Improve MetricsForLabelMatchers

WIP: This needs more tests.

It now gets a from and through value, which it may opportunistically
use to optimize the retrieval. With possible future range indices,
this could be used in a very efficient way. This change merely applies
some easy checks, which should nevertheless solve the use case of
heavy rule evaluations on servers with a lot of series churn.

Idea is the following:

- Only archive series that are at least as old as the headChunkTimeout
  (which was already extremely unlikely to happen).

- Then maintain a high watermark for the last archival, i.e. no
  archived series has a sample more recent than that watermark.

- Any query that doesn't reach to a time before that watermark doesn't
  have to touch the archive index at all. (A production server at
  Soundcloud with the aforementioned series churn and heavy rule
  evaluations spends 50% of its CPU time in archive index
  lookups. Since rule evaluations usually only touch very recent
  values, most of those lookup should disappear with this change.)

- Federation with a very broad label matcher will profit from this,
  too.

As a byproduct, the un-needed MetricForFingerprint method was removed
from the Storage interface.
This commit is contained in:
beorn7 2016-03-09 00:09:42 +01:00
parent d77d625ad3
commit 836f1db04c
7 changed files with 151 additions and 69 deletions

View file

@ -79,7 +79,10 @@ func (a *Analyzer) Analyze(ctx context.Context) error {
Inspect(a.Expr, func(node Node) bool {
switch n := node.(type) {
case *VectorSelector:
n.metrics = a.Storage.MetricsForLabelMatchers(n.LabelMatchers...)
n.metrics = a.Storage.MetricsForLabelMatchers(
a.Start.Add(-n.Offset-StalenessDelta), a.End.Add(-n.Offset),
n.LabelMatchers...,
)
n.iterators = make(map[model.Fingerprint]local.SeriesIterator, len(n.metrics))
pt := getPreloadTimes(n.Offset)
@ -95,7 +98,10 @@ func (a *Analyzer) Analyze(ctx context.Context) error {
}
}
case *MatrixSelector:
n.metrics = a.Storage.MetricsForLabelMatchers(n.LabelMatchers...)
n.metrics = a.Storage.MetricsForLabelMatchers(
a.Start.Add(-n.Offset-n.Range), a.End.Add(-n.Offset),
n.LabelMatchers...,
)
n.iterators = make(map[model.Fingerprint]local.SeriesIterator, len(n.metrics))
pt := getPreloadTimes(n.Offset)

View file

@ -40,20 +40,22 @@ type Storage interface {
// NewPreloader returns a new Preloader which allows preloading and pinning
// series data into memory for use within a query.
NewPreloader() Preloader
// MetricsForLabelMatchers returns the metrics from storage that satisfy the given
// label matchers. At least one label matcher must be specified that does not
// match the empty string.
MetricsForLabelMatchers(...*metric.LabelMatcher) map[model.Fingerprint]metric.Metric
// LastSamplePairForFingerprint returns the last sample pair that has
// been ingested for the provided fingerprint. If this instance of the
// MetricsForLabelMatchers returns the metrics from storage that satisfy
// the given label matchers. At least one label matcher must be
// specified that does not match the empty string. The times from and
// through are hints for the storage to optimize the search. The storage
// MAY exclude metrics that have no samples in the specified interval
// from the returned map. In doubt, specify model.Earliest for from and
// model.Latest for through.
MetricsForLabelMatchers(from, through model.Time, matchers ...*metric.LabelMatcher) map[model.Fingerprint]metric.Metric
// LastSampleForFingerprint returns the last sample that has been
// ingested for the provided fingerprint. If this instance of the
// Storage has never ingested a sample for the provided fingerprint (or
// the last ingestion is so long ago that the series has been archived),
// ZeroSamplePair is returned.
LastSamplePairForFingerprint(model.Fingerprint) model.SamplePair
// ZeroSample is returned.
LastSampleForFingerprint(model.Fingerprint) model.Sample
// Get all of the label values that are associated with a given label name.
LabelValuesForLabelName(model.LabelName) model.LabelValues
// Get the metric associated with the provided fingerprint.
MetricForFingerprint(model.Fingerprint) metric.Metric
// Drop all time series associated with the given fingerprints.
DropMetricsForFingerprints(...model.Fingerprint)
// Run the various maintenance loops in goroutines. Returns when the
@ -89,7 +91,7 @@ type SeriesIterator interface {
type Preloader interface {
PreloadRange(
fp model.Fingerprint,
from model.Time, through model.Time,
from, through model.Time,
) SeriesIterator
PreloadInstant(
fp model.Fingerprint,
@ -100,8 +102,15 @@ type Preloader interface {
}
// ZeroSamplePair is the pseudo zero-value of model.SamplePair used by the local
// package to signal a non-existing sample. It is a SamplePair with timestamp
// model.Earliest and value 0.0. Note that the natural zero value of SamplePair
// has a timestamp of 0, which is possible to appear in a real SamplePair and
// thus not suitable to signal a non-existing SamplePair.
// package to signal a non-existing sample pair. It is a SamplePair with
// timestamp model.Earliest and value 0.0. Note that the natural zero value of
// SamplePair has a timestamp of 0, which is possible to appear in a real
// SamplePair and thus not suitable to signal a non-existing SamplePair.
var ZeroSamplePair = model.SamplePair{Timestamp: model.Earliest}
// ZeroSample is the pseudo zero-value of model.Sample used by the local package
// to signal a non-existing sample. It is a Sample with timestamp
// model.Earliest, value 0.0, and metric nil. Note that the natural zero value
// of Sample has a timestamp of 0, which is possible to appear in a real
// Sample and thus not suitable to signal a non-existing Sample.
var ZeroSample = model.Sample{Timestamp: model.Earliest}

