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go/internal/telemetry/metric/metric.go
Nathan Dias be03d4f470 internal/telemetry/export/ocagent: attach timestamps to metrics
This change attaches start timestamps to timeseries and end
timestamps to the points in each timeseries. Int64Data,
Float64Data, HistogramInt64Data, and HistogramFloat64Data
have also had an EndTime field added to keep track of the last
time the metric was updated.

What works:
* Start and end timestamps will now be attached to timeseries.

What does not work yet:
* MetricDescriptors will not have a unit attached.
* No labels will be attached to timeseries.
* Distributions will not have SumOfSquaredDeviation attached.

Updates golang/go#33819

Change-Id: I692e1676bb1e31de26c1f799b96428fc9a55d6c7
Reviewed-on: https://go-review.googlesource.com/c/tools/+/203060
Run-TryBot: Emmanuel Odeke <emm.odeke@gmail.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Emmanuel Odeke <emm.odeke@gmail.com>
2019-10-24 07:31:07 +00:00

374 lines
12 KiB
Go

// Copyright 2019 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package metric aggregates stats into metrics that can be exported.
package metric
import (
"context"
"sort"
"time"
"golang.org/x/tools/internal/telemetry"
"golang.org/x/tools/internal/telemetry/export"
"golang.org/x/tools/internal/telemetry/stats"
"golang.org/x/tools/internal/telemetry/tag"
)
// Scalar represents the construction information for a scalar metric.
type Scalar struct {
// Name is the unique name of this metric.
Name string
// Description can be used by observers to describe the metric to users.
Description string
// Keys is the set of tags that collectively describe rows of the metric.
Keys []interface{}
}
// HistogramInt64 represents the construction information for an int64 histogram metric.
type HistogramInt64 struct {
// Name is the unique name of this metric.
Name string
// Description can be used by observers to describe the metric to users.
Description string
// Keys is the set of tags that collectively describe rows of the metric.
Keys []interface{}
// Buckets holds the inclusive upper bound of each bucket in the histogram.
Buckets []int64
}
// HistogramFloat64 represents the construction information for an float64 histogram metric.
type HistogramFloat64 struct {
// Name is the unique name of this metric.
Name string
// Description can be used by observers to describe the metric to users.
Description string
// Keys is the set of tags that collectively describe rows of the metric.
Keys []interface{}
// Buckets holds the inclusive upper bound of each bucket in the histogram.
Buckets []float64
}
// CountInt64 creates a new metric based on the Scalar information that counts
// the number of times the supplied int64 measure is set.
// Metrics of this type will use Int64Data.
func (info Scalar) CountInt64(measure *stats.Int64Measure) string {
data := &Int64Data{Info: &info}
measure.Subscribe(data.countInt64)
return info.Name
}
// SumInt64 creates a new metric based on the Scalar information that sums all
// the values recorded on the int64 measure.
// Metrics of this type will use Int64Data.
func (info Scalar) SumInt64(measure *stats.Int64Measure) string {
data := &Int64Data{Info: &info}
measure.Subscribe(data.sum)
_ = data
return info.Name
}
// LatestInt64 creates a new metric based on the Scalar information that tracks
// the most recent value recorded on the int64 measure.
// Metrics of this type will use Int64Data.
func (info Scalar) LatestInt64(measure *stats.Int64Measure) string {
data := &Int64Data{Info: &info, IsGauge: true}
measure.Subscribe(data.latest)
return info.Name
}
// CountFloat64 creates a new metric based on the Scalar information that counts
// the number of times the supplied float64 measure is set.
// Metrics of this type will use Int64Data.
func (info Scalar) CountFloat64(measure *stats.Float64Measure) string {
data := &Int64Data{Info: &info}
measure.Subscribe(data.countFloat64)
return info.Name
}
// SumFloat64 creates a new metric based on the Scalar information that sums all
// the values recorded on the float64 measure.
// Metrics of this type will use Float64Data.
func (info Scalar) SumFloat64(measure *stats.Float64Measure) string {
