426 lines
11 KiB
Go
426 lines
11 KiB
Go
package graphite
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import (
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"bufio"
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"bytes"
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"fmt"
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"io"
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"math"
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"sort"
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"strconv"
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"strings"
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"time"
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"github.com/influxdata/telegraf"
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)
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// Minimum and maximum supported dates for timestamps.
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var (
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MinDate = time.Date(1901, 12, 13, 0, 0, 0, 0, time.UTC)
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MaxDate = time.Date(2038, 1, 19, 0, 0, 0, 0, time.UTC)
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)
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// Parser encapsulates a Graphite Parser.
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type GraphiteParser struct {
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Separator string
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Templates []string
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DefaultTags map[string]string
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matcher *matcher
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}
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func NewGraphiteParser(
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separator string,
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templates []string,
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defaultTags map[string]string,
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) (*GraphiteParser, error) {
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var err error
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if separator == "" {
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separator = DefaultSeparator
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}
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p := &GraphiteParser{
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Separator: separator,
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Templates: templates,
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}
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if defaultTags != nil {
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p.DefaultTags = defaultTags
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}
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matcher := newMatcher()
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p.matcher = matcher
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defaultTemplate, _ := NewTemplate("measurement*", nil, p.Separator)
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matcher.AddDefaultTemplate(defaultTemplate)
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for _, pattern := range p.Templates {
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template := pattern
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filter := ""
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// Format is [filter] <template> [tag1=value1,tag2=value2]
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parts := strings.Fields(pattern)
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if len(parts) < 1 {
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continue
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} else if len(parts) >= 2 {
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if strings.Contains(parts[1], "=") {
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template = parts[0]
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} else {
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filter = parts[0]
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template = parts[1]
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}
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}
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// Parse out the default tags specific to this template
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tags := map[string]string{}
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if strings.Contains(parts[len(parts)-1], "=") {
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tagStrs := strings.Split(parts[len(parts)-1], ",")
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for _, kv := range tagStrs {
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parts := strings.Split(kv, "=")
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tags[parts[0]] = parts[1]
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}
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}
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tmpl, err1 := NewTemplate(template, tags, p.Separator)
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if err1 != nil {
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err = err1
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break
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}
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matcher.Add(filter, tmpl)
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}
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if err != nil {
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return p, fmt.Errorf("exec input parser config is error: %s ", err.Error())
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} else {
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return p, nil
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}
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}
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func (p *GraphiteParser) Parse(buf []byte) ([]telegraf.Metric, error) {
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// parse even if the buffer begins with a newline
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buf = bytes.TrimPrefix(buf, []byte("\n"))
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// add newline to end if not exists:
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if len(buf) > 0 && !bytes.HasSuffix(buf, []byte("\n")) {
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buf = append(buf, []byte("\n")...)
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}
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metrics := make([]telegraf.Metric, 0)
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buffer := bytes.NewBuffer(buf)
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reader := bufio.NewReader(buffer)
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for {
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// Read up to the next newline.
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buf, err := reader.ReadBytes('\n')
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if err == io.EOF {
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return metrics, nil
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}
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if err != nil && err != io.EOF {
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return metrics, err
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}
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// Trim the buffer, even though there should be no padding
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line := strings.TrimSpace(string(buf))
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if metric, err := p.ParseLine(line); err == nil {
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metrics = append(metrics, metric)
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}
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}
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}
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// Parse performs Graphite parsing of a single line.
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func (p *GraphiteParser) ParseLine(line string) (telegraf.Metric, error) {
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// Break into 3 fields (name, value, timestamp).
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fields := strings.Fields(line)
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if len(fields) != 2 && len(fields) != 3 {
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return nil, fmt.Errorf("received %q which doesn't have required fields", line)
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}
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// decode the name and tags
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template := p.matcher.Match(fields[0])
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measurement, tags, field, err := template.Apply(fields[0])
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if err != nil {
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return nil, err
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}
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// Could not extract measurement, use the raw value
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if measurement == "" {
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measurement = fields[0]
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}
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// Parse value.
