flush requestData to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return nil, fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return nil, newErrRemote(buf)
}
// Read metricNames from response.
metricNamesCount, err := readUint64(bc)
if err != nil {
return nil, fmt.Errorf("cannot read metricNamesCount: %w", err)
}
metricNames := make([][]byte, metricNamesCount)
for i := int64(0); i < int64(metricNamesCount); i++ {
buf, err = readBytes(buf[:0], bc, maxMetricNameSize)
if err != nil {
return nil, fmt.Errorf("cannot read metricName #%d: %w", i+1, err)
}
metricNames[i] = append(metricNames[i][:0], buf...)
}
return metricNames, nil
}
const maxMetricNameSize = 64 * 1024
func (sn *storageNode) processSearchQueryOnConn(bc *handshake.BufferedConn, requestData []byte, fetchData bool, processBlock func(mb *storage.MetricBlock) error) error {
// Send the request to sn.
if err := writeBytes(bc, requestData); err != nil {
return fmt.Errorf("cannot write requestData: %w", err)
}
if err := writeBool(bc, fetchData); err != nil {
return fmt.Errorf("cannot write fetchData=%v: %w", fetchData, err)
}
if err := bc.Flush(); err != nil {
return fmt.Errorf("cannot flush requestData to conn: %w", err)
}
// Read response error.
buf, err := readBytes(nil, bc, maxErrorMessageSize)
if err != nil {
return fmt.Errorf("cannot read error message: %w", err)
}
if len(buf) > 0 {
return newErrRemote(buf)
}
// Read response. It may consist of multiple MetricBlocks.
blocksRead := 0
var mb storage.MetricBlock
for {
buf, err = readBytes(buf[:0], bc, maxMetricBlockSize)
if err != nil {
return fmt.Errorf("cannot read MetricBlock #%d: %w", blocksRead, err)
}
if len(buf) == 0 {
// Reached the end of the response
return nil
}
tail, err := mb.Unmarshal(buf)
if err != nil {
return fmt.Errorf("cannot unmarshal MetricBlock #%d: %w", blocksRead, err)
}
if len(tail) != 0 {
return fmt.Errorf("non-empty tail after unmarshaling MetricBlock #%d: (len=%d) %q", blocksRead, len(tail), tail)
}
blocksRead++
sn.metricBlocksRead.Inc()
sn.metricRowsRead.Add(mb.Block.RowsCount())
if err := processBlock(&mb); err != nil {
return fmt.Errorf("cannot process MetricBlock #%d: %w", blocksRead, err)
}
}
}
func writeTimeRange(bc *handshake.BufferedConn, tr storage.TimeRange) error {
if err := writeUint64(bc, uint64(tr.MinTimestamp)); err != nil {
return fmt.Errorf("cannot send minTimestamp=%d to conn: %w", tr.MinTimestamp, err)
}
if err := writeUint64(bc, uint64(tr.MaxTimestamp)); err != nil {
return fmt.Errorf("cannot send maxTimestamp=%d to conn: %w", tr.MaxTimestamp, err)
}
return nil
}
func writeLimit(bc *handshake.BufferedConn, limit int) error {
if limit < 0 {
limit = 0
}
if limit > 1<<31-1 {
limit = 1<<31 - 1
}
limitU32 := uint32(limit)
if err := writeUint32(bc, limitU32); err != nil {
return fmt.Errorf("cannot write limit=%d to conn: %w", limitU32, err)
}
return nil
}
func writeBytes(bc *handshake.BufferedConn, buf []byte) error {
sizeBuf := encoding.MarshalUint64(nil, uint64(len(buf)))
if _, err := bc.Write(sizeBuf); err != nil {
return err
}
_, err := bc.Write(buf)
return err
}
func writeUint32(bc *handshake.BufferedConn, n uint32) error {
buf := encoding.MarshalUint32(nil, n)
_, err := bc.Write(buf)
return err
}
func writeUint64(bc *handshake.BufferedConn, n uint64) error {
buf := encoding.MarshalUint64(nil, n)
_, err := bc.Write(buf)
return err
}
func writeBool(bc *handshake.BufferedConn, b bool) error {
var buf [1]byte
if b {
buf[0] = 1
}
_, err := bc.Write(buf[:])
return err
}
func writeByte(bc *handshake.BufferedConn, b byte) error {
var buf [1]byte
buf[0] = b
_, err := bc.Write(buf[:])
return err
}
func sendAccountIDProjectID(bc *handshake.BufferedConn, accountID, projectID uint32) error {
if err := writeUint32(bc, accountID); err != nil {
return fmt.Errorf("cannot send accountID=%d to conn: %w", accountID, err)
}
if err := writeUint32(bc, projectID); err != nil {
return fmt.Errorf("cannot send projectID=%d to conn: %w", projectID, err)
}
return nil
}
func readBytes(buf []byte, bc *handshake.BufferedConn, maxDataSize int) ([]byte, error) {
buf = bytesutil.ResizeNoCopyMayOverallocate(buf, 8)
if n, err := io.ReadFull(bc, buf); err != nil {
return buf, fmt.Errorf("cannot read %d bytes with data size: %w; read only %d bytes", len(buf), err, n)
}
dataSize := encoding.UnmarshalUint64(buf)
if dataSize > uint64(maxDataSize) {
return buf, fmt.Errorf("too big data size: %d; it mustn't exceed %d bytes", dataSize, maxDataSize)
}
buf = bytesutil.ResizeNoCopyMayOverallocate(buf, int(dataSize))
if dataSize == 0 {
return buf, nil
}
if n, err := io.ReadFull(bc, buf); err != nil {
return buf, fmt.Errorf("cannot read data with size %d: %w; read only %d bytes", dataSize, err, n)
}
return buf, nil
}
func readUint64(bc *handshake.BufferedConn) (uint64, error) {
var buf [8]byte
if _, err := io.ReadFull(bc, buf[:]); err != nil {
return 0, fmt.Errorf("cannot read uint64: %w", err)
}
n := encoding.UnmarshalUint64(buf[:])
return n, nil
}
var storageNodes []*storageNode
// InitStorageNodes initializes storage nodes' connections to the given addrs.
