// 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" "unsafe" "github.com/go-kit/log" "github.com/go-kit/log/level" "github.com/grafana/regexp" jsoniter "github.com/json-iterator/go" "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/exemplar" "github.com/prometheus/prometheus/model/histogram" "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/httputil" "github.com/prometheus/prometheus/util/jsonutil" "github.com/prometheus/prometheus/util/stats" ) type status string const ( statusSuccess status = "success" statusError status = "error" ) 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" ) 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 } // 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(ctx 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"` GOGC string `json:"GOGC"` GODEBUG string `json:"GODEBUG"` StorageRetention string `json:"storageRetention"` } 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 storage.Warnings 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(mint, maxt int64, ms ...*labels.Matcher) error Snapshot(dir string, withHead bool) error Stats(statsByLabelName string) (*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(q storage.Queryable, opts *promql.QueryOpts, qs string, ts time.Time) (promql.Query, error) NewRangeQuery(q storage.Queryable, opts *promql.QueryOpts, qs string, start, end time.Time, interval time.Duration) (promql.Query, error) } // 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 } func init() { jsoniter.RegisterTypeEncoderFunc("promql.Series", marshalSeriesJSON, marshalSeriesJSONIsEmpty) jsoniter.RegisterTypeEncoderFunc("promql.Sample", marshalSampleJSON, marshalSampleJSONIsEmpty) jsoniter.RegisterTypeEncoderFunc("promql.Point", marshalPointJSON, marshalPointJSONIsEmpty) jsoniter.RegisterTypeEncoderFunc("exemplar.Exemplar", marshalExemplarJSON, marshalExemplarJSONEmpty) } // 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, ) *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), } if statsRenderer != nil { a.statsRenderer = statsRenderer } if ap != nil { a.remoteWriteHandler = remote.NewWriteHandler(logger, ap) } return a } 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, result.data, result.warnings) 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.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(r *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 := extractQueryOpts(r) qry, err := api.QueryEngine.NewInstantQuery(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 { return &promql.QueryOpts{ EnablePerStepStats: r.FormValue("stats") == "all", } } 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 := extractQueryOpts(r) qry, err := api.QueryEngine.NewRangeQuery(api.Queryable, opts, r.FormValue("query"), start, end, step) if err != nil { return apiFuncResult{nil, &apiError{errorBadData, err}, nil, nil} } // 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} } 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(r.Context(), timestamp.FromTime(start), timestamp.FromTime(end)) if err != nil { return apiFuncResult{nil, returnAPIError(err), nil, nil} } defer q.Close() var ( names []string warnings storage.Warnings ) if len(matcherSets) > 0 { labelNamesSet := make(map[string]struct{}) for _, matchers := range matcherSets { vals, callWarnings, err := q.LabelNames(matchers...) if err != nil { return apiFuncResult{nil, returnAPIError(err), warnings, nil} } warnings = append(warnings, 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() 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(r.Context(), 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 storage.Warnings ) if len(matcherSets) > 0 { var callWarnings storage.Warnings labelValuesSet := make(map[string]struct{}) for _, matchers := range matcherSets { vals, callWarnings, err = q.LabelValues(name, matchers...) if err != nil { return apiFuncResult{nil, &apiError{errorExec, err}, warnings, closer} } warnings = append(warnings, 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(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 = time.Unix(math.MinInt64/1000+62135596801, 0).UTC() 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) { 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(r.Context(), 