// Copyright 2013 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 mapper import ( "fmt" "io/ioutil" "regexp" "sync" "time" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/log" "github.com/prometheus/statsd_exporter/pkg/mapper/fsm" yaml "gopkg.in/yaml.v2" ) var ( statsdMetricRE = `[a-zA-Z_](-?[a-zA-Z0-9_])*` templateReplaceRE = `(\$\{?\d+\}?)` metricLineRE = regexp.MustCompile(`^(\*\.|` + statsdMetricRE + `\.)+(\*|` + statsdMetricRE + `)$`) metricNameRE = regexp.MustCompile(`^([a-zA-Z_]|` + templateReplaceRE + `)([a-zA-Z0-9_]|` + templateReplaceRE + `)*$`) labelNameRE = regexp.MustCompile(`^[a-zA-Z_][a-zA-Z0-9_]+$`) ) type MetricMapper struct { Defaults mapperConfigDefaults `yaml:"defaults"` Mappings []MetricMapping `yaml:"mappings"` FSM *fsm.FSM doFSM bool doRegex bool cache MetricMapperCache mutex sync.RWMutex MappingsCount prometheus.Gauge } type SummaryOptions struct { Quantiles []metricObjective `yaml:"quantiles"` MaxAge time.Duration `yaml:"max_age"` AgeBuckets uint32 `yaml:"age_buckets"` BufCap uint32 `yaml:"buf_cap"` } type HistogramOptions struct { Buckets []float64 `yaml:"buckets"` } type metricObjective struct { Quantile float64 `yaml:"quantile"` Error float64 `yaml:"error"` } var defaultQuantiles = []metricObjective{ {Quantile: 0.5, Error: 0.05}, {Quantile: 0.9, Error: 0.01}, {Quantile: 0.99, Error: 0.001}, } func (m *MetricMapper) InitFromYAMLString(fileContents string, cacheSize int, options ...CacheOption) error { var n MetricMapper if err := yaml.Unmarshal([]byte(fileContents), &n); err != nil { return err } if n.Defaults.Buckets == nil || len(n.Defaults.Buckets) == 0 { n.Defaults.Buckets = prometheus.DefBuckets } if n.Defaults.Quantiles == nil || len(n.Defaults.Quantiles) == 0 { n.Defaults.Quantiles = defaultQuantiles } if n.Defaults.MatchType == MatchTypeDefault { n.Defaults.MatchType = MatchTypeGlob } remainingMappingsCount := len(n.Mappings) n.FSM = fsm.NewFSM([]string{string(MetricTypeCounter), string(MetricTypeGauge), string(MetricTypeObserver)}, remainingMappingsCount, n.Defaults.GlobDisableOrdering) for i := range n.Mappings { remainingMappingsCount-- currentMapping := &n.Mappings[i] // check that label is correct for k := range currentMapping.Labels { if !labelNameRE.MatchString(k) { return fmt.Errorf("invalid label key: %s", k) } } if currentMapping.Name == "" { return fmt.Errorf("line %d: metric mapping didn't set a metric name", i) } if !metricNameRE.MatchString(currentMapping.Name) { return fmt.Errorf("metric name '%s' doesn't match regex '%s'", currentMapping.Name, metricNameRE) } if currentMapping.MatchType == "" { currentMapping.MatchType = n.Defaults.MatchType } if currentMapping.Action == "" { currentMapping.Action = ActionTypeMap } if currentMapping.MatchType == MatchTypeGlob { n.doFSM = true if !metricLineRE.MatchString(currentMapping.Match) { return fmt.Errorf("invalid match: %s", currentMapping.Match) } captureCount := n.FSM.AddState(currentMapping.Match, string(currentMapping.MatchMetricType), remainingMappingsCount, currentMapping) currentMapping.nameFormatter = fsm.NewTemplateFormatter(currentMapping.Name, captureCount) labelKeys := make([]string, len(currentMapping.Labels)) labelFormatters := make([]*fsm.TemplateFormatter, len(currentMapping.Labels)) labelIndex := 0 for label, valueExpr := range currentMapping.Labels { labelKeys[labelIndex] = label labelFormatters[labelIndex] = fsm.NewTemplateFormatter(valueExpr, captureCount) labelIndex++ } currentMapping.labelFormatters = labelFormatters currentMapping.labelKeys = labelKeys } else { if regex, err := regexp.Compile(currentMapping.Match); err != nil { return fmt.Errorf("invalid regex %s in mapping: %v", currentMapping.Match, err) } else { currentMapping.regex = regex } n.doRegex = true } if currentMapping.ObserverType == "" { currentMapping.ObserverType = n.Defaults.ObserverType } if currentMapping.LegacyQuantiles != nil && (currentMapping.SummaryOptions == nil || currentMapping.SummaryOptions.Quantiles != nil) { log.Warn("using the top level quantiles is deprecated. Please use quantiles in the summary_options hierarchy") } if currentMapping.LegacyBuckets != nil && (currentMapping.HistogramOptions == nil || currentMapping.HistogramOptions.Buckets != nil) { log.Warn("using the top level buckets is deprecated. Please use buckets in the histogram_options hierarchy") } if currentMapping.SummaryOptions != nil && currentMapping.LegacyQuantiles != nil && currentMapping.SummaryOptions.Quantiles != nil { return fmt.Errorf("cannot use quantiles in both the top level and summary options at the same time in %s", currentMapping.Match) } if currentMapping.HistogramOptions != nil && currentMapping.LegacyBuckets != nil && currentMapping.HistogramOptions.Buckets != nil { return