// Copyright (C) 2022 DKRZ // All rights reserved. // Use of this source code is governed by a MIT-style // license that can be found in the LICENSE file. package metricdata import ( "os" "errors" "context" "encoding/json" "fmt" "strings" "text/template" "bytes" "net/http" "time" "math" "sort" "regexp" "sync" "github.com/ClusterCockpit/cc-backend/pkg/archive" "github.com/ClusterCockpit/cc-backend/pkg/schema" "github.com/ClusterCockpit/cc-backend/pkg/log" promapi "github.com/prometheus/client_golang/api" promv1 "github.com/prometheus/client_golang/api/prometheus/v1" promcfg "github.com/prometheus/common/config" promm "github.com/prometheus/common/model" ) type PrometheusDataRepositoryConfig struct { Url string `json:"url"` Username string `json:"username,omitempty"` Suffix string `json:"suffix,omitempty"` Templates map[string]string `json:"query-templates"` } type PrometheusDataRepository struct { client promapi.Client queryClient promv1.API suffix string templates map[string]*template.Template } type PromQLArgs struct { Nodes string } type Trie map[rune]Trie var logOnce sync.Once func contains(s []schema.MetricScope, str schema.MetricScope) bool { for _, v := range s { if v == str { return true } } return false } func MinMaxMean(data []schema.Float) (float64, float64, float64) { if len(data) == 0 { return 0.0, 0.0, 0.0 } min := math.MaxFloat64 max := -math.MaxFloat64 var sum float64 var n float64 for _, val := range data { if val.IsNaN() { continue } sum += float64(val) n += 1 if float64(val) > max {max = float64(val)} if float64(val) < min {min = float64(val)} } return min, max, sum / n } // Rewritten from // https://github.com/ermanh/trieregex/blob/master/trieregex/trieregex.py func nodeRegex(nodes []string) string { root := Trie{} // add runes of each compute node to trie for _, node := range nodes { _trie := root for _, c := range node { if _, ok := _trie[c]; !ok {_trie[c] = Trie{}} _trie = _trie[c] } _trie['*'] = Trie{} } // recursively build regex from rune trie var trieRegex func(trie Trie, reset bool) string trieRegex = func(trie Trie, reset bool) string { if reset == true { trie = root } if len(trie) == 0 { return "" } if len(trie) == 1 { for key, _trie := range trie { if key == '*' { return "" } return regexp.QuoteMeta(string(key)) + trieRegex(_trie, false) } } else { sequences := []string{} for key, _trie := range trie { if key != '*' { sequences = append(sequences, regexp.QuoteMeta(string(key)) + trieRegex(_trie, false)) } } sort.Slice(sequences, func(i, j int) bool { return (-len(sequences[i]) < -len(sequences[j])) || (sequences[i] < sequences[j]) }) var result string // single edge from this tree node if len(sequences) == 1 { result = sequences[0] if len(result) > 1 { result = "(?:" + result + ")" } // multiple edges, each length 1 } else if s := strings.Join(sequences, ""); len(s) == len(sequences) { // char or numeric range if len(s)-1 == int(s[len(s)-1]) - int(s[0]) { result = fmt.Sprintf("[%c-%c]", s[0], s[len(s)-1]) // char or numeric set } else { result = "[" + s + "]" } // multiple edges of different lengths } else { result = "(?:" + strings.Join(sequences, "|") + ")" } if _, ok := trie['*']; ok { result += "?"} return result } return "" } return trieRegex(root, true) } func (pdb *PrometheusDataRepository) Init(rawConfig json.RawMessage) error { var config PrometheusDataRepositoryConfig // parse config if err := json.Unmarshal(rawConfig, &config); err != nil { return err } // support basic authentication var rt http.RoundTripper = nil if prom_pw := os.Getenv("PROMETHEUS_PASSWORD"); prom_pw != "" && config.Username != "" { prom_pw := promcfg.Secret(prom_pw) rt = promcfg.NewBasicAuthRoundTripper(config.Username, prom_pw, "", promapi.DefaultRoundTripper) } else { if