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codec.go
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/
codec.go
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// Copyright 2017 The Prometheus Authors
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package remote
import (
"fmt"
"io"
"io/ioutil"
"net/http"
"sort"
"strings"
"github.com/gogo/protobuf/proto"
"github.com/golang/snappy"
"github.com/pkg/errors"
"github.com/prometheus/common/model"
"github.com/prometheus/prometheus/model/exemplar"
"github.com/prometheus/prometheus/model/labels"
"github.com/prometheus/prometheus/model/textparse"
"github.com/prometheus/prometheus/prompb"
"github.com/prometheus/prometheus/storage"
"github.com/prometheus/prometheus/tsdb/chunkenc"
)
// decodeReadLimit is the maximum size of a read request body in bytes.
const decodeReadLimit = 32 * 1024 * 1024
type HTTPError struct {
msg string
status int
}
func (e HTTPError) Error() string {
return e.msg
}
func (e HTTPError) Status() int {
return e.status
}
// DecodeReadRequest reads a remote.Request from a http.Request.
func DecodeReadRequest(r *http.Request) (*prompb.ReadRequest, error) {
compressed, err := ioutil.ReadAll(io.LimitReader(r.Body, decodeReadLimit))
if err != nil {
return nil, err
}
reqBuf, err := snappy.Decode(nil, compressed)
if err != nil {
return nil, err
}
var req prompb.ReadRequest
if err := proto.Unmarshal(reqBuf, &req); err != nil {
return nil, err
}
return &req, nil
}
// EncodeReadResponse writes a remote.Response to a http.ResponseWriter.
func EncodeReadResponse(resp *prompb.ReadResponse, w http.ResponseWriter) error {
data, err := proto.Marshal(resp)
if err != nil {
return err
}
compressed := snappy.Encode(nil, data)
_, err = w.Write(compressed)
return err
}
// ToQuery builds a Query proto.
func ToQuery(from, to int64, matchers []*labels.Matcher, hints *storage.SelectHints) (*prompb.Query, error) {
ms, err := toLabelMatchers(matchers)
if err != nil {
return nil, err
}
var rp *prompb.ReadHints
if hints != nil {
rp = &prompb.ReadHints{
StartMs: hints.Start,
EndMs: hints.End,
StepMs: hints.Step,
Func: hints.Func,
Grouping: hints.Grouping,
By: hints.By,
RangeMs: hints.Range,
}
}
return &prompb.Query{
StartTimestampMs: from,
EndTimestampMs: to,
Matchers: ms,
Hints: rp,
}, nil
}
// ToQueryResult builds a QueryResult proto.
func ToQueryResult(ss storage.SeriesSet, sampleLimit int) (*prompb.QueryResult, storage.Warnings, error) {
numSamples := 0
resp := &prompb.QueryResult{}
for ss.Next() {
series := ss.At()
iter := series.Iterator()
samples := []prompb.Sample{}
for iter.Next() {
numSamples++
if sampleLimit > 0 && numSamples > sampleLimit {
return nil, ss.Warnings(), HTTPError{
msg: fmt.Sprintf("exceeded sample limit (%d)", sampleLimit),
status: http.StatusBadRequest,
}
}
ts, val := iter.At()
samples = append(samples, prompb.Sample{
Timestamp: ts,
Value: val,
})
}
if err := iter.Err(); err != nil {
return nil, ss.Warnings(), err
}
resp.Timeseries = append(resp.Timeseries, &prompb.TimeSeries{
Labels: labelsToLabelsProto(series.Labels(), nil),
Samples: samples,
})
}
return resp, ss.Warnings(), ss.Err()
}
// FromQueryResult unpacks and sorts a QueryResult proto.
func FromQueryResult(sortSeries bool, res *prompb.QueryResult) storage.SeriesSet {
series := make([]storage.Series, 0, len(res.Timeseries))
for _, ts := range res.Timeseries {
lbls := labelProtosToLabels(ts.Labels)
if err := validateLabelsAndMetricName(lbls); err != nil {
return errSeriesSet{err: err}
}
series = append(series, &concreteSeries{labels: lbls, samples: ts.Samples})
}
if sortSeries {
sort.Sort(byLabel(series))
}
return &concreteSeriesSet{
series: series,
}
}
// NegotiateResponseType returns first accepted response type that this server supports.
