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rclone/fs/flags.go

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// This contains helper functions for managing flags
package fs
import (
"fmt"
"log"
"math"
"os"
"strconv"
"strings"
"time"
"github.com/pkg/errors"
"github.com/spf13/pflag"
)
// SizeSuffix is parsed by flag with k/M/G suffixes
type SizeSuffix int64
// Turn SizeSuffix into a string and a suffix
func (x SizeSuffix) string() (string, string) {
scaled := float64(0)
suffix := ""
switch {
case x < 0:
return "off", ""
case x == 0:
return "0", ""
case x < 1024:
scaled = float64(x)
suffix = ""
case x < 1024*1024:
scaled = float64(x) / 1024
suffix = "k"
case x < 1024*1024*1024:
scaled = float64(x) / 1024 / 1024
suffix = "M"
default:
scaled = float64(x) / 1024 / 1024 / 1024
suffix = "G"
}
if math.Floor(scaled) == scaled {
return fmt.Sprintf("%.0f", scaled), suffix
}
return fmt.Sprintf("%.3f", scaled), suffix
}
// String turns SizeSuffix into a string
func (x SizeSuffix) String() string {
val, suffix := x.string()
return val + suffix
}
// Unit turns SizeSuffix into a string with a unit
func (x SizeSuffix) Unit(unit string) string {
val, suffix := x.string()
if val == "off" {
return val
}
return val + " " + suffix + unit
}
// Set a SizeSuffix
func (x *SizeSuffix) Set(s string) error {
if len(s) == 0 {
return errors.New("empty string")
}
if strings.ToLower(s) == "off" {
*x = -1
return nil
}
suffix := s[len(s)-1]
suffixLen := 1
var multiplier float64
switch suffix {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '.':
suffixLen = 0
multiplier = 1 << 10
case 'b', 'B':
multiplier = 1
case 'k', 'K':
multiplier = 1 << 10
case 'm', 'M':
multiplier = 1 << 20
case 'g', 'G':
multiplier = 1 << 30
default:
return errors.Errorf("bad suffix %q", suffix)
}
s = s[:len(s)-suffixLen]
value, err := strconv.ParseFloat(s, 64)
if err != nil {
return err
}
if value < 0 {
return errors.Errorf("size can't be negative %q", s)
}
value *= multiplier
*x = SizeSuffix(value)
return nil
}
// Type of the value
func (x *SizeSuffix) Type() string {
return "int64"
}
// Check it satisfies the interface
var _ pflag.Value = (*SizeSuffix)(nil)
// BwTimeSlot represents a bandwidth configuration at a point in time.
type BwTimeSlot struct {
hhmm int
bandwidth SizeSuffix
}
// BwTimetable contains all configured time slots.
type BwTimetable []BwTimeSlot
// String returns a printable representation of BwTimetable.
func (x BwTimetable) String() string {
ret := []string{}
for _, ts := range x {
ret = append(ret, fmt.Sprintf("%04.4d,%s", ts.hhmm, ts.bandwidth.String()))
}
return strings.Join(ret, " ")
}
// Set the bandwidth timetable.
func (x *BwTimetable) Set(s string) error {
// The timetable is formatted as:
// "hh:mm,bandwidth hh:mm,banwidth..." ex: "10:00,10G 11:30,1G 18:00,off"
// If only a single bandwidth identifier is provided, we assume constant bandwidth.
if len(s) == 0 {
return errors.New("empty string")
}
// Single value without time specification.
if !strings.Contains(s, " ") && !strings.Contains(s, ",") {
ts := BwTimeSlot{}
if err := ts.bandwidth.Set(s); err != nil {
return err
}
ts.hhmm = 0
*x = BwTimetable{ts}
return nil
}
for _, tok := range strings.Split(s, " ") {
tv := strings.Split(tok, ",")
// Format must be HH:MM,BW
if len(tv) != 2 {
return errors.Errorf("invalid time/bandwidth specification: %q", tok)
}
// Basic timespec sanity checking
hhmm := tv[0]
if len(hhmm) != 5 {
return errors.Errorf("invalid time specification (hh:mm): %q", hhmm)
}
hh, err := strconv.Atoi(hhmm[0:2])
if err != nil {
return errors.Errorf("invalid hour in time specification %q: %v", hhmm, err)
}
if hh < 0 || hh > 23 {
return errors.Errorf("invalid hour (must be between 00 and 23): %q", hh)
}
mm, err := strconv.Atoi(hhmm[3:])
if err != nil {
return errors.Errorf("invalid minute in time specification: %q: %v", hhmm, err)
}
if mm < 0 || mm > 59 {
return errors.Errorf("invalid minute (must be between 00 and 59): %q", hh)
}
ts := BwTimeSlot{
hhmm: (hh * 100) + mm,
}
// Bandwidth limit for this time slot.
