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prometheus/web/api/v1/api.go
zenador 69edd8709b
Add warnings (and annotations) to PromQL query results (#12152) 
Return annotations (warnings and infos) from PromQL queries

This generalizes the warnings we have already used before (but only for problems with remote read) as "annotations".

Annotations can be warnings or infos (the latter could be false positives). We do not treat them different in the API for now and return them all as "warnings". It would be easy to distinguish them and return infos separately, should that appear useful in the future.

The new annotations are then used to create a lot of warnings or infos during PromQL evaluations. Partially these are things we have wanted for a long time (e.g. inform the user that they have applied `rate` to a metric that doesn't look like a counter), but the new native histograms have created even more needs for those annotations (e.g. if a query tries to aggregate float numbers with histograms).

The annotations added here are not yet complete. A prominent example would be a warning about a range too short for a rate calculation. But such a warnings is more tricky to create with good fidelity and we will tackle it later.

Another TODO is to take annotations into account when evaluating recording rules.

---------

Signed-off-by: Jeanette Tan <jeanette.tan@grafana.com>
2023-09-14 18:57:31 +02:00

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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 (
"context"
"fmt"
"math"
"math/rand"
"net"
"net/http"
"net/url"
"os"
"path/filepath"
"sort"
"strconv"
"strings"
"time"
"github.com/go-kit/log"
"github.com/go-kit/log/level"
"github.com/grafana/regexp"
jsoniter "github.com/json-iterator/go"
"github.com/munnerz/goautoneg"
"github.com/pkg/errors"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/common/model"
"github.com/prometheus/common/route"
"golang.org/x/exp/slices"
"github.com/prometheus/prometheus/config"
"github.com/prometheus/prometheus/model/labels"
"github.com/prometheus/prometheus/model/textparse"
"github.com/prometheus/prometheus/model/timestamp"
"github.com/prometheus/prometheus/promql"
"github.com/prometheus/prometheus/promql/parser"
"github.com/prometheus/prometheus/rules"
"github.com/prometheus/prometheus/scrape"
"github.com/prometheus/prometheus/storage"
"github.com/prometheus/prometheus/storage/remote"
"github.com/prometheus/prometheus/tsdb"
"github.com/prometheus/prometheus/tsdb/index"
"github.com/prometheus/prometheus/util/annotations"
"github.com/prometheus/prometheus/util/httputil"
"github.com/prometheus/prometheus/util/stats"
)
type status string
const (
statusSuccess status = "success"
statusError status = "error"
// Non-standard status code (originally introduced by nginx) for the case when a client closes
// the connection while the server is still processing the request.
statusClientClosedConnection = 499
)
type errorType string
const (
errorNone errorType = ""
errorTimeout errorType = "timeout"
errorCanceled errorType = "canceled"
errorExec errorType = "execution"
errorBadData errorType = "bad_data"
errorInternal errorType = "internal"
errorUnavailable errorType = "unavailable"
errorNotFound errorType = "not_found"
errorNotAcceptable errorType = "not_acceptable"
)
var LocalhostRepresentations = []string{"127.0.0.1", "localhost", "::1"}
type apiError struct {
typ errorType
err error
}
func (e *apiError) Error() string {
return fmt.Sprintf("%s: %s", e.typ, e.err)
}
// ScrapePoolsRetriever provide the list of all scrape pools.
type ScrapePoolsRetriever interface {
ScrapePools() []string
}
// TargetRetriever provides the list of active/dropped targets to scrape or not.
type TargetRetriever interface {
TargetsActive() map[string][]*scrape.Target
TargetsDropped() map[string][]*scrape.Target
TargetsDroppedCounts() map[string]int
}
// AlertmanagerRetriever provides a list of all/dropped AlertManager URLs.
type AlertmanagerRetriever interface {
Alertmanagers() []*url.URL
DroppedAlertmanagers() []*url.URL
}
// RulesRetriever provides a list of active rules and alerts.
type RulesRetriever interface {
RuleGroups() []*rules.Group
AlertingRules() []*rules.AlertingRule
}
type StatsRenderer func(context.Context, *stats.Statistics, string) stats.QueryStats
func defaultStatsRenderer(_ context.Context, s *stats.Statistics, param string) stats.QueryStats {
if param != "" {
return stats.NewQueryStats(s)
}
return nil
}
// PrometheusVersion contains build information about Prometheus.
type PrometheusVersion struct {
Version string `json:"version"`
Revision string `json:"revision"`
Branch string `json:"branch"`
BuildUser string `json:"buildUser"`
BuildDate string `json:"buildDate"`
GoVersion string `json:"goVersion"`
}
// RuntimeInfo contains runtime information about Prometheus.
type RuntimeInfo struct {
StartTime time.Time `json:"startTime"`
CWD string `json:"CWD"`
ReloadConfigSuccess bool `json:"reloadConfigSuccess"`
LastConfigTime time.Time `json:"lastConfigTime"`
CorruptionCount int64 `json:"corruptionCount"`
GoroutineCount int `json:"goroutineCount"`
GOMAXPROCS int `json:"GOMAXPROCS"`
GOMEMLIMIT int64 `json:"GOMEMLIMIT"`
GOGC string `json:"GOGC"`
GODEBUG string `json:"GODEBUG"`
StorageRetention string `json:"storageRetention"`
}
// Response contains a response to a HTTP API request.
type Response struct {
Status status `json:"status"`
Data interface{} `json:"data,omitempty"`
ErrorType errorType `json:"errorType,omitempty"`
Error string `json:"error,omitempty"`
Warnings []string `json:"warnings,omitempty"`
}
type apiFuncResult struct {
data interface{}
err *apiError
warnings annotations.Annotations
finalizer func()
}
type apiFunc func(r *http.Request) apiFuncResult
// TSDBAdminStats defines the tsdb interfaces used by the v1 API for admin operations as well as statistics.
type TSDBAdminStats interface {
CleanTombstones() error
Delete(ctx context.Context, mint, maxt int64, ms ...*labels.Matcher) error
Snapshot(dir string, withHead bool) error
Stats(statsByLabelName string, limit int) (*tsdb.Stats, error)
WALReplayStatus() (tsdb.WALReplayStatus, error)
}
// QueryEngine defines the interface for the *promql.Engine, so it can be replaced, wrapped or mocked.
type QueryEngine interface {
SetQueryLogger(l promql.QueryLogger)
NewInstantQuery(ctx context.Context, q storage.Queryable, opts promql.QueryOpts, qs string, ts time.Time) (promql.Query, error)
NewRangeQuery(ctx context.Context, q storage.Queryable, opts promql.QueryOpts, qs string, start, end time.Time, interval time.Duration) (promql.Query, error)
}
type QueryOpts interface {
EnablePerStepStats() bool
LookbackDelta() time.Duration
}
// API can register a set of endpoints in a router and handle
// them using the provided storage and query engine.
type API struct {
Queryable storage.SampleAndChunkQueryable
QueryEngine QueryEngine
ExemplarQueryable storage.ExemplarQueryable
scrapePoolsRetriever func(context.Context) ScrapePoolsRetriever
targetRetriever func(context.Context) TargetRetriever
alertmanagerRetriever func(context.Context) AlertmanagerRetriever
rulesRetriever func(context.Context) RulesRetriever
now func() time.Time
config func() config.Config
flagsMap map[string]string
ready func(http.HandlerFunc) http.HandlerFunc
globalURLOptions GlobalURLOptions
db TSDBAdminStats
dbDir string
enableAdmin bool
logger log.Logger
CORSOrigin *regexp.Regexp
buildInfo *PrometheusVersion
runtimeInfo func() (RuntimeInfo, error)
gatherer prometheus.Gatherer
isAgent bool
statsRenderer StatsRenderer
remoteWriteHandler http.Handler
remoteReadHandler http.Handler
otlpWriteHandler http.Handler
codecs []Codec
}
// NewAPI returns an initialized API type.
