prometheus/web/api/v1/api_test.go

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// Copyright 2016 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 v1
import (
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"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"io"
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"io/ioutil"
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"math"
"net/http"
"net/http/httptest"
"net/url"
"os"
"reflect"
"sort"
"strings"
"testing"
"time"
"github.com/go-kit/kit/log"
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"github.com/gogo/protobuf/proto"
"github.com/golang/snappy"
Tail the TSDB WAL for remote_write This change switches the remote_write API to use the TSDB WAL. This should reduce memory usage and prevent sample loss when the remote end point is down. We use the new LiveReader from TSDB to tail WAL segments. Logic for finding the tracking segment is included in this PR. The WAL is tailed once for each remote_write endpoint specified. Reading from the segment is based on a ticker rather than relying on fsnotify write events, which were found to be complicated and unreliable in early prototypes. Enqueuing a sample for sending via remote_write can now block, to provide back pressure. Queues are still required to acheive parallelism and batching. We have updated the queue config based on new defaults for queue capacity and pending samples values - much smaller values are now possible. The remote_write resharding code has been updated to prevent deadlocks, and extra tests have been added for these cases. As part of this change, we attempt to guarantee that samples are not lost; however this initial version doesn't guarantee this across Prometheus restarts or non-retryable errors from the remote end (eg 400s). This changes also includes the following optimisations: - only marshal the proto request once, not once per retry - maintain a single copy of the labels for given series to reduce GC pressure Other minor tweaks: - only reshard if we've also successfully sent recently - add pending samples, latest sent timestamp, WAL events processed metrics Co-authored-by: Chris Marchbanks <csmarchbanks.com> (initial prototype) Co-authored-by: Tom Wilkie <tom.wilkie@gmail.com> (sharding changes) Signed-off-by: Callum Styan <callumstyan@gmail.com>
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"github.com/prometheus/client_golang/prometheus"
config_util "github.com/prometheus/common/config"
"github.com/prometheus/common/model"
"github.com/prometheus/common/promlog"
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"github.com/prometheus/common/route"
"github.com/prometheus/prometheus/config"
"github.com/prometheus/prometheus/pkg/gate"
"github.com/prometheus/prometheus/pkg/labels"
"github.com/prometheus/prometheus/pkg/textparse"
"github.com/prometheus/prometheus/pkg/timestamp"
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"github.com/prometheus/prometheus/prompb"
"github.com/prometheus/prometheus/promql"
"github.com/prometheus/prometheus/rules"
"github.com/prometheus/prometheus/scrape"
"github.com/prometheus/prometheus/storage"
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"github.com/prometheus/prometheus/storage/remote"
"github.com/prometheus/prometheus/tsdb"
"github.com/prometheus/prometheus/util/teststorage"
"github.com/prometheus/prometheus/util/testutil"
)
// testMetaStore satisfies the scrape.MetricMetadataStore interface.
// It is used to inject specific metadata as part of a test case.
type testMetaStore struct {
Metadata []scrape.MetricMetadata
}
func (s *testMetaStore) ListMetadata() []scrape.MetricMetadata {
return s.Metadata
}
func (s *testMetaStore) GetMetadata(metric string) (scrape.MetricMetadata, bool) {
for _, m := range s.Metadata {
if metric == m.Metric {
return m, true
}
}
return scrape.MetricMetadata{}, false
}
func (s *testMetaStore) SizeMetadata() int { return 0 }
func (s *testMetaStore) LengthMetadata() int { return 0 }
// testTargetRetriever represents a list of targets to scrape.
// It is used to represent targets as part of test cases.
type testTargetRetriever struct {
activeTargets map[string][]*scrape.Target
droppedTargets map[string][]*scrape.Target
}
type testTargetParams struct {
Identifier string
Labels []labels.Label
DiscoveredLabels []labels.Label
Params url.Values
Reports []*testReport
Active bool
}
type testReport struct {
Start time.Time
Duration time.Duration
Error error
}
func newTestTargetRetriever(targetsInfo []*testTargetParams) *testTargetRetriever {
var activeTargets map[string][]*scrape.Target
var droppedTargets map[string][]*scrape.Target
activeTargets = make(map[string][]*scrape.Target)
droppedTargets = make(map[string][]*scrape.Target)
for _, t := range targetsInfo {
nt := scrape.NewTarget(t.Labels, t.DiscoveredLabels, t.Params)
for _, r := range t.Reports {
nt.Report(r.Start, r.Duration, r.Error)
}
if t.Active {
activeTargets[t.Identifier] = []*scrape.Target{nt}
} else {
droppedTargets[t.Identifier] = []*scrape.Target{nt}
}
}
return &testTargetRetriever{
activeTargets: activeTargets,
droppedTargets: droppedTargets,
}
}
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var (
scrapeStart = time.Now().Add(-11 * time.Second)
)
func (t testTargetRetriever) TargetsActive() map[string][]*scrape.Target {
return t.activeTargets
}
func (t testTargetRetriever) TargetsDropped() map[string][]*scrape.Target {
return t.droppedTargets
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}
func (t *testTargetRetriever) SetMetadataStoreForTargets(identifier string, metadata scrape.MetricMetadataStore) error {
targets, ok := t.activeTargets[identifier]
if !ok {
return errors.New("targets not found")
}
for _, at := range targets {
at.SetMetadataStore(metadata)
}
return nil
}
func (t *testTargetRetriever) ResetMetadataStore() {
for _, at := range t.activeTargets {
for _, tt := range at {
tt.SetMetadataStore(&testMetaStore{})
}
}
}
type testAlertmanagerRetriever struct{}
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func (t testAlertmanagerRetriever) Alertmanagers() []*url.URL {
return []*url.URL{
{
Scheme: "http",
Host: "alertmanager.example.com:8080",
Path: "/api/v1/alerts",
},
}
}
func (t testAlertmanagerRetriever) DroppedAlertmanagers() []*url.URL {
return []*url.URL{
{
Scheme: "http",
Host: "dropped.alertmanager.example.com:8080",
Path: "/api/v1/alerts",
},
}
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}
type rulesRetrieverMock struct {
testing *testing.T
}
func (m rulesRetrieverMock) AlertingRules() []*rules.AlertingRule {
expr1, err := promql.ParseExpr(`absent(test_metric3) != 1`)
if err != nil {
m.testing.Fatalf("unable to parse alert expression: %s", err)
}
expr2, err := promql.ParseExpr(`up == 1`)
if err != nil {
m.testing.Fatalf("Unable to parse alert expression: %s", err)
}
rule1 := rules.NewAlertingRule(
"test_metric3",
expr1,
time.Second,
labels.Labels{},
labels.Labels{},
labels.Labels{},
true,
log.NewNopLogger(),
)
rule2 := rules.NewAlertingRule(
"test_metric4",
expr2,
time.Second,
labels.Labels{},
labels.Labels{},
labels.Labels{},
true,
log.NewNopLogger(),
)
var r []*rules.AlertingRule
r = append(r, rule1)
r = append(r, rule2)
return r
}
func (m rulesRetrieverMock) RuleGroups() []*rules.Group {
var ar rulesRetrieverMock
arules := ar.AlertingRules()
storage := teststorage.New(m.testing)
defer storage.Close()
engineOpts := promql.EngineOpts{
Logger: nil,
Reg: nil,
MaxSamples: 10,
Timeout: 100 * time.Second,
}
engine := promql.NewEngine(engineOpts)
opts := &rules.ManagerOptions{
QueryFunc: rules.EngineQueryFunc(engine, storage),
Appendable: storage,
Context: context.Background(),
Logger: log.NewNopLogger(),
}
var r []rules.Rule
for _, alertrule := range arules {
r = append(r, alertrule)
}
recordingExpr, err := promql.ParseExpr(`vector(1)`)
if err != nil {
m.testing.Fatalf("unable to parse alert expression: %s", err)
}
recordingRule := rules.NewRecordingRule("recording-rule-1", recordingExpr, labels.Labels{})
r = append(r, recordingRule)
group := rules.NewGroup(rules.GroupOptions{
Name: "grp",
File: "/path/to/file",
Interval: time.Second,
Rules: r,
ShouldRestore: false,
Opts: opts,
})
return []*rules.Group{group}
}
var samplePrometheusCfg = config.Config{
GlobalConfig: config.GlobalConfig{},
AlertingConfig: config.AlertingConfig{},
RuleFiles: []string{},
ScrapeConfigs: []*config.ScrapeConfig{},
RemoteWriteConfigs: []*config.RemoteWriteConfig{},
RemoteReadConfigs: []*config.RemoteReadConfig{},
}
var sampleFlagMap = map[string]string{
"flag1": "value1",
"flag2": "value2",
}
func TestEndpoints(t *testing.T) {
suite, err := promql.NewTest(t, `
load 1m
test_metric1{foo="bar"} 0+100x100
test_metric1{foo="boo"} 1+0x100
test_metric2{foo="boo"} 1+0x100
`)
testutil.Ok(t, err)
defer suite.Close()
testutil.Ok(t, suite.Run())
now := time.Now()
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t.Run("local", func(t *testing.T) {
var algr rulesRetrieverMock
algr.testing = t
algr.AlertingRules()
algr.RuleGroups()
testTargetRetriever := setupTestTargetRetriever(t)
api := &API{
Queryable: suite.Storage(),
QueryEngine: suite.QueryEngine(),
targetRetriever: testTargetRetriever,
alertmanagerRetriever: testAlertmanagerRetriever{},
flagsMap: sampleFlagMap,
now: func() time.Time { return now },
config: func() config.Config { return samplePrometheusCfg },
ready: func(f http.HandlerFunc) http.HandlerFunc { return f },
rulesRetriever: algr,
}
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testEndpoints(t, api, testTargetRetriever, true)
})
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// Run all the API tests against a API that is wired to forward queries via
// the remote read client to a test server, which in turn sends them to the
// data from the test suite.
