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grafana/pkg/tsdb/intervalv2/intervalv2.go
Emil Tullstedt b287047052
Chore: Upgrade Go to 1.19.1 (#54902) 
* WIP

* Set public_suffix to a pre Ruby 2.6 version

* we don't need to install python

* Stretch->Buster

* Bump versions in lib.star

* Manually update linter

Sort of messy, but the .mod-file need to contain all dependencies that
use 1.16+ features, otherwise they're assumed to be compiled with
-lang=go1.16 and cannot access generics et al.

Bingo doesn't seem to understand that, but it's possible to manually
update things to get Bingo happy.

* undo reformatting

* Various lint improvements

* More from the linter

* goimports -w ./pkg/

* Disable gocritic

* Add/modify linter exceptions

* lint + flatten nested list

Go 1.19 doesn't support nested lists, and there wasn't an obvious workaround.
https://go.dev/doc/comment#lists
2022-09-12 12:03:49 +02:00

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package intervalv2
import (
"fmt"
"regexp"
"strings"
"time"
"github.com/grafana/grafana-plugin-sdk-go/backend"
"github.com/grafana/grafana-plugin-sdk-go/backend/gtime"
)
var (
DefaultRes int64 = 1500
defaultMinInterval = time.Millisecond * 1
year = time.Hour * 24 * 365
day = time.Hour * 24
)
type Interval struct {
Text string
Value time.Duration
}
type intervalCalculator struct {
minInterval time.Duration
}
type Calculator interface {
Calculate(timerange backend.TimeRange, minInterval time.Duration, maxDataPoints int64) Interval
CalculateSafeInterval(timerange backend.TimeRange, resolution int64) Interval
}
type CalculatorOptions struct {
MinInterval time.Duration
}
func NewCalculator(opts ...CalculatorOptions) *intervalCalculator {
calc := &intervalCalculator{}
for _, o := range opts {
if o.MinInterval == 0 {
calc.minInterval = defaultMinInterval
} else {
calc.minInterval = o.MinInterval
}
}
return calc
}
func (i *Interval) Milliseconds() int64 {
return i.Value.Nanoseconds() / int64(time.Millisecond)
}
func (ic *intervalCalculator) Calculate(timerange backend.TimeRange, minInterval time.Duration, maxDataPoints int64) Interval {
to := timerange.To.UnixNano()
from := timerange.From.UnixNano()
resolution := maxDataPoints
if resolution == 0 {
resolution = DefaultRes
}
calculatedInterval := time.Duration((to - from) / resolution)
if calculatedInterval < minInterval {
return Interval{Text: FormatDuration(minInterval), Value: minInterval}
}
rounded := roundInterval(calculatedInterval)
return Interval{Text: FormatDuration(rounded), Value: rounded}
}
func (ic *intervalCalculator) CalculateSafeInterval(timerange backend.TimeRange, safeRes int64) Interval {
to := timerange.To.UnixNano()
from := timerange.From.UnixNano()
safeInterval := time.Duration((to - from) / safeRes)
rounded := roundInterval(safeInterval)
return Interval{Text: FormatDuration(rounded), Value: rounded}
}
// GetIntervalFrom returns the minimum interval.
// dsInterval is the string representation of data source min interval, if configured.
// queryInterval is the string representation of query interval (min interval), e.g. "10ms" or "10s".
// queryIntervalMS is a pre-calculated numeric representation of the query interval in milliseconds.
func GetIntervalFrom(dsInterval, queryInterval string, queryIntervalMS int64, defaultInterval time.Duration) (time.Duration, error) {
// Apparently we are setting default value of queryInterval to 0s now
interval := queryInterval
if interval == "0s" {
interval = ""
}
if interval == "" {
if queryIntervalMS != 0 {
return time.Duration(queryIntervalMS) * time.Millisecond, nil
}
}
if interval == "" && dsInterval != "" {
interval = dsInterval
}
if interval == "" {
return defaultInterval, nil
}
parsedInterval, err := ParseIntervalStringToTimeDuration(interval)
if err != nil {
return time.Duration(0), err
}
return parsedInterval, nil
}
