547 lines
12 KiB
Go
547 lines
12 KiB
Go
package metric
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import (
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"bytes"
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"fmt"
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"hash/fnv"
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"sort"
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"strconv"
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"time"
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"github.com/influxdata/telegraf"
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// TODO remove
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"github.com/influxdata/influxdb/client/v2"
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)
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const MaxInt = int(^uint(0) >> 1)
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func New(
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name string,
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tags map[string]string,
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fields map[string]interface{},
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t time.Time,
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mType ...telegraf.ValueType,
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) (telegraf.Metric, error) {
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if len(fields) == 0 {
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return nil, fmt.Errorf("Metric cannot be made without any fields")
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}
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if len(name) == 0 {
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return nil, fmt.Errorf("Metric cannot be made with an empty name")
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}
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var thisType telegraf.ValueType
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if len(mType) > 0 {
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thisType = mType[0]
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} else {
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thisType = telegraf.Untyped
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}
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m := &metric{
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name: []byte(escape(name, "name")),
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t: []byte(fmt.Sprint(t.UnixNano())),
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nsec: t.UnixNano(),
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mType: thisType,
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}
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// pre-allocate exact size of the tags slice
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taglen := 0
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for k, v := range tags {
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// TODO check that length of tag key & value are > 0
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taglen += 2 + len(escape(k, "tagkey")) + len(escape(v, "tagval"))
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}
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m.tags = make([]byte, taglen)
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i := 0
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for k, v := range tags {
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m.tags[i] = ','
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i++
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i += copy(m.tags[i:], escape(k, "tagkey"))
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m.tags[i] = '='
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i++
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i += copy(m.tags[i:], escape(v, "tagval"))
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}
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// pre-allocate capacity of the fields slice
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fieldlen := 0
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for k, _ := range fields {
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// 10 bytes is completely arbitrary, but will at least prevent some
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// amount of allocations. There's a small possibility this will create
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// slightly more allocations for a metric that has many short fields.
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fieldlen += len(k) + 10
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}
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m.fields = make([]byte, 0, fieldlen)
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i = 0
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for k, v := range fields {
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if i != 0 {
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m.fields = append(m.fields, ',')
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}
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m.fields = appendField(m.fields, k, v)
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i++
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}
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return m, nil
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}
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// indexUnescapedByte finds the index of the first byte equal to b in buf that
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// is not escaped. Returns -1 if not found.
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func indexUnescapedByte(buf []byte, b byte) int {
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var keyi int
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for {
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i := bytes.IndexByte(buf[keyi:], b)
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if i == -1 {
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return -1
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} else if i == 0 {
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break
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}
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keyi += i
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if countBackslashes(buf, keyi-1)%2 == 0 {
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break
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} else {
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keyi++
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}
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}
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return keyi
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}
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// countBackslashes counts the number of preceding backslashes starting at
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// the 'start' index.
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func countBackslashes(buf []byte, index int) int {
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var count int
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for {
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if index < 0 {
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return count
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}
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if buf[index] == '\\' {
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count++
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index--
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} else {
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break
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}
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}
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return count
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}
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type metric struct {
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name []byte
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tags []byte
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fields []byte
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t []byte
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mType telegraf.ValueType
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aggregate bool
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// cached values for reuse in "get" functions
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hashID uint64
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nsec int64
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}
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func (m *metric) Point() *client.Point {
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c, _ := client.NewPoint(m.Name(), m.Tags(), m.Fields(), m.Time())
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return c
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}
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func (m *metric) String() string {
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return string(m.name) + string(m.tags) + " " + string(m.fields) + " " + string(m.t) + "\n"
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}
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func (m *metric) SetAggregate(b bool) {
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m.aggregate = b
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}
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func (m *metric) IsAggregate() bool {
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return m.aggregate
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}
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func (m *metric) Type() telegraf.ValueType {
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return m.mType
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}
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func (m *metric) Len() int {
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// 3 is for 2 spaces surrounding the fields array + newline at the end.
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return len(m.name) + len(m.tags) + len(m.fields) + len(m.t) + 3
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}
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func (m *metric) Serialize() []byte {
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tmp := make([]byte, m.Len())
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i := 0
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i += copy(tmp[i:], m.name)
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i += copy(tmp[i:], m.tags)
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tmp[i] = ' '
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i++
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i += copy(tmp[i:], m.fields)
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tmp[i] = ' '
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i++
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i += copy(tmp[i:], m.t)
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tmp[i] = '\n'
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return tmp
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}
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func (m *metric) Split(maxSize int) []telegraf.Metric {
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if m.Len() < maxSize {
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return []telegraf.Metric{m}
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}
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var out []telegraf.Metric
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// constant number of bytes for each metric (in addition to field bytes)
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constant := len(m.name) + len(m.tags) + len(m.t) + 3
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// currently selected fields
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fields := make([]byte, 0, maxSize)
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i := 0
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for {
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if i >= len(m.fields) {
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// hit the end of the field byte slice
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if len(fields) > 0 {
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out = append(out, copyWith(m.name, m.tags, fields, m.t))
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}
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break
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}
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// find the end of the next field
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j := indexUnescapedByte(m.fields[i:], ',')
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if j == -1 {
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j = len(m.fields)
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} else {
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j += i
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}
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// if true, then we need to create a metric _not_ including the currently
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// selected field
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if len(m.fields[i:j])+len(fields)+constant > maxSize {
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// if false, then we'll create a metric including the currently
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// selected field anyways. This means that the given maxSize is too
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// small for a single field to fit.