t.Run("remote", func(t *testing.T) {
server := setupRemote(suite.Storage())
defer server.Close()
u, err := url.Parse(server.URL)
testutil.Ok(t, err)
al := promlog.AllowedLevel{}
testutil.Ok(t, al.Set("debug"))
af := promlog.AllowedFormat{}
testutil.Ok(t, af.Set("logfmt"))
promlogConfig := promlog.Config{
Level: &al,
Format: &af,
}
Tail the TSDB WAL for remote_write This change switches the remote_write API to use the TSDB WAL. This should reduce memory usage and prevent sample loss when the remote end point is down. We use the new LiveReader from TSDB to tail WAL segments. Logic for finding the tracking segment is included in this PR. The WAL is tailed once for each remote_write endpoint specified. Reading from the segment is based on a ticker rather than relying on fsnotify write events, which were found to be complicated and unreliable in early prototypes. Enqueuing a sample for sending via remote_write can now block, to provide back pressure. Queues are still required to acheive parallelism and batching. We have updated the queue config based on new defaults for queue capacity and pending samples values - much smaller values are now possible. The remote_write resharding code has been updated to prevent deadlocks, and extra tests have been added for these cases. As part of this change, we attempt to guarantee that samples are not lost; however this initial version doesn't guarantee this across Prometheus restarts or non-retryable errors from the remote end (eg 400s). This changes also includes the following optimisations: - only marshal the proto request once, not once per retry - maintain a single copy of the labels for given series to reduce GC pressure Other minor tweaks: - only reshard if we've also successfully sent recently - add pending samples, latest sent timestamp, WAL events processed metrics Co-authored-by: Chris Marchbanks <csmarchbanks.com> (initial prototype) Co-authored-by: Tom Wilkie <tom.wilkie@gmail.com> (sharding changes) Signed-off-by: Callum Styan <callumstyan@gmail.com>
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dbDir, err := ioutil.TempDir("", "tsdb-api-ready")
testutil.Ok(t, err)
defer os.RemoveAll(dbDir)
remote := remote.NewStorage(promlog.New(&promlogConfig), prometheus.DefaultRegisterer, func() (int64, error) {
return 0, nil
Tail the TSDB WAL for remote_write This change switches the remote_write API to use the TSDB WAL. This should reduce memory usage and prevent sample loss when the remote end point is down. We use the new LiveReader from TSDB to tail WAL segments. Logic for finding the tracking segment is included in this PR. The WAL is tailed once for each remote_write endpoint specified. Reading from the segment is based on a ticker rather than relying on fsnotify write events, which were found to be complicated and unreliable in early prototypes. Enqueuing a sample for sending via remote_write can now block, to provide back pressure. Queues are still required to acheive parallelism and batching. We have updated the queue config based on new defaults for queue capacity and pending samples values - much smaller values are now possible. The remote_write resharding code has been updated to prevent deadlocks, and extra tests have been added for these cases. As part of this change, we attempt to guarantee that samples are not lost; however this initial version doesn't guarantee this across Prometheus restarts or non-retryable errors from the remote end (eg 400s). This changes also includes the following optimisations: - only marshal the proto request once, not once per retry - maintain a single copy of the labels for given series to reduce GC pressure Other minor tweaks: - only reshard if we've also successfully sent recently - add pending samples, latest sent timestamp, WAL events processed metrics Co-authored-by: Chris Marchbanks <csmarchbanks.com> (initial prototype) Co-authored-by: Tom Wilkie <tom.wilkie@gmail.com> (sharding changes) Signed-off-by: Callum Styan <callumstyan@gmail.com>
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}, dbDir, 1*time.Second)
err = remote.ApplyConfig(&config.Config{
RemoteReadConfigs: []*config.RemoteReadConfig{
{
URL: &config_util.URL{URL: u},
RemoteTimeout: model.Duration(1 * time.Second),
ReadRecent: true,
},
},
})
testutil.Ok(t, err)
var algr rulesRetrieverMock
algr.testing = t
algr.AlertingRules()
algr.RuleGroups()
testTargetRetriever := setupTestTargetRetriever(t)
api := &API{
Queryable: remote,
QueryEngine: suite.QueryEngine(),
targetRetriever: testTargetRetriever,
alertmanagerRetriever: testAlertmanagerRetriever{},
flagsMap: sampleFlagMap,
now: func() time.Time { return now },
config: func() config.Config { return samplePrometheusCfg },
ready: func(f http.HandlerFunc) http.HandlerFunc { return f },
rulesRetriever: algr,
}
testEndpoints(t, api, testTargetRetriever, false)
})
}
func TestLabelNames(t *testing.T) {
// TestEndpoints doesn't have enough label names to test api.labelNames
// endpoint properly. Hence we test it separately.
suite, err := promql.NewTest(t, `
load 1m
test_metric1{foo1="bar", baz="abc"} 0+100x100
test_metric1{foo2="boo"} 1+0x100
test_metric2{foo="boo"} 1+0x100
test_metric2{foo="boo", xyz="qwerty"} 1+0x100
`)
testutil.Ok(t, err)
defer suite.Close()
testutil.Ok(t, suite.Run())
api := &API{
Queryable: suite.Storage(),
}
request := func(m string) (*http.Request, error) {
if m == http.MethodPost {
r, err := http.NewRequest(m, "http://example.com", nil)
r.Header.Set("Content-Type", "application/x-www-form-urlencoded")
return r, err
}
return http.NewRequest(m, "http://example.com", nil)
}
for _, method := range []string{http.MethodGet, http.MethodPost} {
ctx := context.Background()
req, err := request(method)
testutil.Ok(t, err)
res := api.labelNames(req.WithContext(ctx))
assertAPIError(t, res.err, "")
assertAPIResponse(t, res.data, []string{"__name__", "baz", "foo", "foo1", "foo2", "xyz"})
}
}
func setupTestTargetRetriever(t *testing.T) *testTargetRetriever {
t.Helper()
targets := []*testTargetParams{
{
Identifier: "test",
Labels: labels.FromMap(map[string]string{
model.SchemeLabel: "http",
model.AddressLabel: "example.com:8080",
model.MetricsPathLabel: "/metrics",
model.JobLabel: "test",
}),
DiscoveredLabels: nil,
Params: url.Values{},
Reports: []*testReport{{scrapeStart, 70 * time.Millisecond, nil}},
Active: true,
},
{
Identifier: "blackbox",
Labels: labels.FromMap(map[string]string{
model.SchemeLabel: "http",
model.AddressLabel: "localhost:9115",
model.MetricsPathLabel: "/probe",
model.JobLabel: "blackbox",
}),
DiscoveredLabels: nil,
Params: url.Values{"target": []string{"example.com"}},
Reports: []*testReport{{scrapeStart, 100 * time.Millisecond, errors.New("failed")}},
Active: true,
},
{
Identifier: "blackbox",
Labels: nil,
DiscoveredLabels: labels.FromMap(map[string]string{
model.SchemeLabel: "http",
model.AddressLabel: "http://dropped.example.com:9115",
model.MetricsPathLabel: "/probe",
model.JobLabel: "blackbox",
}),
Params: url.Values{},
Active: false,
},
}
return newTestTargetRetriever(targets)
}
func setupRemote(s storage.Storage) *httptest.Server {
handler := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
req, err := remote.DecodeReadRequest(r)
if err != nil {
http.Error(w, err.Error(), http.StatusBadRequest)
return
}
resp := prompb.ReadResponse{
Results: make([]*prompb.QueryResult, len(req.Queries)),
}
for i, query := range req.Queries {
matchers, err := remote.FromLabelMatchers(query.Matchers)
if err != nil {
http.Error(w, err.Error(), http.StatusBadRequest)
return
}
var selectParams *storage.SelectParams
if query.Hints != nil {
selectParams = &storage.SelectParams{
Start: query.Hints.StartMs,
End: query.Hints.EndMs,
Step: query.Hints.StepMs,
Func: query.Hints.Func,
}
}
querier, err := s.Querier(r.Context(), query.StartTimestampMs, query.EndTimestampMs)
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
defer querier.Close()
set, _, err := querier.Select(selectParams, matchers...)