func InitStorageNodes(addrs []string) {
if len(addrs) == 0 {
logger.Panicf("BUG: addrs must be non-empty")
}
for _, addr := range addrs {
if _, _, err := net.SplitHostPort(addr); err != nil {
// Automatically add missing port.
addr += ":8401"
}
sn := &storageNode{
// There is no need in requests compression, since they are usually very small.
connPool: netutil.NewConnPool("vmselect", addr, handshake.VMSelectClient, 0, *vmstorageDialTimeout),
concurrentQueries: metrics.NewCounter(fmt.Sprintf(`vm_concurrent_queries{name="vmselect", addr=%q}`, addr)),
registerMetricNamesRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="registerMetricNames", type="rpcClient", name="vmselect", addr=%q}`, addr)),
registerMetricNamesErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="registerMetricNames", type="rpcClient", name="vmselect", addr=%q}`, addr)),
deleteSeriesRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="deleteSeries", type="rpcClient", name="vmselect", addr=%q}`, addr)),
deleteSeriesErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="deleteSeries", type="rpcClient", name="vmselect", addr=%q}`, addr)),
labelNamesRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="labelNames", type="rpcClient", name="vmselect", addr=%q}`, addr)),
labelNamesErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="labelNames", type="rpcClient", name="vmselect", addr=%q}`, addr)),
labelValuesRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="labelValues", type="rpcClient", name="vmselect", addr=%q}`, addr)),
labelValuesErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="labelValues", type="rpcClient", name="vmselect", addr=%q}`, addr)),
tagValueSuffixesRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="tagValueSuffixes", type="rpcClient", name="vmselect", addr=%q}`, addr)),
tagValueSuffixesErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="tagValueSuffixes", type="rpcClient", name="vmselect", addr=%q}`, addr)),
tsdbStatusRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="tsdbStatus", type="rpcClient", name="vmselect", addr=%q}`, addr)),
tsdbStatusErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="tsdbStatus", type="rpcClient", name="vmselect", addr=%q}`, addr)),
seriesCountRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="seriesCount", type="rpcClient", name="vmselect", addr=%q}`, addr)),
seriesCountErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="seriesCount", type="rpcClient", name="vmselect", addr=%q}`, addr)),
searchMetricNamesRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="searchMetricNames", type="rpcClient", name="vmselect", addr=%q}`, addr)),
searchMetricNamesErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="searchMetricNames", type="rpcClient", name="vmselect", addr=%q}`, addr)),
searchRequests: metrics.NewCounter(fmt.Sprintf(`vm_requests_total{action="search", type="rpcClient", name="vmselect", addr=%q}`, addr)),
searchErrors: metrics.NewCounter(fmt.Sprintf(`vm_request_errors_total{action="search", type="rpcClient", name="vmselect", addr=%q}`, addr)),
metricBlocksRead: metrics.NewCounter(fmt.Sprintf(`vm_metric_blocks_read_total{name="vmselect", addr=%q}`, addr)),
metricRowsRead: metrics.NewCounter(fmt.Sprintf(`vm_metric_rows_read_total{name="vmselect", addr=%q}`, addr)),
}
storageNodes = append(storageNodes, sn)
}
}
// Stop gracefully stops netstorage.
func Stop() {
// Nothing to do at the moment.
}
var (
partialLabelNamesResults = metrics.NewCounter(`vm_partial_results_total{action="labelNames", name="vmselect"}`)
partialLabelValuesResults = metrics.NewCounter(`vm_partial_results_total{action="labelValues", name="vmselect"}`)
partialTagValueSuffixesResults = metrics.NewCounter(`vm_partial_results_total{action="tagValueSuffixes", name="vmselect"}`)
partialTSDBStatusResults = metrics.NewCounter(`vm_partial_results_total{action="tsdbStatus", name="vmselect"}`)
partialSeriesCountResults = metrics.NewCounter(`vm_partial_results_total{action="seriesCount", name="vmselect"}`)
partialSearchMetricNamesResults = metrics.NewCounter(`vm_partial_results_total{action="searchMetricNames", name="vmselect"}`)
partialSearchResults = metrics.NewCounter(`vm_partial_results_total{action="search", name="vmselect"}`)
)
func applyGraphiteRegexpFilter(filter string, ss []string) ([]string, error) {
// Anchor filter regexp to the beginning of the string as Graphite does.
// See https://github.com/graphite-project/graphite-web/blob/3ad279df5cb90b211953e39161df416e54a84948/webapp/graphite/tags/localdatabase.py#L157
filter = "^(?:" + filter + ")"
re, err := regexp.Compile(filter)
if err != nil {
return nil, fmt.Errorf("cannot parse regexp filter=%q: %w", filter, err)
}
dst := ss[:0]
for _, s := range ss {
if re.MatchString(s) {
dst = append(dst, s)
}
}
return dst, nil
}