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if len(fields) > 0 {
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out = append(out, copyWith(m.name, m.tags, fields, m.t))
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}
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fields = make([]byte, 0, maxSize)
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}
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if len(fields) > 0 {
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fields = append(fields, ',')
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}
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fields = append(fields, m.fields[i:j]...)
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i = j + 1
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}
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return out
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}
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func (m *metric) Fields() map[string]interface{} {
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fieldMap := map[string]interface{}{}
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i := 0
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for {
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if i >= len(m.fields) {
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break
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}
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// end index of field key
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i1 := indexUnescapedByte(m.fields[i:], '=')
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if i1 == -1 {
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break
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}
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// start index of field value
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i2 := i1 + 1
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// end index of field value
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var i3 int
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if m.fields[i:][i2] == '"' {
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i3 = indexUnescapedByte(m.fields[i:][i2+1:], '"')
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if i3 == -1 {
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i3 = len(m.fields[i:])
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}
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i3 += i2 + 2 // increment index to the comma
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} else {
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i3 = indexUnescapedByte(m.fields[i:], ',')
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if i3 == -1 {
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i3 = len(m.fields[i:])
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}
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}
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switch m.fields[i:][i2] {
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case '"':
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// string field
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fieldMap[unescape(string(m.fields[i:][0:i1]), "fieldkey")] = unescape(string(m.fields[i:][i2+1:i3-1]), "fieldval")
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case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
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// number field
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switch m.fields[i:][i3-1] {
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case 'i':
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// integer field
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n, err := parseIntBytes(m.fields[i:][i2:i3-1], 10, 64)
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if err == nil {
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fieldMap[unescape(string(m.fields[i:][0:i1]), "fieldkey")] = n
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} else {
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// TODO handle error or just ignore field silently?
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}
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default:
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// float field
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n, err := parseFloatBytes(m.fields[i:][i2:i3], 64)
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if err == nil {
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fieldMap[unescape(string(m.fields[i:][0:i1]), "fieldkey")] = n
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} else {
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// TODO handle error or just ignore field silently?
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}
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}
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case 'T', 't':
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fieldMap[unescape(string(m.fields[i:][0:i1]), "fieldkey")] = true
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case 'F', 'f':
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fieldMap[unescape(string(m.fields[i:][0:i1]), "fieldkey")] = false
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default:
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// TODO handle unsupported field type
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}
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i += i3 + 1
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}
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return fieldMap
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}
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func (m *metric) Tags() map[string]string {
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tagMap := map[string]string{}
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if len(m.tags) == 0 {
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return tagMap
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}
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i := 0
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for {
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// start index of tag key
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i0 := indexUnescapedByte(m.tags[i:], ',') + 1
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if i0 == 0 {
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// didn't find a tag start
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break
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}
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// end index of tag key
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i1 := indexUnescapedByte(m.tags[i:], '=')
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// start index of tag value
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i2 := i1 + 1
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// end index of tag value (starting from i2)
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i3 := indexUnescapedByte(m.tags[i+i2:], ',')
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if i3 == -1 {
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tagMap[unescape(string(m.tags[i:][i0:i1]), "tagkey")] = unescape(string(m.tags[i:][i2:]), "tagval")
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break
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}
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tagMap[unescape(string(m.tags[i:][i0:i1]), "tagkey")] = unescape(string(m.tags[i:][i2:i2+i3]), "tagval")
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// increment start index for the next tag
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i += i2 + i3
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}
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return tagMap
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}
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func (m *metric) Name() string {
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return unescape(string(m.name), "name")
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}
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func (m *metric) Time() time.Time {
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// assume metric has been verified already and ignore error:
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if m.nsec == 0 {
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m.nsec, _ = parseIntBytes(m.t, 10, 64)
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}
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return time.Unix(0, m.nsec)
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}
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func (m *metric) UnixNano() int64 {
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// assume metric has been verified already and ignore error:
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if m.nsec == 0 {
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m.nsec, _ = parseIntBytes(m.t, 10, 64)
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}
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return m.nsec
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}
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func (m *metric) SetName(name string) {
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m.hashID = 0
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m.name = []byte(nameEscaper.Replace(name))
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}
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func (m *metric) SetPrefix(prefix string) {
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m.hashID = 0
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m.name = append([]byte(nameEscaper.Replace(prefix)), m.name...)