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
resp.Results[i], err = remote.ToQueryResult(set, 1e6)
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
}
if err := remote.EncodeReadResponse(&resp, w); err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
})
return httptest.NewServer(handler)
}
func testEndpoints(t *testing.T, api *API, tr *testTargetRetriever, testLabelAPI bool) {
start := time.Unix(0, 0)
type targetMetadata struct {
identifier string
metadata []scrape.MetricMetadata
}
type test struct {
endpoint apiFunc
params map[string]string
query url.Values
response interface{}
responseLen int
errType errorType
sorter func(interface{})
metadata []targetMetadata
}
var tests = []test{
{
endpoint: api.query,
query: url.Values{
"query": []string{"2"},
"time": []string{"123.4"},
},
response: &queryData{
ResultType: promql.ValueTypeScalar,
Result: promql.Scalar{
V: 2,
T: timestamp.FromTime(start.Add(123*time.Second + 400*time.Millisecond)),
},
},
},
{
endpoint: api.query,
query: url.Values{
"query": []string{"0.333"},
"time": []string{"1970-01-01T00:02:03Z"},
},
response: &queryData{
ResultType: promql.ValueTypeScalar,
Result: promql.Scalar{
V: 0.333,
T: timestamp.FromTime(start.Add(123 * time.Second)),
},
},
},
{
endpoint: api.query,
query: url.Values{
"query": []string{"0.333"},
"time": []string{"1970-01-01T01:02:03+01:00"},
},
response: &queryData{
ResultType: promql.ValueTypeScalar,
Result: promql.Scalar{
V: 0.333,
T: timestamp.FromTime(start.Add(123 * time.Second)),
},
},
},
{
endpoint: api.query,
query: url.Values{
"query": []string{"0.333"},
},
response: &queryData{
ResultType: promql.ValueTypeScalar,
Result: promql.Scalar{
V: 0.333,
T: timestamp.FromTime(api.now()),
},
},
},
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{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"start": []string{"0"},
"end": []string{"2"},
"step": []string{"1"},
},
response: &queryData{
ResultType: promql.ValueTypeMatrix,
Result: promql.Matrix{
promql.Series{
Points: []promql.Point{
{V: 0, T: timestamp.FromTime(start)},
{V: 1, T: timestamp.FromTime(start.Add(1 * time.Second))},
{V: 2, T: timestamp.FromTime(start.Add(2 * time.Second))},
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},
Metric: nil,
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},
},
},
},
// Missing query params in range queries.
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"end": []string{"2"},
"step": []string{"1"},
},
errType: errorBadData,
},
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"start": []string{"0"},
"step": []string{"1"},
},
errType: errorBadData,
},
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"start": []string{"0"},
"end": []string{"2"},
},
errType: errorBadData,
},
// Bad query expression.
{
endpoint: api.query,
query: url.Values{
"query": []string{"invalid][query"},
"time": []string{"1970-01-01T01:02:03+01:00"},
},
errType: errorBadData,
},
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"invalid][query"},
"start": []string{"0"},
"end": []string{"100"},
"step": []string{"1"},
},
errType: errorBadData,
},
// Invalid step.
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"start": []string{"1"},
"end": []string{"2"},
"step": []string{"0"},
},
errType: errorBadData,
},
// Start after end.
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"start": []string{"2"},
"end": []string{"1"},
"step": []string{"1"},
},
errType: errorBadData,
},
// Start overflows int64 internally.
{
endpoint: api.queryRange,
query: url.Values{
"query": []string{"time()"},
"start": []string{"148966367200.372"},
"end": []string{"1489667272.372"},
"step": []string{"1"},
},
errType: errorBadData,
},
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric2", "foo", "boo"),
},
},
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric1{foo=~".+o"}`},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric1", "foo", "boo"),
},
},
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric1{foo=~".+o$"}`, `test_metric1{foo=~".+o"}`},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric1", "foo", "boo"),
},
},
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric1{foo=~".+o"}`, `none`},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric1", "foo", "boo"),
},
},
// Start and end before series starts.
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
"start": []string{"-2"},
"end": []string{"-1"},
},
response: []labels.Labels{},
},
// Start and end after series ends.
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
"start": []string{"100000"},
"end": []string{"100001"},
},
response: []labels.Labels{},
},
// Start before series starts, end after series ends.
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
"start": []string{"-1"},
"end": []string{"100000"},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric2", "foo", "boo"),
},
},
// Start and end within series.
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
"start": []string{"1"},
"end": []string{"100"},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric2", "foo", "boo"),
},
},
// Start within series, end after.
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
"start": []string{"1"},
"end": []string{"100000"},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric2", "foo", "boo"),
},
},
// Start before series, end within series.
{
endpoint: api.series,
query: url.Values{
"match[]": []string{`test_metric2`},
"start": []string{"-1"},
"end": []string{"1"},
},
response: []labels.Labels{
labels.FromStrings("__name__", "test_metric2", "foo", "boo"),
},
},
// Missing match[] query params in series requests.
{
endpoint: api.series,
errType: errorBadData,
},
{
endpoint: api.dropSeries,
2017-07-06 05:38:40 -07:00
errType: errorInternal,
},
{
2016-12-02 04:31:43 -08:00
endpoint: api.targets,
response: &TargetDiscovery{
ActiveTargets: []*Target{
{
DiscoveredLabels: map[string]string{},
Labels: map[string]string{
"job": "blackbox",
},
ScrapePool: "blackbox",
ScrapeURL: "http://localhost:9115/probe?target=example.com",
GlobalURL: "http://localhost:9115/probe?target=example.com",
Health: "down",
LastError: "failed: missing port in address",
LastScrape: scrapeStart,
LastScrapeDuration: 0.1,
},
{
DiscoveredLabels: map[string]string{},
Labels: map[string]string{
"job": "test",
},
ScrapePool: "test",
ScrapeURL: "http://example.com:8080/metrics",
GlobalURL: "http://example.com:8080/metrics",
Health: "up",
LastError: "",
LastScrape: scrapeStart,
LastScrapeDuration: 0.07,
},
},
DroppedTargets: []*DroppedTarget{
{
DiscoveredLabels: map[string]string{
"__address__": "http://dropped.example.com:9115",
"__metrics_path__": "/probe",
"__scheme__": "http",
"job": "blackbox",
},
},
2016-12-02 04:31:43 -08:00
},
},
},
{
endpoint: api.targets,
query: url.Values{
"state": []string{"any"},
},
response: &TargetDiscovery{
ActiveTargets: []*Target{
{
DiscoveredLabels: map[string]string{},
Labels: map[string]string{
"job": "blackbox",
},
ScrapePool: "blackbox",
ScrapeURL: "http://localhost:9115/probe?target=example.com",
GlobalURL: "http://localhost:9115/probe?target=example.com",
Health: "down",
LastError: "failed: missing port in address",
LastScrape: scrapeStart,
LastScrapeDuration: 0.1,
},
{
DiscoveredLabels: map[string]string{},
Labels: map[string]string{
"job": "test",
},
ScrapePool: "test",
ScrapeURL: "http://example.com:8080/metrics",
GlobalURL: "http://example.com:8080/metrics",
Health: "up",
LastError: "",
LastScrape: scrapeStart,
LastScrapeDuration: 0.07,
},
},
DroppedTargets: []*DroppedTarget{
{
DiscoveredLabels: map[string]string{
"__address__": "http://dropped.example.com:9115",
"__metrics_path__": "/probe",
"__scheme__": "http",
"job": "blackbox",
},
},
},
},
},
{
endpoint: api.targets,
query: url.Values{
"state": []string{"active"},
},
response: &TargetDiscovery{
ActiveTargets: []*Target{
{
DiscoveredLabels: map[string]string{},
Labels: map[string]string{
"job": "blackbox",
},
ScrapePool: "blackbox",
ScrapeURL: "http://localhost:9115/probe?target=example.com",
GlobalURL: "http://localhost:9115/probe?target=example.com",
Health: "down",
LastError: "failed: missing port in address",
LastScrape: scrapeStart,
LastScrapeDuration: 0.1,
},
{
DiscoveredLabels: map[string]string{},
Labels: map[string]string{
"job": "test",
},
ScrapePool: "test",
ScrapeURL: "http://example.com:8080/metrics",
GlobalURL: "http://example.com:8080/metrics",
Health: "up",
LastError: "",
LastScrape: scrapeStart,
LastScrapeDuration: 0.07,
},
},
DroppedTargets: []*DroppedTarget{},
},
},
{
endpoint: api.targets,
query: url.Values{
"state": []string{"Dropped"},
},
response: &TargetDiscovery{
ActiveTargets: []*Target{},
DroppedTargets: []*DroppedTarget{
{
DiscoveredLabels: map[string]string{
"__address__": "http://dropped.example.com:9115",
"__metrics_path__": "/probe",
"__scheme__": "http",
"job": "blackbox",
},
},
},
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},
},
// With a matching metric.
{
endpoint: api.targetMetadata,
query: url.Values{
"metric": []string{"go_threads"},
},
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created.",
Unit: "",
},
},
},
},
response: []metricMetadata{
{
Target: labels.FromMap(map[string]string{
"job": "test",
}),
Help: "Number of OS threads created.",
Type: textparse.MetricTypeGauge,
Unit: "",
},
},
},
// With a matching target.