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v, err := strconv.ParseFloat(fields[1], 64)
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if err != nil {
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return nil, fmt.Errorf(`field "%s" value: %s`, fields[0], err)
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}
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if math.IsNaN(v) || math.IsInf(v, 0) {
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return nil, &UnsupposedValueError{Field: fields[0], Value: v}
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}
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fieldValues := map[string]interface{}{}
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if field != "" {
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fieldValues[field] = v
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} else {
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fieldValues["value"] = v
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}
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// If no 3rd field, use now as timestamp
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timestamp := time.Now().UTC()
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if len(fields) == 3 {
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// Parse timestamp.
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unixTime, err := strconv.ParseFloat(fields[2], 64)
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if err != nil {
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return nil, fmt.Errorf(`field "%s" time: %s`, fields[0], err)
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}
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// -1 is a special value that gets converted to current UTC time
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// See https://github.com/graphite-project/carbon/issues/54
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if unixTime != float64(-1) {
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// Check if we have fractional seconds
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timestamp = time.Unix(int64(unixTime), int64((unixTime-math.Floor(unixTime))*float64(time.Second)))
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if timestamp.Before(MinDate) || timestamp.After(MaxDate) {
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return nil, fmt.Errorf("timestamp out of range")
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}
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}
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}
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// Set the default tags on the point if they are not already set
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for k, v := range p.DefaultTags {
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if _, ok := tags[k]; !ok {
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tags[k] = v
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}
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}
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return telegraf.NewMetric(measurement, tags, fieldValues, timestamp)
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}
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// ApplyTemplate extracts the template fields from the given line and
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// returns the measurement name and tags.
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func (p *GraphiteParser) ApplyTemplate(line string) (string, map[string]string, string, error) {
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// Break line into fields (name, value, timestamp), only name is used
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fields := strings.Fields(line)
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if len(fields) == 0 {
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return "", make(map[string]string), "", nil
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}
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// decode the name and tags
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template := p.matcher.Match(fields[0])
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name, tags, field, err := template.Apply(fields[0])
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// Set the default tags on the point if they are not already set
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for k, v := range p.DefaultTags {
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if _, ok := tags[k]; !ok {
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tags[k] = v
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}
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}
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return name, tags, field, err
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}
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// template represents a pattern and tags to map a graphite metric string to a influxdb Point
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type template struct {
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tags []string
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defaultTags map[string]string
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greedyMeasurement bool
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separator string
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}
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// NewTemplate returns a new template ensuring it has a measurement
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// specified.
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func NewTemplate(pattern string, defaultTags map[string]string, separator string) (*template, error) {
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tags := strings.Split(pattern, ".")
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hasMeasurement := false
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template := &template{tags: tags, defaultTags: defaultTags, separator: separator}
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for _, tag := range tags {
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if strings.HasPrefix(tag, "measurement") {
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hasMeasurement = true
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}
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if tag == "measurement*" {
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template.greedyMeasurement = true
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}
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}
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if !hasMeasurement {
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return nil, fmt.Errorf("no measurement specified for template. %q", pattern)
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}
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return template, nil
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}
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// Apply extracts the template fields from the given line and returns the measurement
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// name and tags
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func (t *template) Apply(line string) (string, map[string]string, string, error) {
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fields := strings.Split(line, ".")
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var (
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measurement []string
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tags = make(map[string]string)
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field string
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)
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// Set any default tags
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for k, v := range t.defaultTags {
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tags[k] = v
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}
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for i, tag := range t.tags {
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if i >= len(fields) {
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continue
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}
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if tag == "measurement" {
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measurement = append(measurement, fields[i])
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} else if tag == "field" {
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if len(field) != 0 {
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return "", nil, "", fmt.Errorf("'field' can only be used once in each template: %q", line)
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}
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field = fields[i]
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} else if tag == "measurement*" {
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measurement = append(measurement, fields[i:]...)