func NewAPI(
qe QueryEngine,
q storage.SampleAndChunkQueryable,
ap storage.Appendable,
eq storage.ExemplarQueryable,
spsr func(context.Context) ScrapePoolsRetriever,
tr func(context.Context) TargetRetriever,
ar func(context.Context) AlertmanagerRetriever,
configFunc func() config.Config,
flagsMap map[string]string,
globalURLOptions GlobalURLOptions,
readyFunc func(http.HandlerFunc) http.HandlerFunc,
db TSDBAdminStats,
dbDir string,
enableAdmin bool,
logger log.Logger,
rr func(context.Context) RulesRetriever,
remoteReadSampleLimit int,
remoteReadConcurrencyLimit int,
remoteReadMaxBytesInFrame int,
isAgent bool,
corsOrigin *regexp.Regexp,
runtimeInfo func() (RuntimeInfo, error),
buildInfo *PrometheusVersion,
gatherer prometheus.Gatherer,
registerer prometheus.Registerer,
statsRenderer StatsRenderer,
rwEnabled bool,
otlpEnabled bool,
) *API {
a := &API{
QueryEngine: qe,
Queryable: q,
ExemplarQueryable: eq,
scrapePoolsRetriever: spsr,
targetRetriever: tr,
alertmanagerRetriever: ar,
now: time.Now,
config: configFunc,
flagsMap: flagsMap,
ready: readyFunc,
globalURLOptions: globalURLOptions,
db: db,
dbDir: dbDir,
enableAdmin: enableAdmin,
rulesRetriever: rr,
logger: logger,
CORSOrigin: corsOrigin,
runtimeInfo: runtimeInfo,
buildInfo: buildInfo,
gatherer: gatherer,
isAgent: isAgent,
statsRenderer: defaultStatsRenderer,
remoteReadHandler: remote.NewReadHandler(logger, registerer, q, configFunc, remoteReadSampleLimit, remoteReadConcurrencyLimit, remoteReadMaxBytesInFrame),
}
a.InstallCodec(JSONCodec{})
if statsRenderer != nil {
a.statsRenderer = statsRenderer
}
if ap == nil && (rwEnabled || otlpEnabled) {
panic("remote write or otlp write enabled, but no appender passed in.")
}
if rwEnabled {
a.remoteWriteHandler = remote.NewWriteHandler(logger, registerer, ap)
}
if otlpEnabled {
a.otlpWriteHandler = remote.NewOTLPWriteHandler(logger, ap)
}
return a
}
// InstallCodec adds codec to this API's available codecs.
// Codecs installed first take precedence over codecs installed later when evaluating wildcards in Accept headers.
// The first installed codec is used as a fallback when the Accept header cannot be satisfied or if there is no Accept header.
func (api *API) InstallCodec(codec Codec) {
api.codecs = append(api.codecs, codec)
}
// ClearCodecs removes all available codecs from this API, including the default codec installed by NewAPI.
func (api *API) ClearCodecs() {
api.codecs = nil
}
func setUnavailStatusOnTSDBNotReady(r apiFuncResult) apiFuncResult {
if r.err != nil && errors.Cause(r.err.err) == tsdb.ErrNotReady {
r.err.typ = errorUnavailable
}
return r
}
// Register the API's endpoints in the given router.
func (api *API) Register(r *route.Router) {
wrap := func(f apiFunc) http.HandlerFunc {
hf := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
httputil.SetCORS(w, api.CORSOrigin, r)
result := setUnavailStatusOnTSDBNotReady(f(r))
if result.finalizer != nil {
defer result.finalizer()
}
if result.err != nil {
api.respondError(w, result.err, result.data)
return
}
if result.data != nil {
api.respond(w, r, result.data, result.warnings, r.FormValue("query"))
return
}
w.WriteHeader(http.StatusNoContent)
})
return api.ready(httputil.CompressionHandler{
Handler: hf,
}.ServeHTTP)
}
wrapAgent := func(f apiFunc) http.HandlerFunc {
return wrap(func(r *http.Request) apiFuncResult {
if api.isAgent {
return apiFuncResult{nil, &apiError{errorExec, errors.New("unavailable with Prometheus Agent")}, nil, nil}
}
return f(r)
})
}
r.Options("/*path", wrap(api.options))
r.Get("/query", wrapAgent(api.query))
r.Post("/query", wrapAgent(api.query))
r.Get("/query_range", wrapAgent(api.queryRange))
r.Post("/query_range", wrapAgent(api.queryRange))
r.Get("/query_exemplars", wrapAgent(api.queryExemplars))
r.Post("/query_exemplars", wrapAgent(api.queryExemplars))
r.Get("/format_query", wrapAgent(api.formatQuery))
r.Post("/format_query", wrapAgent(api.formatQuery))
r.Get("/labels", wrapAgent(api.labelNames))
r.Post("/labels", wrapAgent(api.labelNames))
r.Get("/label/:name/values", wrapAgent(api.labelValues))
r.Get("/series", wrapAgent(api.series))
r.Post("/series", wrapAgent(api.series))
r.Del("/series", wrapAgent(api.dropSeries))
r.Get("/scrape_pools", wrap(api.scrapePools))
r.Get("/targets", wrap(api.targets))
r.Get("/targets/metadata", wrap(api.targetMetadata))
r.Get("/alertmanagers", wrapAgent(api.alertmanagers))
r.Get("/metadata", wrap(api.metricMetadata))
r.Get("/status/config", wrap(api.serveConfig))
r.Get("/status/runtimeinfo", wrap(api.serveRuntimeInfo))
r.Get("/status/buildinfo", wrap(api.serveBuildInfo))
r.Get("/status/flags", wrap(api.serveFlags))
r.Get("/status/tsdb", wrapAgent(api.serveTSDBStatus))
r.Get("/status/walreplay", api.serveWALReplayStatus)
r.Post("/read", api.ready(api.remoteRead))
r.Post("/write", api.ready(api.remoteWrite))
r.Post("/otlp/v1/metrics", api.ready(api.otlpWrite))
r.Get("/alerts", wrapAgent(api.alerts))
r.Get("/rules", wrapAgent(api.rules))
// Admin APIs
r.Post("/admin/tsdb/delete_series", wrapAgent(api.deleteSeries))
r.Post("/admin/tsdb/clean_tombstones", wrapAgent(api.cleanTombstones))
r.Post("/admin/tsdb/snapshot", wrapAgent(api.snapshot))
r.Put("/admin/tsdb/delete_series", wrapAgent(api.deleteSeries))
r.Put("/admin/tsdb/clean_tombstones", wrapAgent(api.cleanTombstones))
r.Put("/admin/tsdb/snapshot", wrapAgent(api.snapshot))
}
type QueryData struct {
ResultType parser.ValueType `json:"resultType"`
Result parser.Value `json:"result"`
Stats stats.QueryStats `json:"stats,omitempty"`
}
func invalidParamError(err error, parameter string) apiFuncResult {
return apiFuncResult{nil, &apiError{
errorBadData, errors.Wrapf(err, "invalid parameter %q", parameter),
}, nil, nil}
}
func (api *API) options(*http.Request) apiFuncResult {
return apiFuncResult{nil, nil, nil, nil}
}
func (api *API) query(r *http.Request) (result apiFuncResult) {
ts, err := parseTimeParam(r, "time", api.now())
if err != nil {
return invalidParamError(err, "time")
}
ctx := r.Context()
if to := r.FormValue("timeout"); to != "" {
var cancel context.CancelFunc
timeout, err := parseDuration(to)
if err != nil {
return invalidParamError(err, "timeout")
}
ctx, cancel = context.WithTimeout(ctx, timeout)
defer cancel()
}
opts, err := extractQueryOpts(r)
if err != nil {
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
qry, err := api.QueryEngine.NewInstantQuery(ctx, api.Queryable, opts, r.FormValue("query"), ts)
if err != nil {
return invalidParamError(err, "query")
}
// From now on, we must only return with a finalizer in the result (to
// be called by the caller) or call qry.Close ourselves (which is
// required in the case of a panic).