{
endpoint: api.targetMetadata,
query: url.Values{
"match_target": []string{"{job=\"blackbox\"}"},
},
metadata: []targetMetadata{
{
identifier: "blackbox",
metadata: []scrape.MetricMetadata{
{
Metric: "prometheus_tsdb_storage_blocks_bytes",
Type: textparse.MetricTypeGauge,
Help: "The number of bytes that are currently used for local storage by all blocks.",
Unit: "",
},
},
},
},
response: []metricMetadata{
{
Target: labels.FromMap(map[string]string{
"job": "blackbox",
}),
Metric: "prometheus_tsdb_storage_blocks_bytes",
Help: "The number of bytes that are currently used for local storage by all blocks.",
Type: textparse.MetricTypeGauge,
Unit: "",
},
},
},
// Without a target or metric.
{
endpoint: api.targetMetadata,
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created.",
Unit: "",
},
},
},
{
identifier: "blackbox",
metadata: []scrape.MetricMetadata{
{
Metric: "prometheus_tsdb_storage_blocks_bytes",
Type: textparse.MetricTypeGauge,
Help: "The number of bytes that are currently used for local storage by all blocks.",
Unit: "",
},
},
},
},
response: []metricMetadata{
{
Target: labels.FromMap(map[string]string{
"job": "test",
}),
Metric: "go_threads",
Help: "Number of OS threads created.",
Type: textparse.MetricTypeGauge,
Unit: "",
},
{
Target: labels.FromMap(map[string]string{
"job": "blackbox",
}),
Metric: "prometheus_tsdb_storage_blocks_bytes",
Help: "The number of bytes that are currently used for local storage by all blocks.",
Type: textparse.MetricTypeGauge,
Unit: "",
},
},
sorter: func(m interface{}) {
sort.Slice(m.([]metricMetadata), func(i, j int) bool {
s := m.([]metricMetadata)
return s[i].Metric < s[j].Metric
})
},
},
// Without a matching metric.
{
endpoint: api.targetMetadata,
query: url.Values{
"match_target": []string{"{job=\"non-existentblackbox\"}"},
},
response: []metricMetadata{},
},
{
2017-01-13 01:20:11 -08:00
endpoint: api.alertmanagers,
response: &AlertmanagerDiscovery{
ActiveAlertmanagers: []*AlertmanagerTarget{
{
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URL: "http://alertmanager.example.com:8080/api/v1/alerts",
},
},
DroppedAlertmanagers: []*AlertmanagerTarget{
{
URL: "http://dropped.alertmanager.example.com:8080/api/v1/alerts",
},
},
2017-01-13 01:20:11 -08:00
},
},
// With metadata available.
{
endpoint: api.metricMetadata,
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "prometheus_engine_query_duration_seconds",
Type: textparse.MetricTypeSummary,
Help: "Query timings",
Unit: "",
},
{
Metric: "go_info",
Type: textparse.MetricTypeGauge,
Help: "Information about the Go environment.",
Unit: "",
},
},
},
},
response: map[string][]metadata{
"prometheus_engine_query_duration_seconds": {{textparse.MetricTypeSummary, "Query timings", ""}},
"go_info": {{textparse.MetricTypeGauge, "Information about the Go environment.", ""}},
},
},
// With duplicate metadata for a metric that comes from different targets.
{
endpoint: api.metricMetadata,
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created",
Unit: "",
},
},
},
{
identifier: "blackbox",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created",
Unit: "",
},
},
},
},
response: map[string][]metadata{
"go_threads": {{textparse.MetricTypeGauge, "Number of OS threads created", ""}},
},
},
// With non-duplicate metadata for the same metric from different targets.
{
endpoint: api.metricMetadata,
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created",
Unit: "",
},
},
},
{
identifier: "blackbox",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads that were created.",
Unit: "",
},
},
},
},
response: map[string][]metadata{
"go_threads": []metadata{
{textparse.MetricTypeGauge, "Number of OS threads created", ""},
{textparse.MetricTypeGauge, "Number of OS threads that were created.", ""},
},
},
sorter: func(m interface{}) {
v := m.(map[string][]metadata)["go_threads"]
sort.Slice(v, func(i, j int) bool {
return v[i].Help < v[j].Help
})
},
},
// With a limit for the number of metrics returned.
{
endpoint: api.metricMetadata,
query: url.Values{
"limit": []string{"2"},
},
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created",
Unit: "",
},
{
Metric: "prometheus_engine_query_duration_seconds",
Type: textparse.MetricTypeSummary,
Help: "Query Timmings.",
Unit: "",
},
},
},
{
identifier: "blackbox",
metadata: []scrape.MetricMetadata{
{
Metric: "go_gc_duration_seconds",
Type: textparse.MetricTypeSummary,
Help: "A summary of the GC invocation durations.",
Unit: "",
},
},
},
},
responseLen: 2,
},
// When requesting a specific metric that is present.
{
endpoint: api.metricMetadata,
query: url.Values{"metric": []string{"go_threads"}},
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created",
Unit: "",
},
},
},
{
identifier: "blackbox",
metadata: []scrape.MetricMetadata{
{
Metric: "go_gc_duration_seconds",
Type: textparse.MetricTypeSummary,
Help: "A summary of the GC invocation durations.",
Unit: "",
},
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads that were created.",
Unit: "",
},
},
},
},
response: map[string][]metadata{
"go_threads": []metadata{
{textparse.MetricTypeGauge, "Number of OS threads created", ""},
{textparse.MetricTypeGauge, "Number of OS threads that were created.", ""},
},
},
sorter: func(m interface{}) {
v := m.(map[string][]metadata)["go_threads"]
sort.Slice(v, func(i, j int) bool {
return v[i].Help < v[j].Help
})
},
},
// With a specific metric that is not present.
{
endpoint: api.metricMetadata,
query: url.Values{"metric": []string{"go_gc_duration_seconds"}},
metadata: []targetMetadata{
{
identifier: "test",
metadata: []scrape.MetricMetadata{
{
Metric: "go_threads",
Type: textparse.MetricTypeGauge,
Help: "Number of OS threads created",
Unit: "",
},
},
},
},
response: map[string][]metadata{},
},
// With no available metadata.
{
endpoint: api.metricMetadata,
response: map[string][]metadata{},
},
{
endpoint: api.serveConfig,
response: &prometheusConfig{
YAML: samplePrometheusCfg.String(),
},
},
{
endpoint: api.serveFlags,
response: sampleFlagMap,
},
{
endpoint: api.alerts,
response: &AlertDiscovery{
Alerts: []*Alert{},
},
},
{
endpoint: api.rules,
response: &RuleDiscovery{
RuleGroups: []*RuleGroup{
{
Name: "grp",
File: "/path/to/file",
Interval: 1,
Rules: []rule{
alertingRule{
React UI: Implement alerts page (#6402) * url filter rules param Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * address review changes Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * ui initial commit Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * improve ui Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * fix typo in component name Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * create query link + ui enhancements Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * add count to state labels Signed-off-by: blalov <boiskila@gmail.com> * put alerts table render in the right place Signed-off-by: blalov <boiskila@gmail.com> * refactoring Signed-off-by: blalov <boiskila@gmail.com> * fix rules endpoint test Signed-off-by: blalov <boiskila@gmail.com> * lint fixes Signed-off-by: blalov <boiskila@gmail.com> * test query params Signed-off-by: blalov <boiskila@gmail.com> * refactoring Signed-off-by: blalov <boiskila@gmail.com> * review changes Signed-off-by: blalov <boiskila@gmail.com> * adding down arrow as click indicator in Alert Signed-off-by: blalov <boiskila@gmail.com> * add period at the end of the comment Signed-off-by: blalov <boiskila@gmail.com> * review changes Signed-off-by: blalov <boiskila@gmail.com> * remove left-over css Signed-off-by: blalov <boiskila@gmail.com> * adding expand/collapse arrows on Alert Signed-off-by: blalov <boiskila@gmail.com> * create proper expression for alert name Signed-off-by: blalov <boiskila@gmail.com>
2019-12-09 14:42:59 -08:00
State: "inactive",
Name: "test_metric3",
Query: "absent(test_metric3) != 1",
Duration: 1,
Labels: labels.Labels{},
Annotations: labels.Labels{},
Alerts: []*Alert{},
Health: "unknown",
Type: "alerting",
},
alertingRule{