config.Username != "" { return errors.New("METRICDATA/PROMETHEUS > Prometheus username provided, but PROMETHEUS_PASSWORD not set.") } } // init client client, err := promapi.NewClient(promapi.Config{ Address: config.Url, RoundTripper: rt, }) if err != nil { return err } // init query client pdb.client = client pdb.queryClient = promv1.NewAPI(pdb.client) // site config pdb.suffix = config.Suffix // init query templates pdb.templates = make(map[string]*template.Template) for metric, templ := range config.Templates { pdb.templates[metric], err = template.New(metric).Parse(templ) if err == nil { log.Debugf("Added PromQL template for %s: %s", metric, templ) } else { log.Errorf("Failed to parse PromQL template %s for metric %s", templ, metric) } } return nil } // TODO: respect scope argument func (pdb *PrometheusDataRepository) FormatQuery( metric string, scope schema.MetricScope, nodes []string, cluster string) (string, error) { args := PromQLArgs{} if len(nodes) > 0 { args.Nodes = fmt.Sprintf("(%s)%s", nodeRegex(nodes), pdb.suffix) } else { args.Nodes = fmt.Sprintf(".*%s", pdb.suffix) } buf := &bytes.Buffer{} if templ, ok := pdb.templates[metric]; ok { err := templ.Execute(buf, args) if err != nil { return "", errors.New(fmt.Sprintf("METRICDATA/PROMETHEUS > Error compiling template %v", templ)) } else { query := buf.String() log.Debugf("PromQL: %s", query) return query, nil } } else { return "", errors.New(fmt.Sprintf("METRICDATA/PROMETHEUS > No PromQL for metric %s configured.", metric)) } } // Convert PromAPI row to CC schema.Series func (pdb *PrometheusDataRepository) RowToSeries( from time.Time, step int64, steps int64, row *promm.SampleStream) (schema.Series) { ts := from.Unix() hostname := strings.TrimSuffix(string(row.Metric["exported_instance"]), pdb.suffix) // init array of expected length with NaN values := make([]schema.Float, steps + 1) for i, _ := range values { values[i] = schema.NaN } // copy recorded values from prom sample pair for _, v := range row.Values { idx := (v.Timestamp.Unix() - ts) / step values[idx] = schema.Float(v.Value) } min, max, mean := MinMaxMean(values) // output struct return schema.Series{ Hostname: hostname, Data: values, Statistics: &schema.MetricStatistics{ Avg: mean, Min: min, Max: max, }, } } func (pdb *PrometheusDataRepository) LoadData( job *schema.Job, metrics []string, scopes []schema.MetricScope, ctx context.Context) (schema.JobData, error) { // TODO respect requested scope if len(scopes) == 0 || !contains(scopes, schema.MetricScopeNode){ scopes = append(scopes, schema.MetricScopeNode) } jobData := make(schema.JobData) // parse job specs nodes := make([]string, len(job.Resources)) for i, resource := range job.Resources { nodes[i] = resource.Hostname } from := job.StartTime to := job.StartTime.Add(time.Duration(job.Duration) * time.Second) for _, scope := range scopes { if scope != schema.MetricScopeNode { logOnce.Do(func(){log.Notef("Scope '%s' requested, but not yet supported: Will return 'node' scope only.", scope)}) continue } for _, metric := range metrics { metricConfig := archive.GetMetricConfig(job.Cluster, metric) if metricConfig == nil { log.Errorf("Error in LoadData: Metric %s for cluster %s not configured", metric, job.Cluster) return nil, errors.New("METRICDATA/PROMETHEUS > Prometheus query error") } query, err := pdb.FormatQuery(metric, scope, nodes, job.Cluster) if err != nil { return nil, err } // ranged query over all job nodes r := promv1.Range{ Start: from, End: to, Step: time.Duration(metricConfig.Timestep * 1e9), } result, warnings, err := pdb.queryClient.QueryRange(ctx, query, r) if err != nil { log.Errorf("Prometheus query error in LoadData: %v\nQuery: %s", err, query) return nil, errors.New("METRICDATA/PROMETHEUS > Prometheus query