defer func() {
if result.finalizer == nil {
qry.Close()
}
}()
ctx = httputil.ContextFromRequest(ctx, r)
res := qry.Exec(ctx)
if res.Err != nil {
return apiFuncResult{nil, returnAPIError(res.Err), res.Warnings, qry.Close}
}
// Optional stats field in response if parameter "stats" is not empty.
sr := api.statsRenderer
if sr == nil {
sr = defaultStatsRenderer
}
qs := sr(ctx, qry.Stats(), r.FormValue("stats"))
return apiFuncResult{&QueryData{
ResultType: res.Value.Type(),
Result: res.Value,
Stats: qs,
}, nil, res.Warnings, qry.Close}
}
func (api *API) formatQuery(r *http.Request) (result apiFuncResult) {
expr, err := parser.ParseExpr(r.FormValue("query"))
if err != nil {
return invalidParamError(err, "query")
}
return apiFuncResult{expr.Pretty(0), nil, nil, nil}
}
func extractQueryOpts(r *http.Request) (promql.QueryOpts, error) {
var duration time.Duration
if strDuration := r.FormValue("lookback_delta"); strDuration != "" {
parsedDuration, err := parseDuration(strDuration)
if err != nil {
return nil, fmt.Errorf("error parsing lookback delta duration: %w", err)
}
duration = parsedDuration
}
return promql.NewPrometheusQueryOpts(r.FormValue("stats") == "all", duration), nil
}
func (api *API) queryRange(r *http.Request) (result apiFuncResult) {
start, err := parseTime(r.FormValue("start"))
if err != nil {
return invalidParamError(err, "start")
}
end, err := parseTime(r.FormValue("end"))
if err != nil {
return invalidParamError(err, "end")
}
if end.Before(start) {
return invalidParamError(errors.New("end timestamp must not be before start time"), "end")
}
step, err := parseDuration(r.FormValue("step"))
if err != nil {
return invalidParamError(err, "step")
}
if step <= 0 {
return invalidParamError(errors.New("zero or negative query resolution step widths are not accepted. Try a positive integer"), "step")
}
// For safety, limit the number of returned points per timeseries.
// This is sufficient for 60s resolution for a week or 1h resolution for a year.
if end.Sub(start)/step > 11000 {
err := errors.New("exceeded maximum resolution of 11,000 points per timeseries. Try decreasing the query resolution (?step=XX)")
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
ctx := r.Context()
if to := r.FormValue("timeout"); to != "" {
var cancel context.CancelFunc
timeout, err := parseDuration(to)
if err != nil {
return invalidParamError(err, "timeout")
}
ctx, cancel = context.WithTimeout(ctx, timeout)
defer cancel()
}
opts, err := extractQueryOpts(r)
if err != nil {
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
qry, err := api.QueryEngine.NewRangeQuery(ctx, api.Queryable, opts, r.FormValue("query"), start, end, step)
if err != nil {
return invalidParamError(err, "query")
}
// From now on, we must only return with a finalizer in the result (to
// be called by the caller) or call qry.Close ourselves (which is
// required in the case of a panic).
defer func() {
if result.finalizer == nil {
qry.Close()
}
}()
ctx = httputil.ContextFromRequest(ctx, r)
res := qry.Exec(ctx)
if res.Err != nil {
return apiFuncResult{nil, returnAPIError(res.Err), res.Warnings, qry.Close}
}
// Optional stats field in response if parameter "stats" is not empty.
sr := api.statsRenderer
if sr == nil {
sr = defaultStatsRenderer
}
qs := sr(ctx, qry.Stats(), r.FormValue("stats"))
return apiFuncResult{&QueryData{
ResultType: res.Value.Type(),
Result: res.Value,
Stats: qs,
}, nil, res.Warnings, qry.Close}
}
func (api *API) queryExemplars(r *http.Request) apiFuncResult {
start, err := parseTimeParam(r, "start", MinTime)
if err != nil {
return invalidParamError(err, "start")
}
end, err := parseTimeParam(r, "end", MaxTime)
if err != nil {
return invalidParamError(err, "end")
}
if end.Before(start) {
err := errors.New("end timestamp must not be before start timestamp")
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
expr, err := parser.ParseExpr(r.FormValue("query"))
if err != nil {
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
selectors := parser.ExtractSelectors(expr)
if len(selectors) < 1 {
return apiFuncResult{nil, nil, nil, nil}
}
ctx := r.Context()
eq, err := api.ExemplarQueryable.ExemplarQuerier(ctx)
if err != nil {
return apiFuncResult{nil, returnAPIError(err), nil, nil}
}
res, err := eq.Select(timestamp.FromTime(start), timestamp.FromTime(end), selectors...)
if err != nil {
return apiFuncResult{nil, returnAPIError(err), nil, nil}
}
return apiFuncResult{res, nil, nil, nil}
}
func returnAPIError(err error) *apiError {
if err == nil {
return nil
}
cause := errors.Unwrap(err)
if cause == nil {
cause = err
}
switch cause.(type) {
case promql.ErrQueryCanceled:
return &apiError{errorCanceled, err}
case promql.ErrQueryTimeout:
return &apiError{errorTimeout, err}
case promql.ErrStorage:
return &apiError{errorInternal, err}
}
if errors.Is(err, context.Canceled) {
return &apiError{errorCanceled, err}
}
return &apiError{errorExec, err}
}
func (api *API) labelNames(r *http.Request) apiFuncResult {
start, err := parseTimeParam(r, "start", MinTime)
if err != nil {
return invalidParamError(err, "start")
}
end, err := parseTimeParam(r, "end", MaxTime)
if err != nil {
return invalidParamError(err, "end")
}
matcherSets, err := parseMatchersParam(r.Form["match[]"])
if err != nil {
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
q, err := api.Queryable.Querier(timestamp.FromTime(start), timestamp.FromTime(end))
if err != nil {
return apiFuncResult{nil, returnAPIError(err), nil, nil}
}
defer q.Close()
var (
names []string
warnings annotations.Annotations
)
if len(matcherSets) > 0 {
labelNamesSet := make(map[string]struct{})
for _, matchers := range matcherSets {
vals, callWarnings, err := q.LabelNames(r.Context(), matchers...)
if err != nil {
return apiFuncResult{nil, returnAPIError(err), warnings, nil}
}
warnings.Merge(callWarnings)
for _, val := range vals {
labelNamesSet[val] = struct{}{}
}
}
// Convert the map to an array.