if err := ts.bandwidth.Set(tv[1]); err != nil {
return err
}
*x = append(*x, ts)
}
return nil
}
// LimitAt returns a BwTimeSlot for the time requested.
func (x BwTimetable) LimitAt(tt time.Time) BwTimeSlot {
// If the timetable is empty, we return an unlimited BwTimeSlot starting at midnight.
if len(x) == 0 {
return BwTimeSlot{hhmm: 0, bandwidth: -1}
}
hhmm := tt.Hour()*100 + tt.Minute()
// By default, we return the last element in the timetable. This
// satisfies two conditions: 1) If there's only one element it
// will always be selected, and 2) The last element of the table
// will "wrap around" until overriden by an earlier time slot.
// there's only one time slot in the timetable.
ret := x[len(x)-1]
mindif := 0
first := true
// Look for most recent time slot.
for _, ts := range x {
// Ignore the past
if hhmm < ts.hhmm {
continue
}
dif := ((hhmm / 100 * 60) + (hhmm % 100)) - ((ts.hhmm / 100 * 60) + (ts.hhmm % 100))
if first {
mindif = dif
first = false
}
if dif <= mindif {
mindif = dif
ret = ts
}
}
return ret
}
// Type of the value
func (x BwTimetable) Type() string {
return "BwTimetable"
}
// Check it satisfies the interface
var _ pflag.Value = (*BwTimetable)(nil)
// optionToEnv converts an option name, eg "ignore-size" into an
// environment name "RCLONE_IGNORE_SIZE"
func optionToEnv(name string) string {
return "RCLONE_" + strings.ToUpper(strings.Replace(name, "-", "_", -1))
}
// setDefaultFromEnv constructs a name from the flag passed in and
// sets the default from the environment if possible.
func setDefaultFromEnv(name string) {
key := optionToEnv(name)
newValue, found := os.LookupEnv(key)
if found {
flag := pflag.Lookup(name)
if flag == nil {
log.Fatalf("Couldn't find flag %q", name)
}
err := flag.Value.Set(newValue)
if err != nil {
log.Fatalf("Invalid value for environment variable %q: %v", key, err)
}
Debugf(nil, "Set default for %q from %q to %q (%v)", name, key, newValue, flag.Value)
flag.DefValue = newValue
}
}
// StringP defines a flag which can be overridden by an environment variable
//
// It is a thin wrapper around pflag.StringP
func StringP(name, shorthand string, value string, usage string) (out *string) {
out = pflag.StringP(name, shorthand, value, usage)
setDefaultFromEnv(name)
return out
}
// BoolP defines a flag which can be overridden by an environment variable
//
// It is a thin wrapper around pflag.BoolP
func BoolP(name, shorthand string, value bool, usage string) (out *bool) {
out = pflag.BoolP(name, shorthand, value, usage)
setDefaultFromEnv(name)
return out
}
// IntP defines a flag which can be overridden by an environment variable
//
// It is a thin wrapper around pflag.IntP
func IntP(name, shorthand string, value int, usage string) (out *int) {
out = pflag.IntP(name, shorthand, value, usage)
setDefaultFromEnv(name)
return out
}
// DurationP defines a flag which can be overridden by an environment variable
//
// It is a thin wrapper around pflag.DurationP
func DurationP(name, shorthand string, value time.Duration, usage string) (out *time.Duration) {
out = pflag.DurationP(name, shorthand, value, usage)
setDefaultFromEnv(name)
return out
}
// VarP defines a flag which can be overridden by an environment variable
//
// It is a thin wrapper around pflag.VarP
func VarP(value pflag.Value, name, shorthand, usage string) {
pflag.VarP(value, name, shorthand, usage)
setDefaultFromEnv(name)
}
// StringArrayP defines a flag which can be overridden by an environment variable
//
// It sets one value only - command line flags can be used to set more.
//
// It is a thin wrapper around pflag.StringArrayP
func StringArrayP(name, shorthand string, value []string, usage string) (out *[]string) {
out = pflag.StringArrayP(name, shorthand, value, usage)
setDefaultFromEnv(name)
return out
}
// CountP defines a flag which can be overridden by an environment variable
//
// It is a thin wrapper around pflag.CountP
func CountP(name, shorthand string, usage string) (out *int) {
out = pflag.CountP(name, shorthand, usage)
setDefaultFromEnv(name)
return out
}