data := &Float64Data{Info: &info}
measure.Subscribe(data.sum)
return info.Name
}
// LatestFloat64 creates a new metric based on the Scalar information that tracks
// the most recent value recorded on the float64 measure.
// Metrics of this type will use Float64Data.
func (info Scalar) LatestFloat64(measure *stats.Float64Measure) string {
data := &Float64Data{Info: &info, IsGauge: true}
measure.Subscribe(data.latest)
return info.Name
}
// Record creates a new metric based on the HistogramInt64 information that
// tracks the bucketized counts of values recorded on the int64 measure.
// Metrics of this type will use HistogramInt64Data.
func (info HistogramInt64) Record(measure *stats.Int64Measure) string {
data := &HistogramInt64Data{Info: &info}
measure.Subscribe(data.record)
return info.Name
}
// Record creates a new metric based on the HistogramFloat64 information that
// tracks the bucketized counts of values recorded on the float64 measure.
// Metrics of this type will use HistogramFloat64Data.
func (info HistogramFloat64) Record(measure *stats.Float64Measure) string {
data := &HistogramFloat64Data{Info: &info}
measure.Subscribe(data.record)
return info.Name
}
// Int64Data is a concrete implementation of Data for int64 scalar metrics.
type Int64Data struct {
// Info holds the original consruction information.
Info *Scalar
// IsGauge is true for metrics that track values, rather than increasing over time.
IsGauge bool
// Rows holds the per group values for the metric.
Rows []int64
// End is the last time this metric was updated.
EndTime *time.Time
groups []telemetry.TagList
}
// Float64Data is a concrete implementation of Data for float64 scalar metrics.
type Float64Data struct {
// Info holds the original consruction information.
Info *Scalar
// IsGauge is true for metrics that track values, rather than increasing over time.
IsGauge bool
// Rows holds the per group values for the metric.
Rows []float64
// End is the last time this metric was updated.
EndTime *time.Time
groups []telemetry.TagList
}
// HistogramInt64Data is a concrete implementation of Data for int64 histogram metrics.
type HistogramInt64Data struct {
// Info holds the original consruction information.
Info *HistogramInt64
// Rows holds the per group values for the metric.
Rows []*HistogramInt64Row
// End is the last time this metric was updated.
EndTime *time.Time
groups []telemetry.TagList
}
// HistogramInt64Row holds the values for a single row of a HistogramInt64Data.
type HistogramInt64Row struct {
// Values is the counts per bucket.
Values []int64
// Count is the total count.
Count int64
// Sum is the sum of all the values recorded.
Sum int64
// Min is the smallest recorded value.
Min int64
// Max is the largest recorded value.
Max int64
}
// HistogramFloat64Data is a concrete implementation of Data for float64 histogram metrics.
type HistogramFloat64Data struct {
// Info holds the original consruction information.
Info *HistogramFloat64
// Rows holds the per group values for the metric.
Rows []*HistogramFloat64Row
// End is the last time this metric was updated.
EndTime *time.Time
groups []telemetry.TagList
}
// HistogramFloat64Row holds the values for a single row of a HistogramFloat64Data.
type HistogramFloat64Row struct {
// Values is the counts per bucket.
Values []int64
// Count is the total count.
Count int64
// Sum is the sum of all the values recorded.
Sum float64
// Min is the smallest recorded value.
Min float64
// Max is the largest recorded value.
Max float64
}
func getGroup(ctx context.Context, g *[]telemetry.TagList, keys []interface{}) (int, bool) {
group := tag.Get(ctx, keys...)
old := *g
index := sort.Search(len(old), func(i int) bool {
return !old[i].Less(group)
})
if index < len(old) && group.Equal(old[index]) {
// not a new group
return index, false
}
*g = make([]telemetry.TagList, len(old)+1)
copy(*g, old[:index])
copy((*g)[index+1:], old[index:])
(*g)[index] = group
return index, true
}
func (data *Int64Data) Handle() string { return data.Info.Name }
func (data *Int64Data) Groups() []telemetry.TagList { return data.groups }
func (data *Int64Data) modify(ctx context.Context, at time.Time, f func(v int64) int64) {