names = make([]string, 0, len(labelNamesSet))
for key := range labelNamesSet {
names = append(names, key)
}
slices.Sort(names)
} else {
names, warnings, err = q.LabelNames(r.Context())
if err != nil {
return apiFuncResult{nil, &apiError{errorExec, err}, warnings, nil}
}
}
if names == nil {
names = []string{}
}
return apiFuncResult{names, nil, warnings, nil}
}
func (api *API) labelValues(r *http.Request) (result apiFuncResult) {
ctx := r.Context()
name := route.Param(ctx, "name")
if !model.LabelNameRE.MatchString(name) {
return apiFuncResult{nil, &apiError{errorBadData, errors.Errorf("invalid label name: %q", name)}, nil, nil}
}
start, err := parseTimeParam(r, "start", MinTime)
if err != nil {
return invalidParamError(err, "start")
}
end, err := parseTimeParam(r, "end", MaxTime)
if err != nil {
return invalidParamError(err, "end")
}
matcherSets, err := parseMatchersParam(r.Form["match[]"])
if err != nil {
return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil}
}
q, err := api.Queryable.Querier(timestamp.FromTime(start), timestamp.FromTime(end))
if err != nil {
return apiFuncResult{nil, &apiError{errorExec, err}, nil, nil}
}
// From now on, we must only return with a finalizer in the result (to
// be called by the caller) or call q.Close ourselves (which is required
// in the case of a panic).
defer func() {
if result.finalizer == nil {
q.Close()
}
}()
closer := func() {
q.Close()
}
var (
vals []string
warnings annotations.Annotations
)
if len(matcherSets) > 0 {
var callWarnings annotations.Annotations
labelValuesSet := make(map[string]struct{})
for _, matchers := range matcherSets {
vals, callWarnings, err = q.LabelValues(ctx, name, matchers...)
if err != nil {
return apiFuncResult{nil, &apiError{errorExec, err}, warnings, closer}
}
warnings.Merge(callWarnings)
for _, val := range vals {
labelValuesSet[val] = struct{}{}
}
}
vals = make([]string, 0, len(labelValuesSet))
for val := range labelValuesSet {
vals = append(vals, val)
}
} else {
vals, warnings, err = q.LabelValues(ctx, name)
if err != nil {
return apiFuncResult{nil, &apiError{errorExec, err}, warnings, closer}
}
if vals == nil {
vals = []string{}
}
}
slices.Sort(vals)
return apiFuncResult{vals, nil, warnings, closer}
}
var (
// MinTime is the default timestamp used for the begin of optional time ranges.
// Exposed to let downstream projects to reference it.
MinTime = time.Unix(math.MinInt64/1000+62135596801, 0).UTC()
// MaxTime is the default timestamp used for the end of optional time ranges.
// Exposed to let downstream projects to reference it.
MaxTime = time.Unix(math.MaxInt64/1000-62135596801, 999999999).UTC()
minTimeFormatted = MinTime.Format(time.RFC3339Nano)
maxTimeFormatted = MaxTime.Format(time.RFC3339Nano)
)
func (api *API) series(r *http.Request) (result apiFuncResult) {
ctx := r.Context()
if err := r.ParseForm(); err != nil {
return apiFuncResult{nil, &apiError{errorBadData, errors.Wrapf(err, "error parsing form values")}, nil, nil}
}
if len(r.Form["match[]"]) == 0 {
return apiFuncResult{nil, &apiError{errorBadData, errors.New("no match[] parameter provided")}, nil, nil}
}
start, err := parseTimeParam(r, "start", MinTime)
if err != nil {
return invalidParamError(err, "start")
}
end, err := parseTimeParam(r, "end", MaxTime)
if err != nil {
return invalidParamError(err, "end")
}
matcherSets, err := parseMatchersParam(r.Form["match[]"])
if err != nil {
return invalidParamError(err, "match[]")
}
q, err := api.Queryable.Querier(timestamp.FromTime(start), timestamp.FromTime(end))
if err != nil {
return apiFuncResult{nil, returnAPIError(err), nil, nil}
}
// From now on, we must only return with a finalizer in the result (to
// be called by the caller) or call q.Close ourselves (which is required
// in the case of a panic).
defer func() {
if result.finalizer == nil {
q.Close()
}
}()
closer := func() {
q.Close()
}
hints := &storage.SelectHints{
Start: timestamp.FromTime(start),
End: timestamp.FromTime(end),
Func: "series", // There is no series function, this token is used for lookups that don't need samples.
}
var set storage.SeriesSet
if len(matcherSets) > 1 {
var sets []storage.SeriesSet
for _, mset := range matcherSets {
// We need to sort this select results to merge (deduplicate) the series sets later.
s := q.Select(ctx, true, hints, mset...)
sets = append(sets, s)
}
set = storage.NewMergeSeriesSet(sets, storage.ChainedSeriesMerge)
} else {
// At this point at least one match exists.
set = q.Select(ctx, false, hints, matcherSets[0]...)
}
metrics := []labels.Labels{}
for set.Next() {
metrics = append(metrics, set.At().Labels())
}
warnings := set.Warnings()
if set.Err() != nil {
return apiFuncResult{nil, returnAPIError(set.Err()), warnings, closer}
}
return apiFuncResult{metrics, nil, warnings, closer}
}
func (api *API) dropSeries(_ *http.Request) apiFuncResult {
return apiFuncResult{nil, &apiError{errorInternal, errors.New("not implemented")}, nil, nil}
}
// Target has the information for one target.
type Target struct {
// Labels before any processing.
DiscoveredLabels map[string]string `json:"discoveredLabels"`
// Any labels that are added to this target and its metrics.
Labels map[string]string `json:"labels"`
ScrapePool string `json:"scrapePool"`
ScrapeURL string `json:"scrapeUrl"`
GlobalURL string `json:"globalUrl"`
LastError string `json:"lastError"`
LastScrape time.Time `json:"lastScrape"`
LastScrapeDuration float64 `json:"lastScrapeDuration"`
Health scrape.TargetHealth `json:"health"`
ScrapeInterval string `json:"scrapeInterval"`
ScrapeTimeout string `json:"scrapeTimeout"`
}
type ScrapePoolsDiscovery struct {
ScrapePools []string `json:"scrapePools"`
}
// DroppedTarget has the information for one target that was dropped during relabelling.
type DroppedTarget struct {
// Labels before any processing.
DiscoveredLabels map[string]string `json:"discoveredLabels"`
}
// TargetDiscovery has all the active targets.
type TargetDiscovery struct {
ActiveTargets []*Target `json:"activeTargets"`
DroppedTargets []*DroppedTarget `json:"droppedTargets"`
DroppedTargetCounts map[string]int `json:"droppedTargetCounts"`
}
// GlobalURLOptions contains fields used for deriving the global URL for local targets.
type GlobalURLOptions struct {
ListenAddress string
Host string
Scheme string
}
// sanitizeSplitHostPort acts like net.SplitHostPort.
