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|
// Copyright 2011 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 time
import (
"errors"
"sync"
"syscall"
)
//go:generate env ZONEINFO=$GOROOT/lib/time/zoneinfo.zip go run genzabbrs.go -output zoneinfo_abbrs_windows.go
// A Location maps time instants to the zone in use at that time.
// Typically, the Location represents the collection of time offsets
// in use in a geographical area. For many Locations the time offset varies
// depending on whether daylight savings time is in use at the time instant.
type Location struct {
name string
zone []zone
tx []zoneTrans
// The tzdata information can be followed by a string that describes
// how to handle DST transitions not recorded in zoneTrans.
// The format is the TZ environment variable without a colon; see
// https://pubs.opengroup.org/onlinepubs/9699919799/basedefs/V1_chap08.html.
// Example string, for America/Los_Angeles: PST8PDT,M3.2.0,M11.1.0
extend string
// Most lookups will be for the current time.
// To avoid the binary search through tx, keep a
// static one-element cache that gives the correct
// zone for the time when the Location was created.
// if cacheStart <= t < cacheEnd,
// lookup can return cacheZone.
// The units for cacheStart and cacheEnd are seconds
// since January 1, 1970 UTC, to match the argument
// to lookup.
cacheStart int64
cacheEnd int64
cacheZone *zone
}
// A zone represents a single time zone such as CET.
type zone struct {
name string // abbreviated name, "CET"
offset int // seconds east of UTC
isDST bool // is this zone Daylight Savings Time?
}
// A zoneTrans represents a single time zone transition.
type zoneTrans struct {
when int64 // transition time, in seconds since 1970 GMT
index uint8 // the index of the zone that goes into effect at that time
isstd, isutc bool // ignored - no idea what these mean
}
// alpha and omega are the beginning and end of time for zone
// transitions.
const (
alpha = -1 << 63 // math.MinInt64
omega = 1<<63 - 1 // math.MaxInt64
)
// UTC represents Universal Coordinated Time (UTC).
var UTC *Location = &utcLoc
// utcLoc is separate so that get can refer to &utcLoc
// and ensure that it never returns a nil *Location,
// even if a badly behaved client has changed UTC.
var utcLoc = Location{name: "UTC"}
// Local represents the system's local time zone.
// On Unix systems, Local consults the TZ environment
// variable to find the time zone to use. No TZ means
// use the system default /etc/localtime.
// TZ="" means use UTC.
// TZ="foo" means use file foo in the system timezone directory.
var Local *Location = &localLoc
// localLoc is separate so that initLocal can initialize
// it even if a client has changed Local.
var localLoc Location
var localOnce sync.Once
func (l *Location) get() *Location {
if l == nil {
return &utcLoc
}
if l == &localLoc {
localOnce.Do(initLocal)
}
return l
}
// String returns a descriptive name for the time zone information,
// corresponding to the name argument to LoadLocation or FixedZone.
func (l *Location) String() string {
return l.get().name
}
// FixedZone returns a Location that always uses
// the given zone name and offset (seconds east of UTC).
func FixedZone(name string, offset int) *Location {
l := &Location{
name: name,
zone: []zone{{name, offset, false}},
tx: []zoneTrans{{alpha, 0, false, false}},
cacheStart: alpha,
cacheEnd: omega,
}
l.cacheZone = &l.zone[0]
return l
}
// lookup returns information about the time zone in use at an
// instant in time expressed as seconds since January 1, 1970 00:00:00 UTC.
//
// The returned information gives the name of the zone (such as "CET"),
// the start and end times bracketing sec when that zone is in effect,
// the offset in seconds east of UTC (such as -5*60*60), and whether
// the daylight savings is being observed at that time.
func (l *Location) lookup(sec int64) (name string, offset int, start, end int64, isDST bool) {
l = l.get()
if len(l.zone) == 0 {
name = "UTC"
offset = 0
start = alpha
end = omega
isDST = false
return
}
if zone := l.cacheZone; zone != nil && l.cacheStart <= sec && sec < l.cacheEnd {
name = zone.name
offset = zone.offset
start = l.cacheStart
end = l.cacheEnd
isDST = zone.isDST
return
}
if len(l.tx) == 0 || sec < l.tx[0].when {
zone := &l.zone[l.lookupFirstZone()]
name = zone.name
offset = zone.offset
start = alpha
if len(l.tx) > 0 {
end = l.tx[0].when
} else {
end = omega
}
isDST = zone.isDST
return
}
// Binary search for entry with largest time <= sec.