index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
old := data.Rows
if insert {
data.Rows = make([]int64, len(old)+1)
copy(data.Rows, old[:index])
copy(data.Rows[index+1:], old[index:])
} else {
data.Rows = make([]int64, len(old))
copy(data.Rows, old)
}
data.Rows[index] = f(data.Rows[index])
data.EndTime = &at
frozen := *data
export.Metric(ctx, &frozen)
}
func (data *Int64Data) countInt64(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
data.modify(ctx, at, func(v int64) int64 { return v + 1 })
}
func (data *Int64Data) countFloat64(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
data.modify(ctx, at, func(v int64) int64 { return v + 1 })
}
func (data *Int64Data) sum(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
data.modify(ctx, at, func(v int64) int64 { return v + value })
}
func (data *Int64Data) latest(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
data.modify(ctx, at, func(v int64) int64 { return value })
}
func (data *Float64Data) Handle() string { return data.Info.Name }
func (data *Float64Data) Groups() []telemetry.TagList { return data.groups }
func (data *Float64Data) modify(ctx context.Context, at time.Time, f func(v float64) float64) {
index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
old := data.Rows
if insert {
data.Rows = make([]float64, len(old)+1)
copy(data.Rows, old[:index])
copy(data.Rows[index+1:], old[index:])
} else {
data.Rows = make([]float64, len(old))
copy(data.Rows, old)
}
data.Rows[index] = f(data.Rows[index])
data.EndTime = &at
frozen := *data
export.Metric(ctx, &frozen)
}
func (data *Float64Data) sum(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
data.modify(ctx, at, func(v float64) float64 { return v + value })
}
func (data *Float64Data) latest(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
data.modify(ctx, at, func(v float64) float64 { return value })
}
func (data *HistogramInt64Data) Handle() string { return data.Info.Name }
func (data *HistogramInt64Data) Groups() []telemetry.TagList { return data.groups }
func (data *HistogramInt64Data) modify(ctx context.Context, at time.Time, f func(v *HistogramInt64Row)) {
index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
old := data.Rows
var v HistogramInt64Row
if insert {
data.Rows = make([]*HistogramInt64Row, len(old)+1)
copy(data.Rows, old[:index])
copy(data.Rows[index+1:], old[index:])
} else {
data.Rows = make([]*HistogramInt64Row, len(old))
copy(data.Rows, old)
v = *data.Rows[index]
}
oldValues := v.Values
v.Values = make([]int64, len(data.Info.Buckets))
copy(v.Values, oldValues)
f(&v)
data.Rows[index] = &v
data.EndTime = &at
frozen := *data
export.Metric(ctx, &frozen)
}
func (data *HistogramInt64Data) record(ctx context.Context, measure *stats.Int64Measure, value int64, at time.Time) {
data.modify(ctx, at, func(v *HistogramInt64Row) {
v.Sum += value
if v.Min > value || v.Count == 0 {
v.Min = value
}
if v.Max < value || v.Count == 0 {
v.Max = value
}
v.Count++
for i, b := range data.Info.Buckets {
if value <= b {
v.Values[i]++
}
}
})
}
func (data *HistogramFloat64Data) Handle() string { return data.Info.Name }
func (data *HistogramFloat64Data) Groups() []telemetry.TagList { return data.groups }
func (data *HistogramFloat64Data) modify(ctx context.Context, at time.Time, f func(v *HistogramFloat64Row)) {
index, insert := getGroup(ctx, &data.groups, data.Info.Keys)
old := data.Rows
var v HistogramFloat64Row
if insert {
data.Rows = make([]*HistogramFloat64Row, len(old)+1)
copy(data.Rows, old[:index])
copy(data.Rows[index+1:], old[index:])
} else {
data.Rows = make([]*HistogramFloat64Row, len(old))
copy(data.Rows, old)
v = *data.Rows[index]
}
oldValues := v.Values
v.Values = make([]int64, len(data.Info.Buckets))
copy(v.Values, oldValues)
f(&v)
data.Rows[index] = &v
data.EndTime = &at
frozen := *data
export.Metric(ctx, &frozen)
}
func (data *HistogramFloat64Data) record(ctx context.Context, measure *stats.Float64Measure, value float64, at time.Time) {
data.modify(ctx, at, func(v *HistogramFloat64Row) {
v.Sum += value
if v.Min > value || v.Count == 0 {
v.Min = value
}
if v.Max < value || v.Count == 0 {
v.Max = value
}
v.Count++
for i, b := range data.Info.Buckets {
if value <= b {
v.Values[i]++
}
}
})
}