// On the empty accepted list we assume that the SAMPLES response type was requested. This is to maintain backward compatibility.
func NegotiateResponseType(accepted []prompb.ReadRequest_ResponseType) (prompb.ReadRequest_ResponseType, error) {
if len(accepted) == 0 {
accepted = []prompb.ReadRequest_ResponseType{prompb.ReadRequest_SAMPLES}
}
supported := map[prompb.ReadRequest_ResponseType]struct{}{
prompb.ReadRequest_SAMPLES: {},
prompb.ReadRequest_STREAMED_XOR_CHUNKS: {},
}
for _, resType := range accepted {
if _, ok := supported[resType]; ok {
return resType, nil
}
}
return 0, errors.Errorf("server does not support any of the requested response types: %v; supported: %v", accepted, supported)
}
// StreamChunkedReadResponses iterates over series, builds chunks and streams those to the caller.
// It expects Series set with populated chunks.
func StreamChunkedReadResponses(
stream io.Writer,
queryIndex int64,
ss storage.ChunkSeriesSet,
sortedExternalLabels []prompb.Label,
maxBytesInFrame int,
) (storage.Warnings, error) {
var (
chks []prompb.Chunk
lbls []prompb.Label
)
for ss.Next() {
series := ss.At()
iter := series.Iterator()
lbls = MergeLabels(labelsToLabelsProto(series.Labels(), lbls), sortedExternalLabels)
frameBytesLeft := maxBytesInFrame
for _, lbl := range lbls {
frameBytesLeft -= lbl.Size()
}
isNext := iter.Next()
// Send at most one series per frame; series may be split over multiple frames according to maxBytesInFrame.
for isNext {
chk := iter.At()
if chk.Chunk == nil {
return ss.Warnings(), errors.Errorf("StreamChunkedReadResponses: found not populated chunk returned by SeriesSet at ref: %v", chk.Ref)
}
// Cut the chunk.
chks = append(chks, prompb.Chunk{
MinTimeMs: chk.MinTime,
MaxTimeMs: chk.MaxTime,
Type: prompb.Chunk_Encoding(chk.Chunk.Encoding()),
Data: chk.Chunk.Bytes(),
})
frameBytesLeft -= chks[len(chks)-1].Size()
// We are fine with minor inaccuracy of max bytes per frame. The inaccuracy will be max of full chunk size.
isNext = iter.Next()
if frameBytesLeft > 0 && isNext {
continue
}
b, err := proto.Marshal(&prompb.ChunkedReadResponse{
ChunkedSeries: []*prompb.ChunkedSeries{
{Labels: lbls, Chunks: chks},
},
QueryIndex: queryIndex,
})
if err != nil {
return ss.Warnings(), errors.Wrap(err, "marshal ChunkedReadResponse")
}
if _, err := stream.Write(b); err != nil {
return ss.Warnings(), errors.Wrap(err, "write to stream")
}
chks = chks[:0]
}
if err := iter.Err(); err != nil {
return ss.Warnings(), err
}
}
return ss.Warnings(), ss.Err()
}
// MergeLabels merges two sets of sorted proto labels, preferring those in
// primary to those in secondary when there is an overlap.