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break
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} else if tag != "" {
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tags[tag] = fields[i]
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}
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}
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return strings.Join(measurement, t.separator), tags, field, nil
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}
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// matcher determines which template should be applied to a given metric
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// based on a filter tree.
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type matcher struct {
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root *node
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defaultTemplate *template
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}
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func newMatcher() *matcher {
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return &matcher{
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root: &node{},
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}
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}
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// Add inserts the template in the filter tree based the given filter
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func (m *matcher) Add(filter string, template *template) {
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if filter == "" {
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m.AddDefaultTemplate(template)
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return
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}
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m.root.Insert(filter, template)
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}
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func (m *matcher) AddDefaultTemplate(template *template) {
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m.defaultTemplate = template
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}
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// Match returns the template that matches the given graphite line
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func (m *matcher) Match(line string) *template {
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tmpl := m.root.Search(line)
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if tmpl != nil {
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return tmpl
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}
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return m.defaultTemplate
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}
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// node is an item in a sorted k-ary tree. Each child is sorted by its value.
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// The special value of "*", is always last.
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type node struct {
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value string
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children nodes
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template *template
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}
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func (n *node) insert(values []string, template *template) {
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// Add the end, set the template
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if len(values) == 0 {
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n.template = template
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return
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}
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// See if the the current element already exists in the tree. If so, insert the
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// into that sub-tree
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for _, v := range n.children {
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if v.value == values[0] {
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v.insert(values[1:], template)
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return
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}
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}
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// New element, add it to the tree and sort the children
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newNode := &node{value: values[0]}
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n.children = append(n.children, newNode)
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sort.Sort(&n.children)
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// Now insert the rest of the tree into the new element
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newNode.insert(values[1:], template)
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}
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// Insert inserts the given string template into the tree. The filter string is separated
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// on "." and each part is used as the path in the tree.
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func (n *node) Insert(filter string, template *template) {
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n.insert(strings.Split(filter, "."), template)
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}
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func (n *node) search(lineParts []string) *template {
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// Nothing to search
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if len(lineParts) == 0 || len(n.children) == 0 {
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return n.template
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}
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// If last element is a wildcard, don't include in this search since it's sorted
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// to the end but lexicographically it would not always be and sort.Search assumes
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// the slice is sorted.
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length := len(n.children)
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if n.children[length-1].value == "*" {
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length--
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}
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// Find the index of child with an exact match
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i := sort.Search(length, func(i int) bool {
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return n.children[i].value >= lineParts[0]
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})
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// Found an exact match, so search that child sub-tree
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if i < len(n.children) && n.children[i].value == lineParts[0] {
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return n.children[i].search(lineParts[1:])
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}
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// Not an exact match, see if we have a wildcard child to search
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if n.children[len(n.children)-1].value == "*" {
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return n.children[len(n.children)-1].search(lineParts[1:])
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}
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return n.template
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}
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func (n *node) Search(line string) *template {
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return n.search(strings.Split(line, "."))
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}
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type nodes []*node
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// Less returns a boolean indicating whether the filter at position j
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// is less than the filter at position k. Filters are order by string
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// comparison of each component parts. A wildcard value "*" is never
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// less than a non-wildcard value.
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//
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// For example, the filters:
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// "*.*"
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// "servers.*"
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// "servers.localhost"
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// "*.localhost"
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//
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// Would be sorted as:
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// "servers.localhost"
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// "servers.*"
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// "*.localhost"
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// "*.*"
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func (n *nodes) Less(j, k int) bool {
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if (*n)[j].value == "*" && (*n)[k].value != "*" {
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return false
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}
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if (*n)[j].value != "*" && (*n)[k].value == "*" {
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return true
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}
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return (*n)[j].value < (*n)[k].value
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}
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func (n *nodes) Swap(i, j int) { (*n)[i], (*n)[j] = (*n)[j], (*n)[i] }
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func (n *nodes) Len() int { return len(*n) }
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