error") } if len(warnings) > 0 { log.Warnf("Warnings: %v\n", warnings) } // init data structures if _, ok := jobData[metric]; !ok { jobData[metric] = make(map[schema.MetricScope]*schema.JobMetric) } jobMetric, ok := jobData[metric][scope] if !ok { jobMetric = &schema.JobMetric{ Unit: metricConfig.Unit, Scope: scope, Timestep: metricConfig.Timestep, Series: make([]schema.Series, 0), } jobData[metric][scope] = jobMetric } step := int64(metricConfig.Timestep) steps := int64(to.Sub(from).Seconds()) / step // iter rows of host, metric, values for _, row := range result.(promm.Matrix) { jobMetric.Series = append(jobMetric.Series, pdb.RowToSeries(from, step, steps, row)) } // sort by hostname to get uniform coloring sort.Slice(jobMetric.Series, func(i, j int) bool { return (jobMetric.Series[i].Hostname < jobMetric.Series[j].Hostname) }) } } return jobData, nil } // TODO change implementation to precomputed/cached stats func (pdb *PrometheusDataRepository) LoadStats( job *schema.Job, metrics []string, ctx context.Context) (map[string]map[string]schema.MetricStatistics, error) { // map of metrics of nodes of stats stats := map[string]map[string]schema.MetricStatistics{} data, err := pdb.LoadData(job, metrics, []schema.MetricScope{schema.MetricScopeNode}, ctx) if err != nil { return nil, err } for metric, metricData := range data { stats[metric] = make(map[string]schema.MetricStatistics) for _, series := range metricData[schema.MetricScopeNode].Series { stats[metric][series.Hostname] = *series.Statistics } } return stats, nil } func (pdb *PrometheusDataRepository) LoadNodeData( cluster string, metrics, nodes []string, scopes []schema.MetricScope, from, to time.Time, ctx context.Context) (map[string]map[string][]*schema.JobMetric, error) { t0 := time.Now() // Map of hosts of metrics of value slices data := make(map[string]map[string][]*schema.JobMetric) // query db for each metric // TODO: scopes seems to be always empty if len(scopes) == 0 || !contains(scopes, schema.MetricScopeNode) { scopes = append(scopes, schema.MetricScopeNode) } for _, scope := range scopes { if scope != schema.MetricScopeNode { logOnce.Do(func(){log.Notef("Note: Scope '%s' requested, but not yet supported: Will return 'node' scope only.", scope)}) continue } for _, metric := range metrics { metricConfig := archive.GetMetricConfig(cluster, metric) if metricConfig == nil { log.Errorf("Error in LoadNodeData: Metric %s for cluster %s not configured", metric, cluster) return nil, errors.New("METRICDATA/PROMETHEUS > Prometheus querry error") } query, err := pdb.FormatQuery(metric, scope, nodes, cluster) if err != nil { return nil, err } // ranged query over all nodes r := promv1.Range{ Start: from, End: to, Step: time.Duration(metricConfig.Timestep * 1e9), } result, warnings, err := pdb.queryClient.QueryRange(ctx, query, r) if err != nil { log.Errorf("Prometheus query error in LoadNodeData: %v\n", err) return nil, errors.New("METRICDATA/PROMETHEUS > Prometheus querry error") } if len(warnings) > 0 { log.Warnf("Warnings: %v\n", warnings) } step := int64(metricConfig.Timestep) steps := int64(to.Sub(from).Seconds()) / step // iter rows of host, metric, values for _, row := range result.(promm.Matrix) { hostname := strings.TrimSuffix(string(row.Metric["exported_instance"]), pdb.suffix) hostdata, ok := data[hostname] if !ok { hostdata = make(map[string][]*schema.JobMetric) data[hostname] = hostdata } // output per host and metric hostdata[metric] = append(hostdata[metric], &schema.JobMetric{ Unit: metricConfig.Unit, Scope: scope, Timestep: metricConfig.Timestep, Series: []schema.Series{pdb.RowToSeries(from, step, steps, row)}, }, ) } } } t1 := time.Since(t0) log.Debugf("LoadNodeData of %v nodes took %s", len(data), t1) return data, nil }