func MergeLabels(primary, secondary []prompb.Label) []prompb.Label {
result := make([]prompb.Label, 0, len(primary)+len(secondary))
i, j := 0, 0
for i < len(primary) && j < len(secondary) {
if primary[i].Name < secondary[j].Name {
result = append(result, primary[i])
i++
} else if primary[i].Name > secondary[j].Name {
result = append(result, secondary[j])
j++
} else {
result = append(result, primary[i])
i++
j++
}
}
for ; i < len(primary); i++ {
result = append(result, primary[i])
}
for ; j < len(secondary); j++ {
result = append(result, secondary[j])
}
return result
}
type byLabel []storage.Series
func (a byLabel) Len() int { return len(a) }
func (a byLabel) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a byLabel) Less(i, j int) bool { return labels.Compare(a[i].Labels(), a[j].Labels()) < 0 }
// errSeriesSet implements storage.SeriesSet, just returning an error.
type errSeriesSet struct {
err error
}
func (errSeriesSet) Next() bool {
return false
}
func (errSeriesSet) At() storage.Series {
return nil
}
func (e errSeriesSet) Err() error {
return e.err
}
func (e errSeriesSet) Warnings() storage.Warnings { return nil }
// concreteSeriesSet implements storage.SeriesSet.
type concreteSeriesSet struct {
cur int
series []storage.Series
}
func (c *concreteSeriesSet) Next() bool {
c.cur++
return c.cur-1 < len(c.series)
}
func (c *concreteSeriesSet) At() storage.Series {
return c.series[c.cur-1]
}
func (c *concreteSeriesSet) Err() error {
return nil
}
func (c *concreteSeriesSet) Warnings() storage.Warnings { return nil }
// concreteSeries implements storage.Series.
type concreteSeries struct {
labels labels.Labels
samples []prompb.Sample
}
func (c *concreteSeries) Labels() labels.Labels {
return labels.New(c.labels...)
}
func (c *concreteSeries) Iterator() chunkenc.Iterator {
return newConcreteSeriersIterator(c)
}
// concreteSeriesIterator implements storage.SeriesIterator.
type concreteSeriesIterator struct {
cur int
series *concreteSeries
}
func newConcreteSeriersIterator(series *concreteSeries) chunkenc.Iterator {
return &concreteSeriesIterator{
cur: -1,
series: series,
}
}
// Seek implements storage.SeriesIterator.
func (c *concreteSeriesIterator) Seek(t int64) bool {
if c.cur == -1 {
c.cur = 0
}
// No-op check.
if s := c.series.samples[c.cur]; s.Timestamp >= t {
return true
}
// Do binary search between current position and end.
c.cur += sort.Search(len(c.series.samples)-c.cur, func(n int) bool {
return c.series.samples[n+c.cur].Timestamp >= t
})
return c.cur < len(c.series.samples)
}
// At implements storage.SeriesIterator.
func (c *concreteSeriesIterator) At() (t int64, v float64) {
s := c.series.samples[c.cur]
return s.Timestamp, s.Value
}
// Next implements storage.SeriesIterator.
func (c *concreteSeriesIterator) Next() bool {
c.cur++
return c.cur < len(c.series.samples)
}
// Err implements storage.SeriesIterator.
func (c *concreteSeriesIterator) Err() error {
return nil
}
// validateLabelsAndMetricName validates the label names/values and metric names returned from remote read,
// also making sure that there are no labels with duplicate names
func validateLabelsAndMetricName(ls labels.Labels) error {
for i, l := range ls {
if l.Name == labels.MetricName && !model.IsValidMetricName(model.LabelValue(l.Value)) {
return errors.Errorf("invalid metric name: %v", l.Value)
}
if !model.LabelName(l.Name).IsValid() {
return errors.Errorf("invalid label name: %v", l.Name)
}
if !model.LabelValue(l.Value).IsValid() {
return errors.Errorf("invalid label value: %v", l.Value)
}
if i > 0 && l.Name == ls[i-1].Name {
return errors.Errorf("duplicate label with name: %v", l.Name)
}
}
return nil
}
func toLabelMatchers(matchers []*labels.Matcher) ([]*prompb.LabelMatcher, error) {
pbMatchers := make([]*prompb.LabelMatcher, 0, len(matchers))
for _, m := range matchers {
var mType prompb.LabelMatcher_Type
switch m.Type {
case labels.MatchEqual:
mType = prompb.LabelMatcher_EQ
case labels.MatchNotEqual:
mType = prompb.LabelMatcher_NEQ
case labels.MatchRegexp:
mType = prompb.LabelMatcher_RE
case labels.MatchNotRegexp:
mType = prompb.LabelMatcher_NRE
default:
return nil, errors.New("invalid matcher type")
}
pbMatchers = append(pbMatchers, &prompb.LabelMatcher{
Type: mType,
Name: m.Name,
Value: m.Value,
})
}
return pbMatchers, nil
}
// FromLabelMatchers parses protobuf label matchers to Prometheus label matchers.