View file

@ -1068,6 +1068,9 @@ func (p *persistence) fingerprintsModifiedBefore(beforeTime model.Time) ([]model
// method is goroutine-safe.
func (p *persistence) archivedMetric(fp model.Fingerprint) (model.Metric, error) {
metric, _, err := p.archivedFingerprintToMetrics.Lookup(fp)
if err != nil {
p.setDirty(true, err)
}
return metric, err
}

View file

@ -129,12 +129,13 @@ const (
type syncStrategy func() bool
type memorySeriesStorage struct {
// numChunksToPersist has to be aligned for atomic operations.
numChunksToPersist int64 // The number of chunks waiting for persistence.
maxChunksToPersist int // If numChunksToPersist reaches this threshold, ingestion will be throttled.
rushed bool // Whether the storage is in rushed mode.
rushedMtx sync.Mutex // Protects entering and exiting rushed mode.
throttled chan struct{} // This chan is sent to whenever NeedsThrottling() returns true (for logging).
// archiveHighWatermark and numChunksToPersist have to be aligned for atomic operations.
archiveHighWatermark model.Time // No archived series has samples after this time.
numChunksToPersist int64 // The number of chunks waiting for persistence.
maxChunksToPersist int // If numChunksToPersist reaches this threshold, ingestion will be throttled.
rushed bool // Whether the storage is in rushed mode.
rushedMtx sync.Mutex // Protects entering and exiting rushed mode.
throttled chan struct{} // This chan is sent to whenever NeedsThrottling() returns true (for logging).
fpLocker *fingerprintLocker
fpToSeries *seriesMap
@ -201,6 +202,7 @@ func NewMemorySeriesStorage(o *MemorySeriesStorageOptions) Storage {
dropAfter: o.PersistenceRetentionPeriod,
checkpointInterval: o.CheckpointInterval,
checkpointDirtySeriesLimit: o.CheckpointDirtySeriesLimit,
archiveHighWatermark: model.Now().Add(-headChunkTimeout),
maxChunksToPersist: o.MaxChunksToPersist,
@ -368,15 +370,20 @@ func (s *memorySeriesStorage) WaitForIndexing() {
}
// LastSampleForFingerprint implements Storage.
func (s *memorySeriesStorage) LastSamplePairForFingerprint(fp model.Fingerprint) model.SamplePair {
func (s *memorySeriesStorage) LastSampleForFingerprint(fp model.Fingerprint) model.Sample {
s.fpLocker.Lock(fp)
defer s.fpLocker.Unlock(fp)
series, ok := s.fpToSeries.get(fp)
if !ok {
return ZeroSamplePair
return ZeroSample
}
sp := series.lastSamplePair()
return model.Sample{
Metric: series.metric,
Value: sp.Value,
Timestamp: sp.Timestamp,
}
return series.lastSamplePair()
}
// boundedIterator wraps a SeriesIterator and does not allow fetching
@ -439,7 +446,10 @@ func (s *memorySeriesStorage) fingerprintsForLabelPairs(pairs ...model.LabelPair
}
// MetricsForLabelMatchers implements Storage.
func (s *memorySeriesStorage) MetricsForLabelMatchers(matchers ...*metric.LabelMatcher) map[model.Fingerprint]metric.Metric {
func (s *memorySeriesStorage) MetricsForLabelMatchers(
from, through model.Time,
matchers ...*metric.LabelMatcher,
) map[model.Fingerprint]metric.Metric {
var (
equals []model.LabelPair
filters []*metric.LabelMatcher
@ -491,9 +501,11 @@ func (s *memorySeriesStorage) MetricsForLabelMatchers(matchers ...*metric.LabelM
filters = remaining
}
result := make(map[model.Fingerprint]metric.Metric, len(resFPs))
result := map[model.Fingerprint]metric.Metric{}
for fp := range resFPs {
result[fp] = s.MetricForFingerprint(fp)
if metric, ok := s.metricForFingerprint(fp, from, through); ok {
result[fp] = metric
}
}
for _, matcher := range filters {
for fp, met := range result {
@ -505,6 +517,58 @@ func (s *memorySeriesStorage) MetricsForLabelMatchers(matchers ...*metric.LabelM
return result