React UI: Implement alerts page (#6402) * url filter rules param Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * address review changes Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * ui initial commit Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * improve ui Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * fix typo in component name Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * create query link + ui enhancements Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * add count to state labels Signed-off-by: blalov <boiskila@gmail.com> * put alerts table render in the right place Signed-off-by: blalov <boiskila@gmail.com> * refactoring Signed-off-by: blalov <boiskila@gmail.com> * fix rules endpoint test Signed-off-by: blalov <boiskila@gmail.com> * lint fixes Signed-off-by: blalov <boiskila@gmail.com> * test query params Signed-off-by: blalov <boiskila@gmail.com> * refactoring Signed-off-by: blalov <boiskila@gmail.com> * review changes Signed-off-by: blalov <boiskila@gmail.com> * adding down arrow as click indicator in Alert Signed-off-by: blalov <boiskila@gmail.com> * add period at the end of the comment Signed-off-by: blalov <boiskila@gmail.com> * review changes Signed-off-by: blalov <boiskila@gmail.com> * remove left-over css Signed-off-by: blalov <boiskila@gmail.com> * adding expand/collapse arrows on Alert Signed-off-by: blalov <boiskila@gmail.com> * create proper expression for alert name Signed-off-by: blalov <boiskila@gmail.com>
2019-12-09 14:42:59 -08:00
State: "inactive",
Name: "test_metric4",
Query: "up == 1",
Duration: 1,
Labels: labels.Labels{},
Annotations: labels.Labels{},
Alerts: []*Alert{},
Health: "unknown",
Type: "alerting",
},
recordingRule{
Name: "recording-rule-1",
Query: "vector(1)",
Labels: labels.Labels{},
Health: "unknown",
Type: "recording",
},
},
},
},
},
},
React UI: Implement alerts page (#6402) * url filter rules param Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * address review changes Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * ui initial commit Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * improve ui Signed-off-by: blalov <boiskila@gmail.com> Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * fix typo in component name Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * create query link + ui enhancements Signed-off-by: Boyko Lalov <boiskila@gmail.com> Signed-off-by: blalov <boiskila@gmail.com> * add count to state labels Signed-off-by: blalov <boiskila@gmail.com> * put alerts table render in the right place Signed-off-by: blalov <boiskila@gmail.com> * refactoring Signed-off-by: blalov <boiskila@gmail.com> * fix rules endpoint test Signed-off-by: blalov <boiskila@gmail.com> * lint fixes Signed-off-by: blalov <boiskila@gmail.com> * test query params Signed-off-by: blalov <boiskila@gmail.com> * refactoring Signed-off-by: blalov <boiskila@gmail.com> * review changes Signed-off-by: blalov <boiskila@gmail.com> * adding down arrow as click indicator in Alert Signed-off-by: blalov <boiskila@gmail.com> * add period at the end of the comment Signed-off-by: blalov <boiskila@gmail.com> * review changes Signed-off-by: blalov <boiskila@gmail.com> * remove left-over css Signed-off-by: blalov <boiskila@gmail.com> * adding expand/collapse arrows on Alert Signed-off-by: blalov <boiskila@gmail.com> * create proper expression for alert name Signed-off-by: blalov <boiskila@gmail.com>
2019-12-09 14:42:59 -08:00
{
endpoint: api.rules,
query: url.Values{
"type": []string{"alert"},
},
response: &RuleDiscovery{
RuleGroups: []*RuleGroup{
{
Name: "grp",
File: "/path/to/file",
Interval: 1,
Rules: []rule{
alertingRule{
State: "inactive",
Name: "test_metric3",
Query: "absent(test_metric3) != 1",
Duration: 1,
Labels: labels.Labels{},
Annotations: labels.Labels{},
Alerts: []*Alert{},
Health: "unknown",
Type: "alerting",
},
alertingRule{
State: "inactive",
Name: "test_metric4",
Query: "up == 1",
Duration: 1,
Labels: labels.Labels{},
Annotations: labels.Labels{},
Alerts: []*Alert{},
Health: "unknown",
Type: "alerting",
},
},
},
},
},
},
{
endpoint: api.rules,
query: url.Values{
"type": []string{"record"},
},
response: &RuleDiscovery{
RuleGroups: []*RuleGroup{
{
Name: "grp",
File: "/path/to/file",
Interval: 1,
Rules: []rule{
recordingRule{
Name: "recording-rule-1",
Query: "vector(1)",
Labels: labels.Labels{},
Health: "unknown",
Type: "recording",
},
},
},
},
},
},
}
if testLabelAPI {
tests = append(tests, []test{
{
endpoint: api.labelValues,
params: map[string]string{
"name": "__name__",
},
response: []string{
"test_metric1",
"test_metric2",
},
},
{
endpoint: api.labelValues,
params: map[string]string{
"name": "foo",
},
response: []string{
"bar",
"boo",
},
},
// Bad name parameter.
{
endpoint: api.labelValues,
params: map[string]string{
"name": "not!!!allowed",
},
errType: errorBadData,
},
// Label names.
{
endpoint: api.labelNames,
response: []string{"__name__", "foo"},
},
}...)
}
methods := func(f apiFunc) []string {
fp := reflect.ValueOf(f).Pointer()
if fp == reflect.ValueOf(api.query).Pointer() || fp == reflect.ValueOf(api.queryRange).Pointer() || fp == reflect.ValueOf(api.series).Pointer() {
return []string{http.MethodGet, http.MethodPost}
}
return []string{http.MethodGet}
}
request := func(m string, q url.Values) (*http.Request, error) {
if m == http.MethodPost {
r, err := http.NewRequest(m, "http://example.com", strings.NewReader(q.Encode()))
r.Header.Set("Content-Type", "application/x-www-form-urlencoded")
r.RemoteAddr = "127.0.0.1:20201"
return r, err
}
r, err := http.NewRequest(m, fmt.Sprintf("http://example.com?%s", q.Encode()), nil)
r.RemoteAddr = "127.0.0.1:20201"
return r, err
}
for i, test := range tests {
for _, method := range methods(test.endpoint) {
// Build a context with the correct request params.
ctx := context.Background()
for p, v := range test.params {
ctx = route.WithParam(ctx, p, v)
}
t.Logf("run %d\t%s\t%q", i, method, test.query.Encode())
req, err := request(method, test.query)
if err != nil {
t.Fatal(err)
}
tr.ResetMetadataStore()
for _, tm := range test.metadata {
tr.SetMetadataStoreForTargets(tm.identifier, &testMetaStore{Metadata: tm.metadata})
}
res := test.endpoint(req.WithContext(ctx))
assertAPIError(t, res.err, test.errType)
if test.sorter != nil {
test.sorter(res.data)
}
if test.responseLen != 0 {
assertAPIResponseLength(t, res.data, test.responseLen)
} else {
assertAPIResponse(t, res.data, test.response)
}
}
}
}
func assertAPIError(t *testing.T, got *apiError, exp errorType) {
t.Helper()
if got != nil {
if exp == errorNone {
t.Fatalf("Unexpected error: %s", got)
}
if exp != got.typ {
t.Fatalf("Expected error of type %q but got type %q (%q)", exp, got.typ, got)
}
return
}
if exp != errorNone {
t.Fatalf("Expected error of type %q but got none", exp)
}
}
func assertAPIResponse(t *testing.T, got interface{}, exp interface{}) {
t.Helper()
if !reflect.DeepEqual(exp, got) {
respJSON, err := json.Marshal(got)
if err != nil {
t.Fatalf("failed to marshal response as JSON: %v", err.Error())
}
expectedRespJSON, err := json.Marshal(exp)
if err != nil {
t.Fatalf("failed to marshal expected response as JSON: %v", err.Error())
}
t.Fatalf(
"Response does not match, expected:\n%+v\ngot:\n%+v",
string(expectedRespJSON),
string(respJSON),
)
}
}
func assertAPIResponseLength(t *testing.T, got interface{}, expLen int) {
t.Helper()
gotLen := reflect.ValueOf(got).Len()
if gotLen != expLen {
t.Fatalf(
"Response length does not match, expected:\n%d\ngot:\n%d",
expLen,
gotLen,
)
}
}
func TestSampledReadEndpoint(t *testing.T) {
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suite, err := promql.NewTest(t, `
load 1m
test_metric1{foo="bar",baz="qux"} 1
`)
testutil.Ok(t, err)
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defer suite.Close()
err = suite.Run()
testutil.Ok(t, err)
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api := &API{
Queryable: suite.Storage(),
QueryEngine: suite.QueryEngine(),
config: func() config.Config {
return config.Config{
GlobalConfig: config.GlobalConfig{
ExternalLabels: labels.Labels{
// We expect external labels to be added, with the source labels honored.