func ParseIntervalStringToTimeDuration(interval string) (time.Duration, error) {
formattedInterval := strings.Replace(strings.Replace(interval, "<", "", 1), ">", "", 1)
isPureNum, err := regexp.MatchString(`^\d+$`, formattedInterval)
if err != nil {
return time.Duration(0), err
}
if isPureNum {
formattedInterval += "s"
}
parsedInterval, err := gtime.ParseDuration(formattedInterval)
if err != nil {
return time.Duration(0), err
}
return parsedInterval, nil
}
// FormatDuration converts a duration into the kbn format e.g. 1m 2h or 3d
func FormatDuration(inter time.Duration) string {
if inter >= year {
return fmt.Sprintf("%dy", inter/year)
}
if inter >= day {
return fmt.Sprintf("%dd", inter/day)
}
if inter >= time.Hour {
return fmt.Sprintf("%dh", inter/time.Hour)
}
if inter >= time.Minute {
return fmt.Sprintf("%dm", inter/time.Minute)
}
if inter >= time.Second {
return fmt.Sprintf("%ds", inter/time.Second)
}
if inter >= time.Millisecond {
return fmt.Sprintf("%dms", inter/time.Millisecond)
}
return "1ms"
}
//nolint:gocyclo
func roundInterval(interval time.Duration) time.Duration {
switch {
// 0.01s
case interval <= 10*time.Millisecond:
return time.Millisecond * 1 // 0.001s
// 0.015s
case interval <= 15*time.Millisecond:
return time.Millisecond * 10 // 0.01s
// 0.035s
case interval <= 35*time.Millisecond:
return time.Millisecond * 20 // 0.02s
// 0.075s
case interval <= 75*time.Millisecond:
return time.Millisecond * 50 // 0.05s
// 0.15s
case interval <= 150*time.Millisecond:
return time.Millisecond * 100 // 0.1s
// 0.35s
case interval <= 350*time.Millisecond:
return time.Millisecond * 200 // 0.2s
// 0.75s
case interval <= 750*time.Millisecond:
return time.Millisecond * 500 // 0.5s
// 1.5s
case interval <= 1500*time.Millisecond:
return time.Millisecond * 1000 // 1s
// 3.5s
case interval <= 3500*time.Millisecond:
return time.Millisecond * 2000 // 2s
// 7.5s
case interval <= 7500*time.Millisecond:
return time.Millisecond * 5000 // 5s
// 12.5s
case interval <= 12500*time.Millisecond:
return time.Millisecond * 10000 // 10s
// 17.5s
case interval <= 17500*time.Millisecond:
return time.Millisecond * 15000 // 15s
// 25s
case interval <= 25000*time.Millisecond:
return time.Millisecond * 20000 // 20s
// 45s
case interval <= 45000*time.Millisecond:
return time.Millisecond * 30000 // 30s
// 1.5m
case interval <= 90000*time.Millisecond:
return time.Millisecond * 60000 // 1m
// 3.5m
case interval <= 210000*time.Millisecond:
return time.Millisecond * 120000 // 2m
// 7.5m
case interval <= 450000*time.Millisecond:
return time.Millisecond * 300000 // 5m
// 12.5m
case interval <= 750000*time.Millisecond:
return time.Millisecond * 600000 // 10m
// 17.5m
case interval <= 1050000*time.Millisecond:
return time.Millisecond * 900000 // 15m
// 25m
case interval <= 1500000*time.Millisecond:
return time.Millisecond * 1200000 // 20m
// 45m
case interval <= 2700000*time.Millisecond:
return time.Millisecond * 1800000 // 30m
// 1.5h
case interval <= 5400000*time.Millisecond:
return time.Millisecond * 3600000 // 1h
// 2.5h
case interval <= 9000000*time.Millisecond:
return time.Millisecond * 7200000 // 2h
// 4.5h
case interval <= 16200000*time.Millisecond:
return time.Millisecond * 10800000 // 3h
// 9h
case interval <= 32400000*time.Millisecond:
return time.Millisecond * 21600000 // 6h
// 24h
case interval <= 86400000*time.Millisecond:
return time.Millisecond * 43200000 // 12h
// 48h
case interval <= 172800000*time.Millisecond:
return time.Millisecond * 86400000 // 24h
// 1w
case interval <= 604800000*time.Millisecond:
return time.Millisecond * 86400000 // 24h
// 3w
case interval <= 1814400000*time.Millisecond:
return time.Millisecond * 604800000 // 1w
// 2y
case interval < 3628800000*time.Millisecond:
return time.Millisecond * 2592000000 // 30d
default:
return time.Millisecond * 31536000000 // 1y
}
}
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