func FromLabelMatchers(matchers []*prompb.LabelMatcher) ([]*labels.Matcher, error) {
result := make([]*labels.Matcher, 0, len(matchers))
for _, matcher := range matchers {
var mtype labels.MatchType
switch matcher.Type {
case prompb.LabelMatcher_EQ:
mtype = labels.MatchEqual
case prompb.LabelMatcher_NEQ:
mtype = labels.MatchNotEqual
case prompb.LabelMatcher_RE:
mtype = labels.MatchRegexp
case prompb.LabelMatcher_NRE:
mtype = labels.MatchNotRegexp
default:
return nil, errors.New("invalid matcher type")
}
matcher, err := labels.NewMatcher(mtype, matcher.Name, matcher.Value)
if err != nil {
return nil, err
}
result = append(result, matcher)
}
return result, nil
}
func exemplarProtoToExemplar(ep prompb.Exemplar) exemplar.Exemplar {
timestamp := ep.Timestamp
return exemplar.Exemplar{
Labels: labelProtosToLabels(ep.Labels),
Value: ep.Value,
Ts: timestamp,
HasTs: timestamp != 0,
}
}
// LabelProtosToMetric unpack a []*prompb.Label to a model.Metric
func LabelProtosToMetric(labelPairs []*prompb.Label) model.Metric {
metric := make(model.Metric, len(labelPairs))
for _, l := range labelPairs {
metric[model.LabelName(l.Name)] = model.LabelValue(l.Value)
}
return metric
}
func labelProtosToLabels(labelPairs []prompb.Label) labels.Labels {
result := make(labels.Labels, 0, len(labelPairs))
for _, l := range labelPairs {
result = append(result, labels.Label{
Name: l.Name,
Value: l.Value,
})
}
sort.Sort(result)
return result
}
// labelsToLabelsProto transforms labels into prompb labels. The buffer slice
// will be used to avoid allocations if it is big enough to store the labels.
func labelsToLabelsProto(labels labels.Labels, buf []prompb.Label) []prompb.Label {
result := buf[:0]
if cap(buf) < len(labels) {
result = make([]prompb.Label, 0, len(labels))
}
for _, l := range labels {
result = append(result, prompb.Label{
Name: l.Name,
Value: l.Value,
})
}
return result
}
// metricTypeToMetricTypeProto transforms a Prometheus metricType into prompb metricType. Since the former is a string we need to transform it to an enum.
func metricTypeToMetricTypeProto(t textparse.MetricType) prompb.MetricMetadata_MetricType {
mt := strings.ToUpper(string(t))
v, ok := prompb.MetricMetadata_MetricType_value[mt]
if !ok {
return prompb.MetricMetadata_UNKNOWN
}
return prompb.MetricMetadata_MetricType(v)
}
// DecodeWriteRequest from an io.Reader into a prompb.WriteRequest, handling
// snappy decompression.
func DecodeWriteRequest(r io.Reader) (*prompb.WriteRequest, error) {
compressed, err := ioutil.ReadAll(r)
if err != nil {
return nil, err
}
reqBuf, err := snappy.Decode(nil, compressed)
if err != nil {
return nil, err
}
var req prompb.WriteRequest
if err := proto.Unmarshal(reqBuf, &req); err != nil {
return nil, err
}
return &req, nil
}