{Name: "baz", Value: "a"},
{Name: "b", Value: "c"},
{Name: "d", Value: "e"},
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},
},
}
},
remoteReadSampleLimit: 1e6,
remoteReadGate: gate.New(1),
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}
// Encode the request.
matcher1, err := labels.NewMatcher(labels.MatchEqual, "__name__", "test_metric1")
testutil.Ok(t, err)
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matcher2, err := labels.NewMatcher(labels.MatchEqual, "d", "e")
testutil.Ok(t, err)
query, err := remote.ToQuery(0, 1, []*labels.Matcher{matcher1, matcher2}, &storage.SelectParams{Step: 0, Func: "avg"})
testutil.Ok(t, err)
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req := &prompb.ReadRequest{Queries: []*prompb.Query{query}}
data, err := proto.Marshal(req)
testutil.Ok(t, err)
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compressed := snappy.Encode(nil, data)
request, err := http.NewRequest("POST", "", bytes.NewBuffer(compressed))
testutil.Ok(t, err)
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recorder := httptest.NewRecorder()
api.remoteRead(recorder, request)
if recorder.Code/100 != 2 {
t.Fatal(recorder.Code)
}
testutil.Equals(t, "application/x-protobuf", recorder.Result().Header.Get("Content-Type"))
testutil.Equals(t, "snappy", recorder.Result().Header.Get("Content-Encoding"))
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// Decode the response.
compressed, err = ioutil.ReadAll(recorder.Result().Body)
testutil.Ok(t, err)
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uncompressed, err := snappy.Decode(nil, compressed)
testutil.Ok(t, err)
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var resp prompb.ReadResponse
err = proto.Unmarshal(uncompressed, &resp)
testutil.Ok(t, err)
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if len(resp.Results) != 1 {
t.Fatalf("Expected 1 result, got %d", len(resp.Results))
}
testutil.Equals(t, &prompb.QueryResult{
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Timeseries: []*prompb.TimeSeries{
{
Labels: []prompb.Label{
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{Name: "__name__", Value: "test_metric1"},
{Name: "b", Value: "c"},
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{Name: "baz", Value: "qux"},
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{Name: "d", Value: "e"},
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{Name: "foo", Value: "bar"},
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},
Samples: []prompb.Sample{{Value: 1, Timestamp: 0}},
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},
},
}, resp.Results[0])
}
func TestStreamReadEndpoint(t *testing.T) {
// First with 120 samples. We expect 1 frame with 1 chunk.
// Second with 121 samples, We expect 1 frame with 2 chunks.
// Third with 241 samples. We expect 1 frame with 2 chunks, and 1 frame with 1 chunk for the same series due to bytes limit.
suite, err := promql.NewTest(t, `
load 1m
test_metric1{foo="bar1",baz="qux"} 0+100x119
test_metric1{foo="bar2",baz="qux"} 0+100x120
test_metric1{foo="bar3",baz="qux"} 0+100x240
`)
testutil.Ok(t, err)
defer suite.Close()
testutil.Ok(t, suite.Run())
api := &API{
Queryable: suite.Storage(),
QueryEngine: suite.QueryEngine(),
config: func() config.Config {
return config.Config{
GlobalConfig: config.GlobalConfig{
ExternalLabels: labels.Labels{
// We expect external labels to be added, with the source labels honored.
{Name: "baz", Value: "a"},
{Name: "b", Value: "c"},
{Name: "d", Value: "e"},
},
},
}
},
remoteReadSampleLimit: 1e6,
remoteReadGate: gate.New(1),
// Labelset has 57 bytes. Full chunk in test data has roughly 240 bytes. This allows us to have at max 2 chunks in this test.
remoteReadMaxBytesInFrame: 57 + 480,
}
// Encode the request.
matcher1, err := labels.NewMatcher(labels.MatchEqual, "__name__", "test_metric1")
testutil.Ok(t, err)
matcher2, err := labels.NewMatcher(labels.MatchEqual, "d", "e")
testutil.Ok(t, err)
matcher3, err := labels.NewMatcher(labels.MatchEqual, "foo", "bar1")
testutil.Ok(t, err)
query1, err := remote.ToQuery(0, 14400001, []*labels.Matcher{matcher1, matcher2}, &storage.SelectParams{
Step: 1,
Func: "avg",
Start: 0,
End: 14400001,
})
testutil.Ok(t, err)
query2, err := remote.ToQuery(0, 14400001, []*labels.Matcher{matcher1, matcher3}, &storage.SelectParams{
Step: 1,
Func: "avg",
Start: 0,
End: 14400001,
})
testutil.Ok(t, err)
req := &prompb.ReadRequest{
Queries: []*prompb.Query{query1, query2},
AcceptedResponseTypes: []prompb.ReadRequest_ResponseType{prompb.ReadRequest_STREAMED_XOR_CHUNKS},
}
data, err := proto.Marshal(req)
testutil.Ok(t, err)
compressed := snappy.Encode(nil, data)
request, err := http.NewRequest("POST", "", bytes.NewBuffer(compressed))
testutil.Ok(t, err)
recorder := httptest.NewRecorder()
api.remoteRead(recorder, request)
if recorder.Code/100 != 2 {
t.Fatal(recorder.Code)
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}
testutil.Equals(t, "application/x-streamed-protobuf; proto=prometheus.ChunkedReadResponse", recorder.Result().Header.Get("Content-Type"))
testutil.Equals(t, "", recorder.Result().Header.Get("Content-Encoding"))
var results []*prompb.ChunkedReadResponse
stream := remote.NewChunkedReader(recorder.Result().Body, remote.DefaultChunkedReadLimit, nil)
for {
res := &prompb.ChunkedReadResponse{}
err := stream.NextProto(res)
if err == io.EOF {
break
}
testutil.Ok(t, err)
results = append(results, res)
}
if len(results) != 5 {
t.Fatalf("Expected 5 result, got %d", len(results))
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}
testutil.Equals(t, []*prompb.ChunkedReadResponse{
{
ChunkedSeries: []*prompb.ChunkedSeries{
{
Labels: []prompb.Label{
{Name: "__name__", Value: "test_metric1"},
{Name: "b", Value: "c"},
{Name: "baz", Value: "qux"},
{Name: "d", Value: "e"},
{Name: "foo", Value: "bar1"},
},
Chunks: []prompb.Chunk{
{
Type: prompb.Chunk_XOR,
MaxTimeMs: 7140000,
Data: []byte("\000x\000\000\000\000\000\000\000\000\000\340\324\003\302|\005\224\000\301\254}\351z2\320O\355\264n[\007\316\224\243md\371\320\375\032Pm\nS\235\016Q\255\006P\275\250\277\312\201Z\003(3\240R\207\332\005(\017\240\322\201\332=(\023\2402\203Z\007(w\2402\201Z\017(\023\265\227\364P\033@\245\007\364\nP\033C\245\002t\036P+@e\036\364\016Pk@e\002t:P;A\245\001\364\nS\373@\245\006t\006P+C\345\002\364\006Pk@\345\036t\nP\033A\245\003\364:P\033@\245\006t\016ZJ\377\\\205\313\210\327\270\017\345+F[\310\347E)\355\024\241\366\342}(v\215(N\203)\326\207(\336\203(V\332W\362\202t4\240m\005(\377AJ\006\320\322\202t\374\240\255\003(oA\312:\3202"),
},
},
},
},
},
{
ChunkedSeries: []*prompb.ChunkedSeries{
{
Labels: []prompb.Label{
{Name: "__name__", Value: "test_metric1"},
{Name: "b", Value: "c"},
{Name: "baz", Value: "qux"},
{Name: "d", Value: "e"},
{Name: "foo", Value: "bar2"},
},
Chunks: []prompb.Chunk{
{
Type: prompb.Chunk_XOR,
MaxTimeMs: 7140000,
Data: []byte("\000x\000\000\000\000\000\000\000\000\000\340\324\003\302|\005\224\000\301\254}\351z2\320O\355\264n[\007\316\224\243md\371\320\375\032Pm\nS\235\016Q\255\006P\275\250\277\312\201Z\003(3\240R\207\332\005(\017\240\322\201\332=(\023\2402\203Z\007(w\2402\201Z\017(\023\265\227\364P\033@\245\007\364\nP\033C\245\002t\036P+@e\036\364\016Pk@e\002t:P;A\245\001\364\nS\373@\245\006t\006P+C\345\002\364\006Pk@\345\036t\nP\033A\245\003\364:P\033@\245\006t\016ZJ\377\\\205\313\210\327\270\017\345+F[\310\347E)\355\024\241\366\342}(v\215(N\203)\326\207(\336\203(V\332W\362\202t4\240m\005(\377AJ\006\320\322\202t\374\240\255\003(oA\312:\3202"),
},
{
Type: prompb.Chunk_XOR,
MinTimeMs: 7200000,
MaxTimeMs: 7200000,
Data: []byte("\000\001\200\364\356\006@\307p\000\000\000\000\000\000"),
},
},
},
},
},
{
ChunkedSeries: []*prompb.ChunkedSeries{
{
Labels: []prompb.Label{
{Name: "__name__", Value: "test_metric1"},
{Name: "b", Value: "c"},
{Name: "baz", Value: "qux"},
{Name: "d", Value: "e"},
{Name: "foo", Value: "bar3"},
},
Chunks: []prompb.Chunk{
{
Type: prompb.Chunk_XOR,
MaxTimeMs: 7140000,
Data: []byte("\000x\000\000\000\000\000\000\000\000\000\340\324\003\302|\005\224\000\301\254}\351z2\320O\355\264n[\007\316\224\243md\371\320\375\032Pm\nS\235\016Q\255\006P\275\250\277\312\201Z\003(3\240R\207\332\005(\017\240\322\201\332=(\023\2402\203Z\007(w\2402\201Z\017(\023\265\227\364P\033@\245\007\364\nP\033C\245\002t\036P+@e\036\364\016Pk@e\002t:P;A\245\001\364\nS\373@\245\006t\006P+C\345\002\364\006Pk@\345\036t\nP\033A\245\003\364:P\033@\245\006t\016ZJ\377\\\205\313\210\327\270\017\345+F[\310\347E)\355\024\241\366\342}(v\215(N\203)\326\207(\336\203(V\332W\362\202t4\240m\005(\377AJ\006\320\322\202t\374\240\255\003(oA\312:\3202"),
},
{
Type: prompb.Chunk_XOR,
MinTimeMs: 7200000,
MaxTimeMs: 14340000,