// Additionally, if there is no port in the host passed as input, we return the
// original host, making sure that IPv6 addresses are not surrounded by square
// brackets.
func sanitizeSplitHostPort(input string) (string, string, error) {
host, port, err := net.SplitHostPort(input)
if err != nil && strings.HasSuffix(err.Error(), "missing port in address") {
var errWithPort error
host, _, errWithPort = net.SplitHostPort(input + ":80")
if errWithPort == nil {
err = nil
}
}
return host, port, err
}
func getGlobalURL(u *url.URL, opts GlobalURLOptions) (*url.URL, error) {
host, port, err := sanitizeSplitHostPort(u.Host)
if err != nil {
return u, err
}
for _, lhr := range LocalhostRepresentations {
if host == lhr {
_, ownPort, err := net.SplitHostPort(opts.ListenAddress)
if err != nil {
return u, err
}
if port == ownPort {
// Only in the case where the target is on localhost and its port is
// the same as the one we're listening on, we know for sure that
// we're monitoring our own process and that we need to change the
// scheme, hostname, and port to the externally reachable ones as
// well. We shouldn't need to touch the path at all, since if a
// path prefix is defined, the path under which we scrape ourselves
// should already contain the prefix.
u.Scheme = opts.Scheme
u.Host = opts.Host
} else {
// Otherwise, we only know that localhost is not reachable
// externally, so we replace only the hostname by the one in the
// external URL. It could be the wrong hostname for the service on
// this port, but it's still the best possible guess.
host, _, err := sanitizeSplitHostPort(opts.Host)
if err != nil {
return u, err
}
u.Host = host
if port != "" {
u.Host = net.JoinHostPort(u.Host, port)
}
}
break
}
}
return u, nil
}
func (api *API) scrapePools(r *http.Request) apiFuncResult {
names := api.scrapePoolsRetriever(r.Context()).ScrapePools()
sort.Strings(names)
res := &ScrapePoolsDiscovery{ScrapePools: names}
return apiFuncResult{data: res, err: nil, warnings: nil, finalizer: nil}
}
func (api *API) targets(r *http.Request) apiFuncResult {
sortKeys := func(targets map[string][]*scrape.Target) ([]string, int) {
var n int
keys := make([]string, 0, len(targets))
for k := range targets {
keys = append(keys, k)
n += len(targets[k])
}
slices.Sort(keys)
return keys, n
}
scrapePool := r.URL.Query().Get("scrapePool")
state := strings.ToLower(r.URL.Query().Get("state"))
showActive := state == "" || state == "any" || state == "active"
showDropped := state == "" || state == "any" || state == "dropped"
res := &TargetDiscovery{}
if showActive {
targetsActive := api.targetRetriever(r.Context()).TargetsActive()
activeKeys, numTargets := sortKeys(targetsActive)
res.ActiveTargets = make([]*Target, 0, numTargets)
for _, key := range activeKeys {
if scrapePool != "" && key != scrapePool {
continue
}
for _, target := range targetsActive[key] {
lastErrStr := ""
lastErr := target.LastError()
if lastErr != nil {
lastErrStr = lastErr.Error()
}
globalURL, err := getGlobalURL(target.URL(), api.globalURLOptions)
res.ActiveTargets = append(res.ActiveTargets, &Target{
DiscoveredLabels: target.DiscoveredLabels().Map(),
Labels: target.Labels().Map(),
ScrapePool: key,
ScrapeURL: target.URL().String(),
GlobalURL: globalURL.String(),
LastError: func() string {
switch {
case err == nil && lastErrStr == "":
return ""
case err != nil:
return errors.Wrapf(err, lastErrStr).Error()
default:
return lastErrStr
}
}(),
LastScrape: target.LastScrape(),
LastScrapeDuration: target.LastScrapeDuration().Seconds(),
Health: target.Health(),
ScrapeInterval: target.GetValue(model.ScrapeIntervalLabel),
ScrapeTimeout: target.GetValue(model.ScrapeTimeoutLabel),
})
}
}
} else {
res.ActiveTargets = []*Target{}
}
if showDropped {
res.DroppedTargetCounts = api.targetRetriever(r.Context()).TargetsDroppedCounts()
}
if showDropped {
targetsDropped := api.targetRetriever(r.Context()).TargetsDropped()
droppedKeys, numTargets := sortKeys(targetsDropped)
res.DroppedTargets = make([]*DroppedTarget, 0, numTargets)
for _, key := range droppedKeys {
if scrapePool != "" && key != scrapePool {
continue
}
for _, target := range targetsDropped[key] {
res.DroppedTargets = append(res.DroppedTargets, &DroppedTarget{
DiscoveredLabels: target.DiscoveredLabels().Map(),
})
}
}
} else {
res.DroppedTargets = []*DroppedTarget{}
}
return apiFuncResult{res, nil, nil, nil}
}
func matchLabels(lset labels.Labels, matchers []*labels.Matcher) bool {
for _, m := range matchers {
if !m.Matches(lset.Get(m.Name)) {
return false
}
}
return true
}
func (api *API) targetMetadata(r *http.Request) apiFuncResult {
limit := -1
if s := r.FormValue("limit"); s != "" {
var err error
if limit, err = strconv.Atoi(s); err != nil {
return apiFuncResult{nil, &apiError{errorBadData, errors.New("limit must be a number")}, nil, nil}
}
}
matchTarget := r.FormValue("match_target")
var matchers []*labels.Matcher
var err error
if matchTarget != "" {
matchers, err = parser.ParseMetricSelector(matchTarget)
if err != nil {
return invalidParamError(err, "match_target")
}
}
metric := r.FormValue("metric")
res := []metricMetadata{}
for _, tt := range api.targetRetriever(r.Context()).TargetsActive() {
for _, t := range tt {
if limit >= 0 && len(res) >= limit {
break
}
// Filter targets that don't satisfy the label matchers.
if matchTarget != "" && !matchLabels(t.Labels(), matchers) {
continue
}
// If no metric is specified, get the full list for the target.
if metric == "" {
for _, md := range t.MetadataList() {
res = append(res, metricMetadata{
Target: t.Labels(),
Metric: md.Metric,
Type: md.Type,
Help: md.Help,
Unit: md.Unit,
})
}
continue
}
// Get metadata for the specified metric.
if md, ok := t.Metadata(metric); ok {
res = append(res, metricMetadata{
Target: t.Labels(),
Type: md.Type,
Help: md.Help,
Unit: md.Unit,
})
}
}
}
return apiFuncResult{res, nil, nil, nil}
}
type metricMetadata struct {
Target labels.Labels `json:"target"`
Metric string `json:"metric,omitempty"`
Type textparse.MetricType `json:"type"`
Help string `json:"help"`
Unit string `json:"unit"`
}
// AlertmanagerDiscovery has all the active Alertmanagers.
type AlertmanagerDiscovery struct {
ActiveAlertmanagers []*AlertmanagerTarget `json:"activeAlertmanagers"`
DroppedAlertmanagers []*AlertmanagerTarget `json:"droppedAlertmanagers"`
}
// AlertmanagerTarget has info on one AM.
type AlertmanagerTarget struct {
URL string `json:"url"`
}
func (api *API) alertmanagers(r *http.Request) apiFuncResult {
urls := api.alertmanagerRetriever(r.Context()).Alertmanagers()
droppedURLS := api.alertmanagerRetriever(r.Context()).DroppedAlertmanagers()
ams := &AlertmanagerDiscovery{ActiveAlertmanagers: make([]*AlertmanagerTarget, len(urls)), DroppedAlertmanagers: make([]*AlertmanagerTarget, len(droppedURLS))}
for i, url := range urls {
ams.ActiveAlertmanagers[i] = &AlertmanagerTarget{URL: url.String()}
}
for i, url := range droppedURLS {
ams.DroppedAlertmanagers[i] = &AlertmanagerTarget{URL: url.String()}
}
return apiFuncResult{ams, nil, nil, nil}
}
// AlertDiscovery has info for all active alerts.