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(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(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"` } // 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 { if err == nil && lastErrStr == "" { return "" } else if err != nil { return errors.Wrapf(err, lastErrStr).Error() } 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 { 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"` 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), } } 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} } } 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 !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 !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"` 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 { ruleGroups := api.rulesRetriever(r.Context()).RuleGroups() res := &RuleDiscovery{RuleGroups: make([]*RuleGroup, 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" for i, grp := range ruleGroups { 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 _, r := range grp.Rules() { var enrichedRule Rule lastError := "" if r.LastError() != nil { lastError = r.LastError().Error() } switch rule := r.(type) { case *rules.AlertingRule: if !returnAlerts { break } enrichedRule = AlertingRule{ State: rule.State().String(), Name: rule.Name(), Query: rule.Query().String(), Duration: rule.HoldDuration().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) } } res.RuleGroups[i] = apiRuleGroup } 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(*http.Request) apiFuncResult { s, err := api.db.Stats(labels.MetricName) 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, 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 --enable-feature=remote-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(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(r *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} } func (api *API) respond(w http.ResponseWriter, data interface{}, warnings storage.Warnings) { statusMessage := statusSuccess var warningStrings []string for _, warning := range warnings { warningStrings = append(warningStrings, warning.Error()) } json := jsoniter.ConfigCompatibleWithStandardLibrary b, err := json.Marshal(&response{ Status: statusMessage, Data: data, Warnings: warningStrings, }) if err != nil { level.Error(api.logger).Log("msg", "error marshaling json response", "err", err) http.Error(w, err.Error(), http.StatusInternalServerError) return } w.Header().Set("Content-Type", "application/json") 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) 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, errorTimeout: code = http.StatusServiceUnavailable case errorInternal: code = http.StatusInternalServerError case errorNotFound: code = http.StatusNotFound 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 } // marshalSeriesJSON writes something like the following: // // { // "metric" : { // "__name__" : "up", // "job" : "prometheus", // "instance" : "localhost:9090" // }, // "values": [ // [ 1435781451.781, "1" ], // < more values> // ], // "histograms": [ // [ 1435781451.781, { < histogram, see below > } ], // < more histograms > // ], // }, func marshalSeriesJSON(ptr unsafe.Pointer, stream *jsoniter.Stream) { s := *((*promql.Series)(ptr)) stream.WriteObjectStart() stream.WriteObjectField(`metric`) m, err := s.Metric.MarshalJSON() if err != nil { stream.Error = err return } stream.SetBuffer(append(stream.Buffer(), m...)) // We make two passes through the series here: In the first marshaling // all value points, in the second marshaling all histogram // points. That's probably cheaper than just one pass in which we copy // out histogram Points into a newly allocated slice for separate // marshaling. (Could be benchmarked, though.) var foundValue, foundHistogram bool for _, p := range s.Points { if p.H == nil { stream.WriteMore() if !foundValue { stream.WriteObjectField(`values`) stream.WriteArrayStart() } foundValue = true marshalPointJSON(unsafe.Pointer(&p), stream) } else { foundHistogram = true } } if foundValue { stream.WriteArrayEnd() } if foundHistogram { firstHistogram := true for _, p := range s.Points { if p.H != nil { stream.WriteMore() if firstHistogram { stream.WriteObjectField(`histograms`) stream.WriteArrayStart() } firstHistogram = false marshalPointJSON(unsafe.Pointer(&p), stream) } } stream.WriteArrayEnd() } stream.WriteObjectEnd() } func marshalSeriesJSONIsEmpty(ptr unsafe.Pointer) bool { return false } // marshalSampleJSON writes something like the following for normal value samples: // // { // "metric" : { // "__name__" : "up", // "job" : "prometheus", // "instance" : "localhost:9090" // }, // "value": [ 1435781451.781, "1" ] // }, // // For histogram samples, it writes something like this: // // { // "metric" : { // "__name__" : "up", // "job" : "prometheus", // "instance" : "localhost:9090" // }, // "histogram": [ 1435781451.781, { < histogram, see below > } ] // }, func marshalSampleJSON(ptr unsafe.Pointer, stream *jsoniter.Stream) { s := *((*promql.Sample)(ptr)) stream.WriteObjectStart() stream.WriteObjectField(`metric`) m, err := s.Metric.MarshalJSON() if err != nil { stream.Error = err return } stream.SetBuffer(append(stream.Buffer(), m...)) stream.WriteMore() if s.Point.H == nil { stream.WriteObjectField(`value`) } else { stream.WriteObjectField(`histogram`) } marshalPointJSON(unsafe.Pointer(&s.Point), stream) stream.WriteObjectEnd() } func marshalSampleJSONIsEmpty(ptr unsafe.Pointer) bool { return false } // marshalPointJSON writes `[ts, "val"]`. func marshalPointJSON(ptr unsafe.Pointer, stream *jsoniter.Stream) { p := *((*promql.Point)(ptr)) stream.WriteArrayStart() jsonutil.MarshalTimestamp(p.T, stream) stream.WriteMore() if p.H == nil { jsonutil.MarshalValue(p.V, stream) } else { marshalHistogram(p.H, stream) } stream.WriteArrayEnd() } func marshalPointJSONIsEmpty(ptr unsafe.Pointer) bool { return false } // marshalHistogramJSON writes something like: // // { // "count": "42", // "sum": "34593.34", // "buckets": [ // [ 3, "-0.25", "0.25", "3"], // [ 0, "0.25", "0.5", "12"], // [ 0, "0.5", "1", "21"], // [ 0, "2", "4", "6"] // ] // } // // The 1st element in each bucket array determines if the boundaries are // inclusive (AKA closed) or exclusive (AKA open): // // 0: lower exclusive, upper inclusive // 1: lower inclusive, upper exclusive // 2: both exclusive // 3: both inclusive // // The 2nd and 3rd elements are the lower and upper boundary. The 4th element is // the bucket count. func marshalHistogram(h *histogram.FloatHistogram, stream *jsoniter.Stream) { stream.WriteObjectStart() stream.WriteObjectField(`count`) jsonutil.MarshalValue(h.Count, stream) stream.WriteMore() stream.WriteObjectField(`sum`) jsonutil.MarshalValue(h.Sum, stream) bucketFound := false it := h.AllBucketIterator() for it.Next() { bucket := it.At() if bucket.Count == 0 { continue // No need to expose empty buckets in JSON. } stream.WriteMore() if !bucketFound { stream.WriteObjectField(`buckets`) stream.WriteArrayStart() } bucketFound = true boundaries := 2 // Exclusive on both sides AKA open interval. if bucket.LowerInclusive { if bucket.UpperInclusive { boundaries = 3 // Inclusive on both sides AKA closed interval. } else { boundaries = 1 // Inclusive only on lower end AKA right open. } } else { if bucket.UpperInclusive { boundaries = 0 // Inclusive only on upper end AKA left open. } } stream.WriteArrayStart() stream.WriteInt(boundaries) stream.WriteMore() jsonutil.MarshalValue(bucket.Lower, stream) stream.WriteMore() jsonutil.MarshalValue(bucket.Upper, stream) stream.WriteMore() jsonutil.MarshalValue(bucket.Count, stream) stream.WriteArrayEnd() } if bucketFound { stream.WriteArrayEnd() } stream.WriteObjectEnd() } // marshalExemplarJSON writes. // // { // labels: , // value: "", // timestamp: // } func marshalExemplarJSON(ptr unsafe.Pointer, stream *jsoniter.Stream) { p := *((*exemplar.Exemplar)(ptr)) stream.WriteObjectStart() // "labels" key. stream.WriteObjectField(`labels`) lbls, err := p.Labels.MarshalJSON() if err != nil { stream.Error = err return } stream.SetBuffer(append(stream.Buffer(), lbls...)) // "value" key. stream.WriteMore() stream.WriteObjectField(`value`) jsonutil.MarshalValue(p.Value, stream) // "timestamp" key. stream.WriteMore() stream.WriteObjectField(`timestamp`) jsonutil.MarshalTimestamp(p.Ts, stream) stream.WriteObjectEnd() } func marshalExemplarJSONEmpty(ptr unsafe.Pointer) bool { return false }