Data: []byte("\000x\200\364\356\006@\307p\000\000\000\000\000\340\324\003\340>\224\355\260\277\322\200\372\005(=\240R\207:\003(\025\240\362\201z\003(\365\240r\203:\005(\r\241\322\201\372\r(\r\240R\237:\007(5\2402\201z\037(\025\2402\203:\005(\375\240R\200\372\r(\035\241\322\201:\003(5\240r\326g\364\271\213\227!\253q\037\312N\340GJ\033E)\375\024\241\266\362}(N\217(V\203)\336\207(\326\203(N\334W\322\203\2644\240}\005(\373AJ\031\3202\202\264\374\240\275\003(kA\3129\320R\201\2644\240\375\264\277\322\200\332\005(3\240r\207Z\003(\027\240\362\201Z\003(\363\240R\203\332\005(\017\241\322\201\332\r(\023\2402\237Z\007(7\2402\201Z\037(\023\240\322\200\332\005(\377\240R\200\332\r "),
},
},
},
},
},
{
ChunkedSeries: []*prompb.ChunkedSeries{
{
Labels: []prompb.Label{
{Name: "__name__", Value: "test_metric1"},
{Name: "b", Value: "c"},
{Name: "baz", Value: "qux"},
{Name: "d", Value: "e"},
{Name: "foo", Value: "bar3"},
},
Chunks: []prompb.Chunk{
{
Type: prompb.Chunk_XOR,
MinTimeMs: 14400000,
MaxTimeMs: 14400000,
Data: []byte("\000\001\200\350\335\r@\327p\000\000\000\000\000\000"),
},
},
},
},
},
{
ChunkedSeries: []*prompb.ChunkedSeries{
{
Labels: []prompb.Label{
{Name: "__name__", Value: "test_metric1"},
{Name: "b", Value: "c"},
{Name: "baz", Value: "qux"},
{Name: "d", Value: "e"},
{Name: "foo", Value: "bar1"},
},
Chunks: []prompb.Chunk{
{
Type: prompb.Chunk_XOR,
MaxTimeMs: 7140000,
Data: []byte("\000x\000\000\000\000\000\000\000\000\000\340\324\003\302|\005\224\000\301\254}\351z2\320O\355\264n[\007\316\224\243md\371\320\375\032Pm\nS\235\016Q\255\006P\275\250\277\312\201Z\003(3\240R\207\332\005(\017\240\322\201\332=(\023\2402\203Z\007(w\2402\201Z\017(\023\265\227\364P\033@\245\007\364\nP\033C\245\002t\036P+@e\036\364\016Pk@e\002t:P;A\245\001\364\nS\373@\245\006t\006P+C\345\002\364\006Pk@\345\036t\nP\033A\245\003\364:P\033@\245\006t\016ZJ\377\\\205\313\210\327\270\017\345+F[\310\347E)\355\024\241\366\342}(v\215(N\203)\326\207(\336\203(V\332W\362\202t4\240m\005(\377AJ\006\320\322\202t\374\240\255\003(oA\312:\3202"),
},
},
},
},
QueryIndex: 1,
},
}, results)
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}
type fakeDB struct {
err error
closer func()
}
func (f *fakeDB) CleanTombstones() error { return f.err }
func (f *fakeDB) Delete(mint, maxt int64, ms ...*labels.Matcher) error { return f.err }
func (f *fakeDB) Dir() string {
dir, _ := ioutil.TempDir("", "fakeDB")
f.closer = func() {
os.RemoveAll(dir)
}
return dir
}
func (f *fakeDB) Snapshot(dir string, withHead bool) error { return f.err }
func (f *fakeDB) Head() *tsdb.Head {
h, _ := tsdb.NewHead(nil, nil, nil, 1000, tsdb.DefaultStripeSize)
return h
}
func TestAdminEndpoints(t *testing.T) {
tsdb, tsdbWithError := &fakeDB{}, &fakeDB{err: errors.New("some error")}
snapshotAPI := func(api *API) apiFunc { return api.snapshot }
cleanAPI := func(api *API) apiFunc { return api.cleanTombstones }
deleteAPI := func(api *API) apiFunc { return api.deleteSeries }
for i, tc := range []struct {
db *fakeDB
enableAdmin bool
endpoint func(api *API) apiFunc
method string
values url.Values
errType errorType
}{
// Tests for the snapshot endpoint.
{
db: tsdb,
enableAdmin: false,
endpoint: snapshotAPI,
errType: errorUnavailable,
},
{
db: tsdb,
enableAdmin: true,
endpoint: snapshotAPI,
errType: errorNone,
},
{
db: tsdb,
enableAdmin: true,
endpoint: snapshotAPI,
values: map[string][]string{"skip_head": {"true"}},
errType: errorNone,
},
{
db: tsdb,
enableAdmin: true,
endpoint: snapshotAPI,
values: map[string][]string{"skip_head": {"xxx"}},
errType: errorBadData,
},
{
db: tsdbWithError,
enableAdmin: true,
endpoint: snapshotAPI,
errType: errorInternal,
},
{
db: nil,
enableAdmin: true,
endpoint: snapshotAPI,
errType: errorUnavailable,
},
// Tests for the cleanTombstones endpoint.
{
db: tsdb,
enableAdmin: false,
endpoint: cleanAPI,
errType: errorUnavailable,
},
{
db: tsdb,
enableAdmin: true,
endpoint: cleanAPI,
errType: errorNone,
},
{
db: tsdbWithError,
enableAdmin: true,
endpoint: cleanAPI,
errType: errorInternal,
},
{
db: nil,
enableAdmin: true,
endpoint: cleanAPI,
errType: errorUnavailable,
},
// Tests for the deleteSeries endpoint.
{
db: tsdb,
enableAdmin: false,
endpoint: deleteAPI,
errType: errorUnavailable,
},
{
db: tsdb,
enableAdmin: true,
endpoint: deleteAPI,
errType: errorBadData,
},
{
db: tsdb,
enableAdmin: true,
endpoint: deleteAPI,
values: map[string][]string{"match[]": {"123"}},
errType: errorBadData,
},
{
db: tsdb,
enableAdmin: true,
endpoint: deleteAPI,
values: map[string][]string{"match[]": {"up"}, "start": {"xxx"}},
errType: errorBadData,
},
{
db: tsdb,
enableAdmin: true,
endpoint: deleteAPI,
values: map[string][]string{"match[]": {"up"}, "end": {"xxx"}},
errType: errorBadData,
},
{
db: tsdb,
enableAdmin: true,
endpoint: deleteAPI,
values: map[string][]string{"match[]": {"up"}},
errType: errorNone,
},
{
db: tsdb,
enableAdmin: true,
endpoint: deleteAPI,
values: map[string][]string{"match[]": {"up{job!=\"foo\"}", "{job=~\"bar.+\"}", "up{instance!~\"fred.+\"}"}},
errType: errorNone,
},
{
db: tsdbWithError,
enableAdmin: true,
endpoint: deleteAPI,
values: map[string][]string{"match[]": {"up"}},
errType: errorInternal,
},
{
db: nil,
enableAdmin: true,
endpoint: deleteAPI,
errType: errorUnavailable,
},
} {
tc := tc
t.Run(fmt.Sprintf("%d", i), func(t *testing.T) {
api := &API{
db: func() TSDBAdmin {
if tc.db != nil {
return tc.db
}
return nil
},
ready: func(f http.HandlerFunc) http.HandlerFunc { return f },
enableAdmin: tc.enableAdmin,
}
defer func() {
if tc.db != nil && tc.db.closer != nil {
tc.db.closer()
}
}()
endpoint := tc.endpoint(api)
req, err := http.NewRequest(tc.method, fmt.Sprintf("?%s", tc.values.Encode()), nil)
if err != nil {
t.Fatalf("Error when creating test request: %s", err)
}
res := endpoint(req)
assertAPIError(t, res.err, tc.errType)
})
}
}
func TestRespondSuccess(t *testing.T) {
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s := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
api := API{}
api.respond(w, "test", nil)
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}))
defer s.Close()
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resp, err := http.Get(s.URL)
if err != nil {
t.Fatalf("Error on test request: %s", err)
}
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body, err := ioutil.ReadAll(resp.Body)
defer resp.Body.Close()
if err != nil {
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t.Fatalf("Error reading response body: %s", err)
}
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if resp.StatusCode != 200 {
t.Fatalf("Return code %d expected in success response but got %d", 200, resp.StatusCode)
}
if h := resp.Header.Get("Content-Type"); h != "application/json" {
t.Fatalf("Expected Content-Type %q but got %q", "application/json", h)
}
var res response
if err = json.Unmarshal([]byte(body), &res); err != nil {
t.Fatalf("Error unmarshaling JSON body: %s", err)
}
exp := &response{
Status: statusSuccess,
Data: "test",
}
if !reflect.DeepEqual(&res, exp) {
t.Fatalf("Expected response \n%v\n but got \n%v\n", res, exp)
}
}
func TestRespondError(t *testing.T) {
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s := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
api := API{}
api.respondError(w, &apiError{errorTimeout, errors.New("message")}, "test")
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}))
defer s.Close()
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resp, err := http.Get(s.URL)
if err != nil {
t.Fatalf("Error on test request: %s", err)
}
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body, err := ioutil.ReadAll(resp.Body)
defer resp.Body.Close()
if err != nil {
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t.Fatalf("Error reading response body: %s", err)
}
if want, have := http.StatusServiceUnavailable, resp.StatusCode; want != have {
t.Fatalf("Return code %d expected in error response but got %d", want, have)
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}
if h := resp.Header.Get("Content-Type"); h != "application/json" {
t.Fatalf("Expected Content-Type %q but got %q", "application/json", h)
}
var res response
if err = json.Unmarshal([]byte(body), &res); err != nil {
t.Fatalf("Error unmarshaling JSON body: %s", err)
}
exp := &response{
Status: statusError,
Data: "test",
ErrorType: errorTimeout,
Error: "message",
}
if !reflect.DeepEqual(&res, exp) {
t.Fatalf("Expected response \n%v\n but got \n%v\n", res, exp)
}
}
func TestParseTime(t *testing.T) {
ts, err := time.Parse(time.RFC3339Nano, "2015-06-03T13:21:58.555Z")
if err != nil {
panic(err)
}
var tests = []struct {
input string
fail bool
result time.Time
}{
{
input: "",
fail: true,
}, {
input: "abc",
fail: true,
}, {
input: "30s",
fail: true,
}, {
input: "123",
result: time.Unix(123, 0),
}, {
input: "123.123",
result: time.Unix(123, 123000000),
}, {
input: "2015-06-03T13:21:58.555Z",
result: ts,
}, {
input: "2015-06-03T14:21:58.555+01:00",
result: ts,
}, {
// Test float rounding.