type AlertDiscovery struct {
Alerts []*Alert `json:"alerts"`
}
// Alert has info for an alert.
type Alert struct {
Labels labels.Labels `json:"labels"`
Annotations labels.Labels `json:"annotations"`
State string `json:"state"`
ActiveAt *time.Time `json:"activeAt,omitempty"`
KeepFiringSince *time.Time `json:"keepFiringSince,omitempty"`
Value string `json:"value"`
}
func (api *API) alerts(r *http.Request) apiFuncResult {
alertingRules := api.rulesRetriever(r.Context()).AlertingRules()
alerts := []*Alert{}
for _, alertingRule := range alertingRules {
alerts = append(
alerts,
rulesAlertsToAPIAlerts(alertingRule.ActiveAlerts())...,
)
}
res := &AlertDiscovery{Alerts: alerts}
return apiFuncResult{res, nil, nil, nil}
}
func rulesAlertsToAPIAlerts(rulesAlerts []*rules.Alert) []*Alert {
apiAlerts := make([]*Alert, len(rulesAlerts))
for i, ruleAlert := range rulesAlerts {
apiAlerts[i] = &Alert{
Labels: ruleAlert.Labels,
Annotations: ruleAlert.Annotations,
State: ruleAlert.State.String(),
ActiveAt: &ruleAlert.ActiveAt,
Value: strconv.FormatFloat(ruleAlert.Value, 'e', -1, 64),
}
if !ruleAlert.KeepFiringSince.IsZero() {
apiAlerts[i].KeepFiringSince = &ruleAlert.KeepFiringSince
}
}
return apiAlerts
}
type metadata struct {
Type textparse.MetricType `json:"type"`
Help string `json:"help"`
Unit string `json:"unit"`
}
func (api *API) metricMetadata(r *http.Request) apiFuncResult {
metrics := map[string]map[metadata]struct{}{}
limit := -1
if s := r.FormValue("limit"); s != "" {
var err error
if limit, err = strconv.Atoi(s); err != nil {
return apiFuncResult{nil, &apiError{errorBadData, errors.New("limit must be a number")}, nil, nil}
}
}
limitPerMetric := -1
if s := r.FormValue("limit_per_metric"); s != "" {
var err error
if limitPerMetric, err = strconv.Atoi(s); err != nil {
return apiFuncResult{nil, &apiError{errorBadData, errors.New("limit_per_metric must be a number")}, nil, nil}
}
}
metric := r.FormValue("metric")
for _, tt := range api.targetRetriever(r.Context()).TargetsActive() {
for _, t := range tt {
if metric == "" {
for _, mm := range t.MetadataList() {
m := metadata{Type: mm.Type, Help: mm.Help, Unit: mm.Unit}
ms, ok := metrics[mm.Metric]
if limitPerMetric > 0 && len(ms) >= limitPerMetric {
continue
}
if !ok {
ms = map[metadata]struct{}{}
metrics[mm.Metric] = ms
}
ms[m] = struct{}{}
}
continue
}
if md, ok := t.Metadata(metric); ok {
m := metadata{Type: md.Type, Help: md.Help, Unit: md.Unit}
ms, ok := metrics[md.Metric]
if limitPerMetric > 0 && len(ms) >= limitPerMetric {
continue
}
if !ok {
ms = map[metadata]struct{}{}
metrics[md.Metric] = ms
}
ms[m] = struct{}{}
}
}
}
// Put the elements from the pseudo-set into a slice for marshaling.
res := map[string][]metadata{}
for name, set := range metrics {
if limit >= 0 && len(res) >= limit {
break
}
s := []metadata{}
for metadata := range set {
s = append(s, metadata)
}
res[name] = s
}
return apiFuncResult{res, nil, nil, nil}
}
// RuleDiscovery has info for all rules
type RuleDiscovery struct {
RuleGroups []*RuleGroup `json:"groups"`
}
// RuleGroup has info for rules which are part of a group
type RuleGroup struct {
Name string `json:"name"`
File string `json:"file"`
// In order to preserve rule ordering, while exposing type (alerting or recording)
// specific properties, both alerting and recording rules are exposed in the
// same array.
Rules []Rule `json:"rules"`
Interval float64 `json:"interval"`
Limit int `json:"limit"`
EvaluationTime float64 `json:"evaluationTime"`
LastEvaluation time.Time `json:"lastEvaluation"`
}
type Rule interface{}
type AlertingRule struct {
// State can be "pending", "firing", "inactive".
State string `json:"state"`
Name string `json:"name"`
Query string `json:"query"`
Duration float64 `json:"duration"`
KeepFiringFor float64 `json:"keepFiringFor"`
Labels labels.Labels `json:"labels"`
Annotations labels.Labels `json:"annotations"`
Alerts []*Alert `json:"alerts"`
Health rules.RuleHealth `json:"health"`
LastError string `json:"lastError,omitempty"`
EvaluationTime float64 `json:"evaluationTime"`
LastEvaluation time.Time `json:"lastEvaluation"`
// Type of an alertingRule is always "alerting".
Type string `json:"type"`
}
type RecordingRule struct {
Name string `json:"name"`
Query string `json:"query"`
Labels labels.Labels `json:"labels,omitempty"`
Health rules.RuleHealth `json:"health"`
LastError string `json:"lastError,omitempty"`
EvaluationTime float64 `json:"evaluationTime"`
LastEvaluation time.Time `json:"lastEvaluation"`
// Type of a recordingRule is always "recording".
Type string `json:"type"`
}
func (api *API) rules(r *http.Request) apiFuncResult {
if err := r.ParseForm(); err != nil {
return apiFuncResult{nil, &apiError{errorBadData, errors.Wrapf(err, "error parsing form values")}, nil, nil}
}
queryFormToSet := func(values []string) map[string]struct{} {
set := make(map[string]struct{}, len(values))
for _, v := range values {
set[v] = struct{}{}
}
return set
}
rnSet := queryFormToSet(r.Form["rule_name[]"])
rgSet := queryFormToSet(r.Form["rule_group[]"])
fSet := queryFormToSet(r.Form["file[]"])
ruleGroups := api.rulesRetriever(r.Context()).RuleGroups()
res := &RuleDiscovery{RuleGroups: make([]*RuleGroup, 0, len(ruleGroups))}
typ := strings.ToLower(r.URL.Query().Get("type"))
if typ != "" && typ != "alert" && typ != "record" {
return invalidParamError(errors.Errorf("not supported value %q", typ), "type")
}
returnAlerts := typ == "" || typ == "alert"
returnRecording := typ == "" || typ == "record"
rgs := make([]*RuleGroup, 0, len(ruleGroups))
for _, grp := range ruleGroups {
if len(rgSet) > 0 {
if _, ok := rgSet[grp.Name()]; !ok {
continue
}
}
if len(fSet) > 0 {
if _, ok := fSet[grp.File()]; !ok {
continue
}
}
apiRuleGroup := &RuleGroup{
Name: grp.Name(),
File: grp.File(),
Interval: grp.Interval().Seconds(),
Limit: grp.Limit(),
Rules: []Rule{},
EvaluationTime: grp.GetEvaluationTime().Seconds(),
LastEvaluation: grp.GetLastEvaluation(),
}
for _, rr := range grp.Rules() {
var enrichedRule Rule
if len(rnSet) > 0 {
if _, ok := rnSet[rr.Name()]; !ok {
continue
}
}
lastError := ""
if rr.LastError() != nil {
lastError = rr.LastError().Error()
}
switch rule := rr.(type) {
case *rules.AlertingRule:
if !returnAlerts {
break
}
enrichedRule = AlertingRule{
State: rule.State().String(),
Name: rule.Name(),
Query: rule.Query().String(),
Duration: rule.HoldDuration().Seconds(),
KeepFiringFor: rule.KeepFiringFor().Seconds(),
Labels: rule.Labels(),
Annotations: rule.Annotations(),
Alerts: rulesAlertsToAPIAlerts(rule.ActiveAlerts()),
Health: rule.Health(),
LastError: lastError,
EvaluationTime: rule.GetEvaluationDuration().Seconds(),
LastEvaluation: rule.GetEvaluationTimestamp(),
Type: "alerting",
}
case *rules.RecordingRule:
if !returnRecording {
break
}
enrichedRule = RecordingRule{
Name: rule.Name(),
Query: rule.Query().String(),
Labels: rule.Labels(),
Health: rule.Health(),
LastError: lastError,
EvaluationTime: rule.GetEvaluationDuration().Seconds(),
LastEvaluation: rule.GetEvaluationTimestamp(),
Type: "recording",
}
default:
err := errors.Errorf("failed to assert type of rule '%v'", rule.Name())
return apiFuncResult{nil, &apiError{errorInternal, err}, nil, nil}
}
if enrichedRule != nil {
apiRuleGroup.Rules = append(apiRuleGroup.Rules, enrichedRule)
}
}
// If the rule group response has no rules, skip it - this means we filtered all the rules of this group.