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}
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func (m *metric) SetSuffix(suffix string) {
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m.hashID = 0
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m.name = append(m.name, []byte(nameEscaper.Replace(suffix))...)
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}
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func (m *metric) AddTag(key, value string) {
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m.RemoveTag(key)
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m.tags = append(m.tags, []byte(","+escape(key, "tagkey")+"="+escape(value, "tagval"))...)
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}
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func (m *metric) HasTag(key string) bool {
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i := bytes.Index(m.tags, []byte(escape(key, "tagkey")+"="))
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if i == -1 {
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return false
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}
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return true
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}
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func (m *metric) RemoveTag(key string) {
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m.hashID = 0
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i := bytes.Index(m.tags, []byte(escape(key, "tagkey")+"="))
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if i == -1 {
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return
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}
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tmp := m.tags[0 : i-1]
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j := indexUnescapedByte(m.tags[i:], ',')
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if j != -1 {
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tmp = append(tmp, m.tags[i+j:]...)
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}
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m.tags = tmp
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return
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}
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func (m *metric) AddField(key string, value interface{}) {
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m.fields = append(m.fields, ',')
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m.fields = appendField(m.fields, key, value)
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}
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func (m *metric) HasField(key string) bool {
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i := bytes.Index(m.fields, []byte(escape(key, "tagkey")+"="))
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if i == -1 {
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return false
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}
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return true
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}
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func (m *metric) RemoveField(key string) error {
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i := bytes.Index(m.fields, []byte(escape(key, "tagkey")+"="))
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if i == -1 {
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return nil
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}
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var tmp []byte
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if i != 0 {
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tmp = m.fields[0 : i-1]
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}
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j := indexUnescapedByte(m.fields[i:], ',')
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if j != -1 {
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tmp = append(tmp, m.fields[i+j:]...)
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}
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if len(tmp) == 0 {
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return fmt.Errorf("Metric cannot remove final field: %s", m.fields)
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}
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m.fields = tmp
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return nil
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}
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func (m *metric) Copy() telegraf.Metric {
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return copyWith(m.name, m.tags, m.fields, m.t)
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}
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func copyWith(name, tags, fields, t []byte) telegraf.Metric {
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out := metric{
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name: make([]byte, len(name)),
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tags: make([]byte, len(tags)),
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fields: make([]byte, len(fields)),
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t: make([]byte, len(t)),
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}
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copy(out.name, name)
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copy(out.tags, tags)
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copy(out.fields, fields)
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copy(out.t, t)
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return &out
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}
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func (m *metric) HashID() uint64 {
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if m.hashID == 0 {
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h := fnv.New64a()
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h.Write(m.name)
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tags := m.Tags()
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tmp := make([]string, len(tags))
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i := 0
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for k, v := range tags {
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tmp[i] = k + v
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i++
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}
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sort.Strings(tmp)
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for _, s := range tmp {
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h.Write([]byte(s))
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}
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m.hashID = h.Sum64()
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}
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return m.hashID
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}
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func appendField(b []byte, k string, v interface{}) []byte {
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if v == nil {
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return b
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}
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b = append(b, []byte(escape(k, "tagkey")+"=")...)
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// check popular types first
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switch v := v.(type) {
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case float64:
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b = strconv.AppendFloat(b, v, 'f', -1, 64)
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case int64:
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b = strconv.AppendInt(b, v, 10)
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b = append(b, 'i')
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case string:
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b = append(b, '"')
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b = append(b, []byte(escape(v, "fieldval"))...)
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b = append(b, '"')
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case bool:
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b = strconv.AppendBool(b, v)
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case int32:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case int16:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case int8:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case int:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case uint64:
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// Cap uints above the maximum int value
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var intv int64
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if v <= uint64(MaxInt) {
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intv = int64(v)
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} else {
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intv = int64(MaxInt)
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}
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b = strconv.AppendInt(b, intv, 10)
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b = append(b, 'i')
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case uint32:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case uint16:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case uint8:
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b = strconv.AppendInt(b, int64(v), 10)
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b = append(b, 'i')
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case uint:
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// Cap uints above the maximum int value
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var intv int64
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if v <= uint(MaxInt) {
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intv = int64(v)
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} else {
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intv = int64(MaxInt)
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}
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b = strconv.AppendInt(b, intv, 10)
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b = append(b, 'i')
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case float32:
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b = strconv.AppendFloat(b, float64(v), 'f', -1, 32)
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case []byte:
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b = append(b, v...)
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default:
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// Can't determine the type, so convert to string
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b = append(b, '"')
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b = append(b, []byte(escape(fmt.Sprintf("%v", v), "fieldval"))...)
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b = append(b, '"')
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}
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return b
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}
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