input: "1543578564.705",
result: time.Unix(1543578564, 705*1e6),
},
{
input: minTime.Format(time.RFC3339Nano),
result: minTime,
},
{
input: maxTime.Format(time.RFC3339Nano),
result: maxTime,
},
}
for _, test := range tests {
ts, err := parseTime(test.input)
if err != nil && !test.fail {
t.Errorf("Unexpected error for %q: %s", test.input, err)
continue
}
if err == nil && test.fail {
t.Errorf("Expected error for %q but got none", test.input)
continue
}
if !test.fail && !ts.Equal(test.result) {
t.Errorf("Expected time %v for input %q but got %v", test.result, test.input, ts)
}
}
}
func TestParseDuration(t *testing.T) {
var tests = []struct {
input string
fail bool
result time.Duration
}{
{
input: "",
fail: true,
}, {
input: "abc",
fail: true,
}, {
input: "2015-06-03T13:21:58.555Z",
fail: true,
}, {
// Internal int64 overflow.
input: "-148966367200.372",
fail: true,
}, {
// Internal int64 overflow.
input: "148966367200.372",
fail: true,
}, {
input: "123",
result: 123 * time.Second,
}, {
input: "123.333",
result: 123*time.Second + 333*time.Millisecond,
}, {
input: "15s",
result: 15 * time.Second,
}, {
input: "5m",
result: 5 * time.Minute,
},
}
for _, test := range tests {
d, err := parseDuration(test.input)
if err != nil && !test.fail {
t.Errorf("Unexpected error for %q: %s", test.input, err)
continue
}
if err == nil && test.fail {
t.Errorf("Expected error for %q but got none", test.input)
continue
}
if !test.fail && d != test.result {
t.Errorf("Expected duration %v for input %q but got %v", test.result, test.input, d)
}
}
}
func TestOptionsMethod(t *testing.T) {
r := route.New()
api := &API{ready: func(f http.HandlerFunc) http.HandlerFunc { return f }}
api.Register(r)
s := httptest.NewServer(r)
defer s.Close()
req, err := http.NewRequest("OPTIONS", s.URL+"/any_path", nil)
if err != nil {
t.Fatalf("Error creating OPTIONS request: %s", err)
}
client := &http.Client{}
resp, err := client.Do(req)
if err != nil {
t.Fatalf("Error executing OPTIONS request: %s", err)
}
if resp.StatusCode != http.StatusNoContent {
t.Fatalf("Expected status %d, got %d", http.StatusNoContent, resp.StatusCode)
}
}
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func TestRespond(t *testing.T) {
cases := []struct {
response interface{}
expected string
}{
{
response: &queryData{
ResultType: promql.ValueTypeMatrix,
Result: promql.Matrix{
promql.Series{
Points: []promql.Point{{V: 1, T: 1000}},
Metric: labels.FromStrings("__name__", "foo"),
},
},
},
expected: `{"status":"success","data":{"resultType":"matrix","result":[{"metric":{"__name__":"foo"},"values":[[1,"1"]]}]}}`,
},
{
response: promql.Point{V: 0, T: 0},
expected: `{"status":"success","data":[0,"0"]}`,
},
{
response: promql.Point{V: 20, T: 1},
expected: `{"status":"success","data":[0.001,"20"]}`,
},
{
response: promql.Point{V: 20, T: 10},
expected: `{"status":"success","data":[0.010,"20"]}`,
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},
{
response: promql.Point{V: 20, T: 100},
expected: `{"status":"success","data":[0.100,"20"]}`,
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},
{
response: promql.Point{V: 20, T: 1001},
expected: `{"status":"success","data":[1.001,"20"]}`,
},
{
response: promql.Point{V: 20, T: 1010},
expected: `{"status":"success","data":[1.010,"20"]}`,
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},
{
response: promql.Point{V: 20, T: 1100},
expected: `{"status":"success","data":[1.100,"20"]}`,
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},
{
response: promql.Point{V: 20, T: 12345678123456555},
expected: `{"status":"success","data":[12345678123456.555,"20"]}`,
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},
{
response: promql.Point{V: 20, T: -1},
expected: `{"status":"success","data":[-0.001,"20"]}`,
},
{
response: promql.Point{V: math.NaN(), T: 0},
expected: `{"status":"success","data":[0,"NaN"]}`,
},
{
response: promql.Point{V: math.Inf(1), T: 0},
expected: `{"status":"success","data":[0,"+Inf"]}`,
},
{
response: promql.Point{V: math.Inf(-1), T: 0},
expected: `{"status":"success","data":[0,"-Inf"]}`,
},
{
response: promql.Point{V: 1.2345678e6, T: 0},
expected: `{"status":"success","data":[0,"1234567.8"]}`,
},
{
response: promql.Point{V: 1.2345678e-6, T: 0},
expected: `{"status":"success","data":[0,"0.0000012345678"]}`,
},
{
response: promql.Point{V: 1.2345678e-67, T: 0},
expected: `{"status":"success","data":[0,"1.2345678e-67"]}`,
},
}
for _, c := range cases {
s := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
api := API{}
api.respond(w, c.response, nil)
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}))
defer s.Close()
resp, err := http.Get(s.URL)
if err != nil {
t.Fatalf("Error on test request: %s", err)
}
body, err := ioutil.ReadAll(resp.Body)
defer resp.Body.Close()
if err != nil {
t.Fatalf("Error reading response body: %s", err)
}
if string(body) != c.expected {
t.Fatalf("Expected response \n%v\n but got \n%v\n", c.expected, string(body))
}
}
}
func TestTSDBStatus(t *testing.T) {
tsdb := &fakeDB{}
tsdbStatusAPI := func(api *API) apiFunc { return api.serveTSDBStatus }
for i, tc := range []struct {
db *fakeDB
endpoint func(api *API) apiFunc
method string
values url.Values
errType errorType
}{
// Tests for the TSDB Status endpoint.
{
db: tsdb,
endpoint: tsdbStatusAPI,
errType: errorNone,
},
} {
tc := tc
t.Run(fmt.Sprintf("%d", i), func(t *testing.T) {
api := &API{
db: func() TSDBAdmin {
if tc.db != nil {
return tc.db
}
return nil
},
}
endpoint := tc.endpoint(api)
req, err := http.NewRequest(tc.method, fmt.Sprintf("?%s", tc.values.Encode()), nil)
if err != nil {
t.Fatalf("Error when creating test request: %s", err)
}
res := endpoint(req)
assertAPIError(t, res.err, tc.errType)
})
}
}
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// This is a global to avoid the benchmark being optimized away.
var testResponseWriter = httptest.ResponseRecorder{}
func BenchmarkRespond(b *testing.B) {
b.ReportAllocs()
points := []promql.Point{}
for i := 0; i < 10000; i++ {
points = append(points, promql.Point{V: float64(i * 1000000), T: int64(i)})
}
response := &queryData{
ResultType: promql.ValueTypeMatrix,
Result: promql.Matrix{
promql.Series{
Points: points,
Metric: nil,
},
},
}
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b.ResetTimer()
api := API{}
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for n := 0; n < b.N; n++ {
api.respond(&testResponseWriter, response, nil)
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}
}