if len(apiRuleGroup.Rules) > 0 {
rgs = append(rgs, apiRuleGroup)
}
}
res.RuleGroups = rgs
return apiFuncResult{res, nil, nil, nil}
}
type prometheusConfig struct {
YAML string `json:"yaml"`
}
func (api *API) serveRuntimeInfo(_ *http.Request) apiFuncResult {
status, err := api.runtimeInfo()
if err != nil {
return apiFuncResult{status, &apiError{errorInternal, err}, nil, nil}
}
return apiFuncResult{status, nil, nil, nil}
}
func (api *API) serveBuildInfo(_ *http.Request) apiFuncResult {
return apiFuncResult{api.buildInfo, nil, nil, nil}
}
func (api *API) serveConfig(_ *http.Request) apiFuncResult {
cfg := &prometheusConfig{
YAML: api.config().String(),
}
return apiFuncResult{cfg, nil, nil, nil}
}
func (api *API) serveFlags(_ *http.Request) apiFuncResult {
return apiFuncResult{api.flagsMap, nil, nil, nil}
}
// TSDBStat holds the information about individual cardinality.
type TSDBStat struct {
Name string `json:"name"`
Value uint64 `json:"value"`
}
// HeadStats has information about the TSDB head.
type HeadStats struct {
NumSeries uint64 `json:"numSeries"`
NumLabelPairs int `json:"numLabelPairs"`
ChunkCount int64 `json:"chunkCount"`
MinTime int64 `json:"minTime"`
MaxTime int64 `json:"maxTime"`
}
// TSDBStatus has information of cardinality statistics from postings.
type TSDBStatus struct {
HeadStats HeadStats `json:"headStats"`
SeriesCountByMetricName []TSDBStat `json:"seriesCountByMetricName"`
LabelValueCountByLabelName []TSDBStat `json:"labelValueCountByLabelName"`
MemoryInBytesByLabelName []TSDBStat `json:"memoryInBytesByLabelName"`
SeriesCountByLabelValuePair []TSDBStat `json:"seriesCountByLabelValuePair"`
}
// TSDBStatsFromIndexStats converts a index.Stat slice to a TSDBStat slice.
func TSDBStatsFromIndexStats(stats []index.Stat) []TSDBStat {
result := make([]TSDBStat, 0, len(stats))
for _, item := range stats {
item := TSDBStat{Name: item.Name, Value: item.Count}
result = append(result, item)
}
return result
}
func (api *API) serveTSDBStatus(r *http.Request) apiFuncResult {
limit := 10
if s := r.FormValue("limit"); s != "" {
var err error
if limit, err = strconv.Atoi(s); err != nil || limit < 1 {
return apiFuncResult{nil, &apiError{errorBadData, errors.New("limit must be a positive number")}, nil, nil}
}
}
s, err := api.db.Stats(labels.MetricName, limit)
if err != nil {
return apiFuncResult{nil, &apiError{errorInternal, err}, nil, nil}
}
metrics, err := api.gatherer.Gather()
if err != nil {
return apiFuncResult{nil, &apiError{errorInternal, fmt.Errorf("error gathering runtime status: %s", err)}, nil, nil}
}
chunkCount := int64(math.NaN())
for _, mF := range metrics {
if *mF.Name == "prometheus_tsdb_head_chunks" {
m := mF.Metric[0]
if m.Gauge != nil {
chunkCount = int64(m.Gauge.GetValue())
break
}
}
}
return apiFuncResult{TSDBStatus{
HeadStats: HeadStats{
NumSeries: s.NumSeries,
ChunkCount: chunkCount,
MinTime: s.MinTime,
MaxTime: s.MaxTime,
NumLabelPairs: s.IndexPostingStats.NumLabelPairs,
},
SeriesCountByMetricName: TSDBStatsFromIndexStats(s.IndexPostingStats.CardinalityMetricsStats),
LabelValueCountByLabelName: TSDBStatsFromIndexStats(s.IndexPostingStats.CardinalityLabelStats),
MemoryInBytesByLabelName: TSDBStatsFromIndexStats(s.IndexPostingStats.LabelValueStats),
SeriesCountByLabelValuePair: TSDBStatsFromIndexStats(s.IndexPostingStats.LabelValuePairsStats),
}, nil, nil, nil}
}
type walReplayStatus struct {
Min int `json:"min"`
Max int `json:"max"`
Current int `json:"current"`
}
func (api *API) serveWALReplayStatus(w http.ResponseWriter, r *http.Request) {
httputil.SetCORS(w, api.CORSOrigin, r)
status, err := api.db.WALReplayStatus()
if err != nil {
api.respondError(w, &apiError{errorInternal, err}, nil)
}
api.respond(w, r, walReplayStatus{
Min: status.Min,
Max: status.Max,
Current: status.Current,
}, nil, "")
}
func (api *API) remoteRead(w http.ResponseWriter, r *http.Request) {
// This is only really for tests - this will never be nil IRL.