fmt.Errorf("cannot use buckets in both the top level and histogram options at the same time in %s", currentMapping.Match) } if currentMapping.ObserverType == ObserverTypeHistogram { if currentMapping.SummaryOptions != nil { return fmt.Errorf("cannot use histogram observer and summary options at the same time") } if currentMapping.HistogramOptions == nil { currentMapping.HistogramOptions = &HistogramOptions{} } if currentMapping.LegacyBuckets != nil && len(currentMapping.LegacyBuckets) != 0 { currentMapping.HistogramOptions.Buckets = currentMapping.LegacyBuckets } if currentMapping.HistogramOptions.Buckets == nil || len(currentMapping.HistogramOptions.Buckets) == 0 { currentMapping.HistogramOptions.Buckets = n.Defaults.Buckets } } if currentMapping.ObserverType == ObserverTypeSummary { if currentMapping.HistogramOptions != nil { return fmt.Errorf("cannot use summary observer and histogram options at the same time") } if currentMapping.SummaryOptions == nil { currentMapping.SummaryOptions = &SummaryOptions{} } if currentMapping.LegacyQuantiles != nil && len(currentMapping.LegacyQuantiles) != 0 { currentMapping.SummaryOptions.Quantiles = currentMapping.LegacyQuantiles } if currentMapping.SummaryOptions.Quantiles == nil || len(currentMapping.SummaryOptions.Quantiles) == 0 { currentMapping.SummaryOptions.Quantiles = n.Defaults.Quantiles } } if currentMapping.Ttl == 0 && n.Defaults.Ttl > 0 { currentMapping.Ttl = n.Defaults.Ttl } } m.mutex.Lock() defer m.mutex.Unlock() m.Defaults = n.Defaults m.Mappings = n.Mappings m.InitCache(cacheSize, options...) if n.doFSM { var mappings []string for _, mapping := range n.Mappings { if mapping.MatchType == MatchTypeGlob { mappings = append(mappings, mapping.Match) } } n.FSM.BacktrackingNeeded = fsm.TestIfNeedBacktracking(mappings, n.FSM.OrderingDisabled) m.FSM = n.FSM m.doRegex = n.doRegex } m.doFSM = n.doFSM if m.MappingsCount != nil { m.MappingsCount.Set(float64(len(n.Mappings))) } return nil } func (m *MetricMapper) InitFromFile(fileName string, cacheSize int, options ...CacheOption) error { mappingStr, err := ioutil.ReadFile(fileName) if err != nil { return err } return m.InitFromYAMLString(string(mappingStr), cacheSize, options...) } func (m *MetricMapper) InitCache(cacheSize int, options ...CacheOption) { if cacheSize == 0 { m.cache = NewMetricMapperNoopCache() } else { o := cacheOptions{ cacheType: "lru", } for _, f := range options { f(&o) } var ( cache MetricMapperCache err error ) switch o.cacheType { case "lru": cache, err = NewMetricMapperCache(cacheSize) case "random": cache, err = NewMetricMapperRRCache(cacheSize) default: err = fmt.Errorf("unsupported cache type %q", o.cacheType) } if err != nil { log.Fatalf("Unable to setup metric cache. Caused by: %s", err) } m.cache = cache } } func (m *MetricMapper) GetMapping(statsdMetric string, statsdMetricType MetricType) (*MetricMapping, prometheus.Labels, bool) { m.mutex.RLock() defer m.mutex.RUnlock() result, cached := m.cache.Get(statsdMetric, statsdMetricType) if cached { return result.Mapping, result.Labels, result.Matched } // glob matching if m.doFSM { finalState, captures := m.FSM.GetMapping(statsdMetric, string(statsdMetricType)) if finalState != nil && finalState.Result != nil { v := finalState.Result.(*MetricMapping) result := copyMetricMapping(v) result.Name = result.nameFormatter.Format(captures) labels := prometheus.Labels{} for index, formatter := range result.labelFormatters { labels[result.labelKeys[index]] = formatter.Format(captures) } m.cache.AddMatch(statsdMetric, statsdMetricType, result, labels) return result, labels, true } else if !m.doRegex { // if there's no regex match type, return immediately m.cache.AddMiss(statsdMetric, statsdMetricType) return nil, nil, false } } // regex matching for _, mapping := range m.Mappings { // if a rule don't have regex matching type, the regex field is unset if mapping.regex == nil { continue } matches := mapping.regex.FindStringSubmatchIndex(statsdMetric) if len(matches) == 0 { continue } mapping.Name = string(mapping.regex.ExpandString( []byte{}, mapping.Name, statsdMetric, matches, )) if mt := mapping.MatchMetricType; mt != "" && mt != statsdMetricType { continue } labels := prometheus.Labels{} for label, valueExpr := range mapping.Labels { value := mapping.regex.ExpandString([]byte{}, valueExpr, statsdMetric, matches) labels[label] = string(value) } m.cache.AddMatch(statsdMetric, statsdMetricType, &mapping, labels) return &mapping, labels, true } m.cache.AddMiss(statsdMetric, statsdMetricType) return nil, nil, false } // make a shallow copy so that we do not overwrite name // as multiple names can be matched by same mapping func copyMetricMapping(in *MetricMapping) *MetricMapping { var out MetricMapping out = *in return &out }