rclone/fs/parseduration.go
Nick Craig-Wood ae3963e4b4 fs: Add string alternatives for setting options over the rc
Before this change options were read and set in native format. This
means for example nanoseconds for durations or an integer for
enumerated types, which isn't very convenient for humans.

This change enables these types to be set with a string with the
syntax as used in the command line instead, so `"10s"` rather than
`10000000000` or `"DEBUG"` rather than `8` for log level.
2021-02-07 14:56:41 +00:00

214 lines
5 KiB
Go

package fs
import (
"fmt"
"math"
"strconv"
"strings"
"time"
)
// Duration is a time.Duration with some more parsing options
type Duration time.Duration
// DurationOff is the default value for flags which can be turned off
const DurationOff = Duration((1 << 63) - 1)
// Turn Duration into a string
func (d Duration) String() string {
if d == DurationOff {
return "off"
}
for i := len(ageSuffixes) - 2; i >= 0; i-- {
ageSuffix := &ageSuffixes[i]
if math.Abs(float64(d)) >= float64(ageSuffix.Multiplier) {
timeUnits := float64(d) / float64(ageSuffix.Multiplier)
return strconv.FormatFloat(timeUnits, 'f', -1, 64) + ageSuffix.Suffix
}
}
return time.Duration(d).String()
}
// IsSet returns if the duration is != DurationOff
func (d Duration) IsSet() bool {
return d != DurationOff
}
// We use time conventions
var ageSuffixes = []struct {
Suffix string
Multiplier time.Duration
}{
{Suffix: "d", Multiplier: time.Hour * 24},
{Suffix: "w", Multiplier: time.Hour * 24 * 7},
{Suffix: "M", Multiplier: time.Hour * 24 * 30},
{Suffix: "y", Multiplier: time.Hour * 24 * 365},
// Default to second
{Suffix: "", Multiplier: time.Second},
}
// parse the age as suffixed ages
func parseDurationSuffixes(age string) (time.Duration, error) {
var period float64
for _, ageSuffix := range ageSuffixes {
if strings.HasSuffix(age, ageSuffix.Suffix) {
numberString := age[:len(age)-len(ageSuffix.Suffix)]
var err error
period, err = strconv.ParseFloat(numberString, 64)
if err != nil {
return time.Duration(0), err
}
period *= float64(ageSuffix.Multiplier)
break
}
}
return time.Duration(period), nil
}
// time formats to try parsing ages as - in order
var timeFormats = []string{
time.RFC3339,
"2006-01-02T15:04:05",
"2006-01-02 15:04:05",
"2006-01-02",
}
// parse the age as time before the epoch in various date formats
func parseDurationDates(age string, epoch time.Time) (t time.Duration, err error) {
var instant time.Time
for _, timeFormat := range timeFormats {
instant, err = time.Parse(timeFormat, age)
if err == nil {
return epoch.Sub(instant), nil
}
}
return t, err
}
// parseDurationFromNow parses a duration string. Allows ParseDuration to match the time
// package and easier testing within the fs package.
func parseDurationFromNow(age string, getNow func() time.Time) (d time.Duration, err error) {
if age == "off" {
return time.Duration(DurationOff), nil
}
// Attempt to parse as a time.Duration first
d, err = time.ParseDuration(age)
if err == nil {
return d, nil
}
d, err = parseDurationSuffixes(age)
if err == nil {
return d, nil
}
d, err = parseDurationDates(age, getNow())
if err == nil {
return d, nil
}
return d, err
}
// ParseDuration parses a duration string. Accept ms|s|m|h|d|w|M|y suffixes. Defaults to second if not provided
func ParseDuration(age string) (time.Duration, error) {
return parseDurationFromNow(age, time.Now)
}
// ReadableString parses d into a human readable duration.
// Based on https://github.com/hako/durafmt
func (d Duration) ReadableString() string {
switch d {
case DurationOff:
return "off"
case 0:
return "0s"
}
readableString := ""
// Check for minus durations.
if d < 0 {
readableString += "-"
}
duration := time.Duration(math.Abs(float64(d)))
// Convert duration.
seconds := int64(duration.Seconds()) % 60
minutes := int64(duration.Minutes()) % 60
hours := int64(duration.Hours()) % 24
days := int64(duration/(24*time.Hour)) % 365 % 7
// Edge case between 364 and 365 days.
// We need to calculate weeks from what is left from years
leftYearDays := int64(duration/(24*time.Hour)) % 365
weeks := leftYearDays / 7
if leftYearDays >= 364 && leftYearDays < 365 {
weeks = 52
}
years := int64(duration/(24*time.Hour)) / 365
milliseconds := int64(duration/time.Millisecond) -
(seconds * 1000) - (minutes * 60000) - (hours * 3600000) -
(days * 86400000) - (weeks * 604800000) - (years * 31536000000)
// Create a map of the converted duration time.
durationMap := map[string]int64{
"ms": milliseconds,
"s": seconds,
"m": minutes,
"h": hours,
"d": days,
"w": weeks,
"y": years,
}
// Construct duration string.
for _, u := range [...]string{"y", "w", "d", "h", "m", "s", "ms"} {
v := durationMap[u]
strval := strconv.FormatInt(v, 10)
if v == 0 {
continue
}
readableString += strval + u
}
return readableString
}
// Set a Duration
func (d *Duration) Set(s string) error {
duration, err := ParseDuration(s)
if err != nil {
return err
}
*d = Duration(duration)
return nil
}
// Type of the value
func (d Duration) Type() string {
return "Duration"
}
// UnmarshalJSON makes sure the value can be parsed as a string or integer in JSON
func (d *Duration) UnmarshalJSON(in []byte) error {
return UnmarshalJSONFlag(in, d, func(i int64) error {
*d = Duration(i)
return nil
})
}
// Scan implements the fmt.Scanner interface
func (d *Duration) Scan(s fmt.ScanState, ch rune) error {
token, err := s.Token(true, nil)
if err != nil {
return err
}
return d.Set(string(token))
}