if api.remoteReadHandler != nil {
api.remoteReadHandler.ServeHTTP(w, r)
} else {
http.Error(w, "not found", http.StatusNotFound)
}
}
func (api *API) remoteWrite(w http.ResponseWriter, r *http.Request) {
if api.remoteWriteHandler != nil {
api.remoteWriteHandler.ServeHTTP(w, r)
} else {
http.Error(w, "remote write receiver needs to be enabled with --web.enable-remote-write-receiver", http.StatusNotFound)
}
}
func (api *API) otlpWrite(w http.ResponseWriter, r *http.Request) {
if api.otlpWriteHandler != nil {
api.otlpWriteHandler.ServeHTTP(w, r)
} else {
http.Error(w, "otlp write receiver needs to be enabled with --enable-feature=otlp-write-receiver", http.StatusNotFound)
}
}
func (api *API) deleteSeries(r *http.Request) apiFuncResult {
if !api.enableAdmin {
return apiFuncResult{nil, &apiError{errorUnavailable, errors.New("admin APIs disabled")}, nil, nil}
}
if err := r.ParseForm(); err != nil {
return apiFuncResult{nil, &apiError{errorBadData, errors.Wrap(err, "error parsing form values")}, nil, nil}
}
if len(r.Form["match[]"]) == 0 {
return apiFuncResult{nil, &apiError{errorBadData, errors.New("no match[] parameter provided")}, nil, nil}
}
start, err := parseTimeParam(r, "start", MinTime)
if err != nil {
return invalidParamError(err, "start")
}
end, err := parseTimeParam(r, "end", MaxTime)
if err != nil {
return invalidParamError(err, "end")
}
for _, s := range r.Form["match[]"] {
matchers, err := parser.ParseMetricSelector(s)
if err != nil {
return invalidParamError(err, "match[]")
}
if err := api.db.Delete(r.Context(), timestamp.FromTime(start), timestamp.FromTime(end), matchers...); err != nil {
return apiFuncResult{nil, &apiError{errorInternal, err}, nil, nil}
}
}
return apiFuncResult{nil, nil, nil, nil}
}
func (api *API) snapshot(r *http.Request) apiFuncResult {
if !api.enableAdmin {
return apiFuncResult{nil, &apiError{errorUnavailable, errors.New("admin APIs disabled")}, nil, nil}
}
var (
skipHead bool
err error
)
if r.FormValue("skip_head") != "" {
skipHead, err = strconv.ParseBool(r.FormValue("skip_head"))
if err != nil {
return invalidParamError(errors.Wrapf(err, "unable to parse boolean"), "skip_head")
}
}
var (
snapdir = filepath.Join(api.dbDir, "snapshots")
name = fmt.Sprintf("%s-%016x",
time.Now().UTC().Format("20060102T150405Z0700"),
rand.Int63())
dir = filepath.Join(snapdir, name)
)
if err := os.MkdirAll(dir, 0o777); err != nil {
return apiFuncResult{nil, &apiError{errorInternal, errors.Wrap(err, "create snapshot directory")}, nil, nil}
}
if err := api.db.Snapshot(dir, !skipHead); err != nil {
return apiFuncResult{nil, &apiError{errorInternal, errors.Wrap(err, "create snapshot")}, nil, nil}
}
return apiFuncResult{struct {
Name string `json:"name"`
}{name}, nil, nil, nil}
}
func (api *API) cleanTombstones(*http.Request) apiFuncResult {
if !api.enableAdmin {
return apiFuncResult{nil, &apiError{errorUnavailable, errors.New("admin APIs disabled")}, nil, nil}
}
if err := api.db.CleanTombstones(); err != nil {
return apiFuncResult{nil, &apiError{errorInternal, err}, nil, nil}
}
return apiFuncResult{nil, nil, nil, nil}
}
// Query string is needed to get the position information for the annotations, and it
// can be empty if the position information isn't needed.
func (api *API) respond(w http.ResponseWriter, req *http.Request, data interface{}, warnings annotations.Annotations, query string) {
statusMessage := statusSuccess
resp := &Response{
Status: statusMessage,
Data: data,
Warnings: warnings.AsStrings(query, 10),
}
codec, err := api.negotiateCodec(req, resp)
if err != nil {
api.respondError(w, &apiError{errorNotAcceptable, err}, nil)
return
}
b, err := codec.Encode(resp)
if err != nil {
level.Error(api.logger).Log("msg", "error marshaling response", "err", err)
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
w.Header().Set("Content-Type", codec.ContentType().String())
w.WriteHeader(http.StatusOK)
if n, err := w.Write(b); err != nil {
level.Error(api.logger).Log("msg", "error writing response", "bytesWritten", n, "err", err)
}
}
func (api *API) negotiateCodec(req *http.Request, resp *Response) (Codec, error) {
for _, clause := range goautoneg.ParseAccept(req.Header.Get("Accept")) {
for _, codec := range api.codecs {
if codec.ContentType().Satisfies(clause) && codec.CanEncode(resp) {
return codec, nil
}
}
}
defaultCodec := api.codecs[0]
if !defaultCodec.CanEncode(resp) {
return nil, fmt.Errorf("cannot encode response as %s", defaultCodec.ContentType())
}
return defaultCodec, nil
}
func (api *API) respondError(w http.ResponseWriter, apiErr *apiError, data interface{}) {
json := jsoniter.ConfigCompatibleWithStandardLibrary
b, err := json.Marshal(&Response{
Status: statusError,
ErrorType: apiErr.typ,
Error: apiErr.err.Error(),
Data: data,
})
if err != nil {
level.Error(api.logger).Log("msg", "error marshaling json response", "err", err)
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
var code int
switch apiErr.typ {
case errorBadData:
code = http.StatusBadRequest
case errorExec:
code = http.StatusUnprocessableEntity
case errorCanceled:
code = statusClientClosedConnection
case errorTimeout:
code = http.StatusServiceUnavailable
case errorInternal:
code = http.StatusInternalServerError
case errorNotFound:
code = http.StatusNotFound
case errorNotAcceptable:
code = http.StatusNotAcceptable
default:
code = http.StatusInternalServerError
}
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(code)
if n, err := w.Write(b); err != nil {
level.Error(api.logger).Log("msg", "error writing response", "bytesWritten", n, "err", err)
}
}
func parseTimeParam(r *http.Request, paramName string, defaultValue time.Time) (time.Time, error) {
val := r.FormValue(paramName)
if val == "" {
return defaultValue, nil
}
result, err := parseTime(val)
if err != nil {
return time.Time{}, errors.Wrapf(err, "Invalid time value for '%s'", paramName)
}
return result, nil
}
func parseTime(s string) (time.Time, error) {
if t, err := strconv.ParseFloat(s, 64); err == nil {
s, ns := math.Modf(t)
ns = math.Round(ns*1000) / 1000
return time.Unix(int64(s), int64(ns*float64(time.Second))).UTC(), nil
}
if t, err := time.Parse(time.RFC3339Nano, s); err == nil {
return t, nil
}
// Stdlib's time parser can only handle 4 digit years. As a workaround until
// that is fixed we want to at least support our own boundary times.
// Context: https://github.com/prometheus/client_golang/issues/614
// Upstream issue: https://github.com/golang/go/issues/20555
switch s {
case minTimeFormatted:
return MinTime, nil
case maxTimeFormatted:
return MaxTime, nil
}
return time.Time{}, errors.Errorf("cannot parse %q to a valid timestamp", s)
}
func parseDuration(s string) (time.Duration, error) {
if d, err := strconv.ParseFloat(s, 64); err == nil {
ts := d * float64(time.Second)
if ts > float64(math.MaxInt64) || ts < float64(math.MinInt64) {
return 0, errors.Errorf("cannot parse %q to a valid duration. It overflows int64", s)
}
return time.Duration(ts), nil
}
if d, err := model.ParseDuration(s); err == nil {
return time.Duration(d), nil
}
return 0, errors.Errorf("cannot parse %q to a valid duration", s)
}
func parseMatchersParam(matchers []string) ([][]*labels.Matcher, error) {
var matcherSets [][]*labels.Matcher
for _, s := range matchers {
matchers, err := parser.ParseMetricSelector(s)
if err != nil {
return nil, err
}
matcherSets = append(matcherSets, matchers)
}
OUTER:
for _, ms := range matcherSets {
for _, lm := range ms {
if lm != nil && !lm.Matches("") {
continue OUTER
}
}
return nil, errors.New("match[] must contain at least one non-empty matcher")
}
return matcherSets, nil
}
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