}
// metricForFingerprint returns the metric for the given fingerprint if the
// corresponding time series has samples between 'from' and 'through'.
func (s *memorySeriesStorage) metricForFingerprint(
fp model.Fingerprint,
from, through model.Time,
) (metric.Metric, bool) {
// Lock FP so that no (un-)archiving will happen during lookup.
s.fpLocker.Lock(fp)
defer s.fpLocker.Unlock(fp)
watermark := model.Time(atomic.LoadInt64((*int64)(&s.archiveHighWatermark)))
series, ok := s.fpToSeries.get(fp)
if ok {
if series.lastTime.Before(from) || series.savedFirstTime.After(through) {
return metric.Metric{}, false
}
// Wrap the returned metric in a copy-on-write (COW) metric here because
// the caller might mutate it.
return metric.Metric{
Metric: series.metric,
}, true
}
// From here on, we are only concerned with archived metrics.
// If the high watermark of archived series is before 'from', we are done.
if watermark < from {
return metric.Metric{}, false
}
if from.After(model.Earliest) || through.Before(model.Latest) {
// The range lookup is relatively cheap, so let's do it first.
ok, first, last, err := s.persistence.hasArchivedMetric(fp)
if err != nil {
log.Errorf("Error retrieving archived time range for fingerprint %v: %v", fp, err)
return metric.Metric{}, false
}
if !ok || first.After(through) || last.Before(from) {
return metric.Metric{}, false
}
}
met, err := s.persistence.archivedMetric(fp)
if err != nil {
log.Errorf("Error retrieving archived metric for fingerprint %v: %v", fp, err)
return metric.Metric{}, false
}
return metric.Metric{
Metric: met,
Copied: false,
}, true
}
// LabelValuesForLabelName implements Storage.
func (s *memorySeriesStorage) LabelValuesForLabelName(labelName model.LabelName) model.LabelValues {
lvs, err := s.persistence.labelValuesForLabelName(labelName)
@ -514,30 +578,6 @@ func (s *memorySeriesStorage) LabelValuesForLabelName(labelName model.LabelName)
return lvs
}
// MetricForFingerprint implements Storage.
func (s *memorySeriesStorage) MetricForFingerprint(fp model.Fingerprint) metric.Metric {
s.fpLocker.Lock(fp)
defer s.fpLocker.Unlock(fp)
series, ok := s.fpToSeries.get(fp)
if ok {
// Wrap the returned metric in a copy-on-write (COW) metric here because
// the caller might mutate it.
return metric.Metric{
Metric: series.metric,
}
}
met, err := s.persistence.archivedMetric(fp)
if err != nil {
log.Errorf("Error retrieving archived metric for fingerprint %v: %v", fp, err)
}
return metric.Metric{
Metric: met,
Copied: false,
}
}
// DropMetric implements Storage.
func (s *memorySeriesStorage) DropMetricsForFingerprints(fps ...model.Fingerprint) {
for _, fp := range fps {
@ -1077,8 +1117,9 @@ func (s *memorySeriesStorage) maintainMemorySeries(
}
}
// Archive if all chunks are evicted.
if iOldestNotEvicted == -1 {
// Archive if all chunks are evicted. Also make sure the last sample has
// an age of at least headChunkTimeout (which is very likely anyway).
if iOldestNotEvicted == -1 && model.Now().Sub(series.lastTime) > headChunkTimeout {
s.fpToSeries.del(fp)
s.numSeries.Dec()
if err := s.persistence.archiveMetric(
@ -1088,6 +1129,15 @@ func (s *memorySeriesStorage) maintainMemorySeries(
return
}
s.seriesOps.WithLabelValues(archive).Inc()
oldWatermark := atomic.LoadInt64((*int64)(&s.archiveHighWatermark))
if oldWatermark < int64(series.lastTime) {
if !atomic.CompareAndSwapInt64(
(*int64)(&s.archiveHighWatermark),
oldWatermark, int64(series.lastTime),
) {
panic("s.archiveHighWatermark modified outside of maintainMemorySeries")
}
}
return
}
// If we are here, the series is not archived, so check for chunkDesc

