package dropwizard import ( "encoding/json" "fmt" "log" "strings" "time" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/internal/templating" "github.com/influxdata/telegraf/metric" "github.com/influxdata/telegraf/plugins/parsers/influx" "github.com/tidwall/gjson" ) var fieldEscaper = strings.NewReplacer("\\", "\\\\", "\"", "\\\"") var keyEscaper = strings.NewReplacer(" ", "\\ ", ",", "\\,", "=", "\\=") // Parser parses json inputs containing dropwizard metrics, // either top-level or embedded inside a json field. // This parser is using gjson for retrieving paths within the json file. type parser struct { // an optional json path containing the metric registry object // if left empty, the whole json object is parsed as a metric registry MetricRegistryPath string // an optional json path containing the default time of the metrics // if left empty, or if cannot be parsed the current processing time is used as the time of the metrics TimePath string // time format to use for parsing the time field // defaults to time.RFC3339 TimeFormat string // an optional json path pointing to a json object with tag key/value pairs // takes precedence over TagPathsMap TagsPath string // an optional map containing tag names as keys and json paths to retrieve the tag values from as values // used if TagsPath is empty or doesn't return any tags TagPathsMap map[string]string // an optional map of default tags to use for metrics DefaultTags map[string]string separator string templateEngine *templating.Engine timeFunc metric.TimeFunc // seriesParser parses line protocol measurement + tags seriesParser *influx.Parser } func NewParser() *parser { handler := influx.NewMetricHandler() seriesParser := influx.NewSeriesParser(handler) parser := &parser{ timeFunc: time.Now, seriesParser: seriesParser, } return parser } // Parse parses the input bytes to an array of metrics func (p *parser) Parse(buf []byte) ([]telegraf.Metric, error) { metrics := make([]telegraf.Metric, 0) metricTime, err := p.parseTime(buf) if err != nil { return nil, err } dwr, err := p.unmarshalMetrics(buf) if err != nil { return nil, err } metrics = p.readDWMetrics("counter", dwr["counters"], metrics, metricTime) metrics = p.readDWMetrics("meter", dwr["meters"], metrics, metricTime) metrics = p.readDWMetrics("gauge", dwr["gauges"], metrics, metricTime) metrics = p.readDWMetrics("histogram", dwr["histograms"], metrics, metricTime) metrics = p.readDWMetrics("timer", dwr["timers"], metrics, metricTime) jsonTags := p.readTags(buf) // fill json tags first if len(jsonTags) > 0 { for _, m := range metrics { for k, v := range jsonTags { // only set the tag if it doesn't already exist: if !m.HasTag(k) { m.AddTag(k, v) } } } } // fill default tags last if len(p.DefaultTags) > 0 { for _, m := range metrics { for k, v := range p.DefaultTags { // only set the default tag if it doesn't already exist: if !m.HasTag(k) { m.AddTag(k, v) } } } } return metrics, nil } func (p *parser) SetTemplates(separator string, templates []string) error { if len(templates) == 0 { p.templateEngine = nil return nil } defaultTemplate, err := templating.NewDefaultTemplateWithPattern("measurement*") if err != nil { return err } templateEngine, err := templating.NewEngine(separator, defaultTemplate, templates) if err != nil { return err } p.separator = separator p.templateEngine = templateEngine return nil } // ParseLine is not supported by the dropwizard format func (p *parser) ParseLine(line string) (telegraf.Metric, error) { return nil, fmt.Errorf("ParseLine not supported: %s, for data format: dropwizard", line) } // SetDefaultTags sets the default tags func (p *parser) SetDefaultTags(tags map[string]string) { p.DefaultTags = tags } func (p *parser) readTags(buf []byte) map[string]string { if p.TagsPath != "" { var tagsBytes []byte tagsResult := gjson.GetBytes(buf, p.TagsPath) if tagsResult.Index > 0 { tagsBytes = buf[tagsResult.Index : tagsResult.Index+len(tagsResult.Raw)] } else { tagsBytes = []byte(tagsResult.Raw) } var tags map[string]string err := json.Unmarshal(tagsBytes, &tags) if err != nil { log.Printf("W! failed to parse tags from JSON path '%s': %s\n", p.TagsPath, err) } else if len(tags) > 0 { return tags } } tags := make(map[string]string) for tagKey, jsonPath := range p.TagPathsMap { tags[tagKey] = gjson.GetBytes(buf, jsonPath).String() } return tags } func (p *parser) parseTime(buf []byte) (time.Time, error) { if p.TimePath != "" { timeFormat := p.TimeFormat if timeFormat == "" { timeFormat = time.RFC3339 } timeString := gjson.GetBytes(buf, p.TimePath).String() if timeString == "" { err := fmt.Errorf("time not found in JSON path %s", p.TimePath) return p.timeFunc(), err } t, err := time.Parse(timeFormat, timeString) if err != nil { err = fmt.Errorf("time %s cannot be parsed with format %s, %s", timeString, timeFormat, err) return p.timeFunc(), err } return t.UTC(), nil } return p.timeFunc(), nil } func (p *parser) unmarshalMetrics(buf []byte) (map[string]interface{}, error) { var registryBytes []byte if p.MetricRegistryPath != "" { regResult := gjson.GetBytes(buf, p.MetricRegistryPath) if regResult.Index > 0 { registryBytes = buf[regResult.Index : regResult.Index+len(regResult.Raw)] } else { registryBytes = []byte(regResult.Raw) } if len(registryBytes) == 0 { err := fmt.Errorf("metric registry not found in JSON path %s", p.MetricRegistryPath) return nil, err } } else { registryBytes = buf } var jsonOut map[string]interface{} err := json.Unmarshal(registryBytes, &jsonOut) if err != nil { err = fmt.Errorf("unable to parse dropwizard metric registry from JSON document, %s", err) return nil, err } return jsonOut, nil } func (p *parser) readDWMetrics(metricType string, dwms interface{}, metrics []telegraf.Metric, tm time.Time) []telegraf.Metric { if dwmsTyped, ok := dwms.(map[string]interface{}); ok { for dwmName, dwmFields := range dwmsTyped { measurementName := dwmName tags := make(map[string]string) fieldPrefix := "" if p.templateEngine != nil { measurementName, tags, fieldPrefix, _ = p.templateEngine.Apply(dwmName) if len(fieldPrefix) > 0 { fieldPrefix = fmt.Sprintf("%s%s", fieldPrefix, p.separator) } } parsed, err := p.seriesParser.Parse([]byte(measurementName)) var m telegraf.Metric if err != nil || len(parsed) != 1 { m, err = metric.New(measurementName, map[string]string{}, map[string]interface{}{}, tm) if err != nil { log.Printf("W! failed to create metric of type '%s': %s\n", metricType, err) continue } } else { m = parsed[0] m.SetTime(tm) } m.AddTag("metric_type", metricType) for k, v := range tags { m.AddTag(k, v) } if fields, ok := dwmFields.(map[string]interface{}); ok { for k, v := range fields { switch v := v.(type) { case float64, string, bool: m.AddField(fieldPrefix+k, v) default: // ignore } } } metrics = append(metrics, m) } } return metrics } func (p *parser) SetTimeFunc(f metric.TimeFunc) { p.timeFunc = f }