View file

@ -178,7 +178,10 @@ func TestMatches(t *testing.T) {
}
for _, mt := range matcherTests {
res := storage.MetricsForLabelMatchers(mt.matchers...)
res := storage.MetricsForLabelMatchers(
model.Earliest, model.Latest,
mt.matchers...,
)
if len(mt.expected) != len(res) {
t.Fatalf("expected %d matches for %q, found %d", len(mt.expected), mt.matchers, len(res))
}
@ -362,7 +365,10 @@ func BenchmarkLabelMatching(b *testing.B) {
for i := 0; i < b.N; i++ {
benchLabelMatchingRes = map[model.Fingerprint]metric.Metric{}
for _, mt := range matcherTests {
benchLabelMatchingRes = s.MetricsForLabelMatchers(mt...)
benchLabelMatchingRes = s.MetricsForLabelMatchers(
model.Earliest, model.Latest,
mt...,
)
}
}
// Stop timer to not count the storage closing.

View file

@ -226,7 +226,10 @@ func (api *API) series(r *http.Request) (interface{}, *apiError) {
if err != nil {
return nil, &apiError{errorBadData, err}
}
for fp, met := range api.Storage.MetricsForLabelMatchers(matchers...) {
for fp, met := range api.Storage.MetricsForLabelMatchers(
model.Earliest, model.Latest, // Get every series.
matchers...,
) {
res[fp] = met
}
}
@ -250,7 +253,10 @@ func (api *API) dropSeries(r *http.Request) (interface{}, *apiError) {
if err != nil {
return nil, &apiError{errorBadData, err}
}
for fp := range api.Storage.MetricsForLabelMatchers(matchers...) {
for fp := range api.Storage.MetricsForLabelMatchers(
model.Earliest, model.Latest, // Get every series.
matchers...,
) {
fps[fp] = struct{}{}
}
}

View file

@ -19,7 +19,6 @@ import (
"github.com/golang/protobuf/proto"
"github.com/prometheus/prometheus/promql"
"github.com/prometheus/prometheus/storage/metric"
"github.com/prometheus/common/expfmt"
"github.com/prometheus/common/model"
@ -33,7 +32,7 @@ func (h *Handler) federation(w http.ResponseWriter, req *http.Request) {
req.ParseForm()
metrics := map[model.Fingerprint]metric.Metric{}
fps := map[model.Fingerprint]struct{}{}
for _, s := range req.Form["match[]"] {
matchers, err := promql.ParseMetricSelector(s)
@ -41,8 +40,11 @@ func (h *Handler) federation(w http.ResponseWriter, req *http.Request) {
http.Error(w, err.Error(), http.StatusBadRequest)
return
}
for fp, met := range h.storage.MetricsForLabelMatchers(matchers...) {
metrics[fp] = met
for fp := range h.storage.MetricsForLabelMatchers(
model.Now().Add(-promql.StalenessDelta), model.Latest,
matchers...,
) {
fps[fp] = struct{}{}
}
}
@ -62,19 +64,19 @@ func (h *Handler) federation(w http.ResponseWriter, req *http.Request) {
Type: dto.MetricType_UNTYPED.Enum(),
}
for fp, met := range metrics {
for fp := range fps {
globalUsed := map[model.LabelName]struct{}{}
sp := h.storage.LastSamplePairForFingerprint(fp)
s := h.storage.LastSampleForFingerprint(fp)
// Discard if sample does not exist or lays before the staleness interval.
if sp.Timestamp.Before(minTimestamp) {
if s.Timestamp.Before(minTimestamp) {
continue
}
// Reset label slice.
protMetric.Label = protMetric.Label[:0]
for ln, lv := range met.Metric {
for ln, lv := range s.Metric {
if ln == model.MetricNameLabel {
protMetricFam.Name = proto.String(string(lv))
continue
@ -98,8 +100,8 @@ func (h *Handler) federation(w http.ResponseWriter, req *http.Request) {
}
}
protMetric.TimestampMs = proto.Int64(int64(sp.Timestamp))
protMetric.Untyped.Value = proto.Float64(float64(sp.Value))
protMetric.TimestampMs = proto.Int64(int64(s.Timestamp))
protMetric.Untyped.Value = proto.Float64(float64(s.Value))
if err := enc.Encode(protMetricFam); err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)