// Not using sort.Search to avoid dependencies.
tx := l.tx
end = omega
lo := 0
hi := len(tx)
for hi-lo > 1 {
m := lo + (hi-lo)/2
lim := tx[m].when
if sec < lim {
end = lim
hi = m
} else {
lo = m
}
}
zone := &l.zone[tx[lo].index]
name = zone.name
offset = zone.offset
start = tx[lo].when
// end = maintained during the search
isDST = zone.isDST
// If we're at the end of the known zone transitions,
// try the extend string.
if lo == len(tx)-1 && l.extend != "" {
if ename, eoffset, estart, eend, eisDST, ok := tzset(l.extend, start, sec); ok {
return ename, eoffset, estart, eend, eisDST
}
}
return
}
// lookupFirstZone returns the index of the time zone to use for times
// before the first transition time, or when there are no transition
// times.
//
// The reference implementation in localtime.c from
// https://www.iana.org/time-zones/repository/releases/tzcode2013g.tar.gz
// implements the following algorithm for these cases:
// 1. If the first zone is unused by the transitions, use it.
// 2. Otherwise, if there are transition times, and the first
// transition is to a zone in daylight time, find the first
// non-daylight-time zone before and closest to the first transition
// zone.
// 3. Otherwise, use the first zone that is not daylight time, if
// there is one.
// 4. Otherwise, use the first zone.
func (l *Location) lookupFirstZone() int {
// Case 1.
if !l.firstZoneUsed() {
return 0
}
// Case 2.
if len(l.tx) > 0 && l.zone[l.tx[0].index].isDST {
for zi := int(l.tx[0].index) - 1; zi >= 0; zi-- {
if !l.zone[zi].isDST {
return zi
}
}
}
// Case 3.
for zi := range l.zone {
if !l.zone[zi].isDST {
return zi
}
}
// Case 4.
return 0
}
// firstZoneUsed reports whether the first zone is used by some
// transition.
func (l *Location) firstZoneUsed() bool {
for _, tx := range l.tx {
if tx.index == 0 {
return true
}
}
return false
}
// tzset takes a timezone string like the one found in the TZ environment
// variable, the time of the last time zone transition expressed as seconds
// since January 1, 1970 00:00:00 UTC, and a time expressed the same way.
// We call this a tzset string since in C the function tzset reads TZ.
// The return values are as for lookup, plus ok which reports whether the
// parse succeeded.
func tzset(s string, lastTxSec, sec int64) (name string, offset int, start, end int64, isDST, ok bool) {
var (
stdName, dstName string
stdOffset, dstOffset int
)
stdName, s, ok = tzsetName(s)
if ok {
stdOffset, s, ok = tzsetOffset(s)
}
if !ok {
return "", 0, 0, 0, false, false
}
// The numbers in the tzset string are added to local time to get UTC,
// but our offsets are added to UTC to get local time,
// so we negate the number we see here.
stdOffset = -stdOffset
if len(s) == 0 || s[0] == ',' {
// No daylight savings time.
return stdName, stdOffset, lastTxSec, omega, false, true
}
dstName, s, ok = tzsetName(s)
if ok {
if len(s) == 0 || s[0] == ',' {
dstOffset = stdOffset + secondsPerHour
} else {
dstOffset, s, ok = tzsetOffset(s)
dstOffset = -dstOffset // as with stdOffset, above
}
}
if !ok {
return "", 0, 0, 0, false, false
}
if len(s) == 0 {
// Default DST rules per tzcode.
s = ",M3.2.0,M11.1.0"
}
// The TZ definition does not mention ';' here but tzcode accepts it.
if s[0] != ',' && s[0] != ';' {
return "", 0, 0, 0, false, false
}
s = s[1:]
var startRule, endRule rule
startRule, s, ok = tzsetRule(s)
if !ok || len(s) == 0 || s[0] != ',' {
return "", 0, 0, 0, false, false
}
s = s[1:]
endRule, s, ok = tzsetRule(s)
if !ok || len(s) > 0 {
return "", 0, 0, 0, false, false
}
year, _, _, yday := absDate(uint64(sec+unixToInternal+internalToAbsolute), false)
ysec := int64(yday*secondsPerDay) + sec%secondsPerDay
// Compute start of year in seconds since Unix epoch.
d := daysSinceEpoch(year)
abs := int64(d * secondsPerDay)
abs += absoluteToInternal + internalToUnix
startSec := int64(tzruleTime(year, startRule, stdOffset))
endSec := int64(tzruleTime(year, endRule, dstOffset))
dstIsDST, stdIsDST := true, false
// Note: this is a flipping of "DST" and "STD" while retaining the labels
// This happens in southern hemispheres. The labelling here thus is a little
// inconsistent with the goal.
if endSec < startSec {
startSec, endSec = endSec, startSec
stdName, dstName = dstName, stdName
stdOffset, dstOffset = dstOffset, stdOffset
stdIsDST, dstIsDST = dstIsDST, stdIsDST
}
// The start and end values that we return are accurate
// close to a daylight savings transition, but are otherwise
// just the start and end of the year. That suffices for
// the only caller that cares, which is Date.
if ysec < startSec {
return stdName, stdOffset, abs, startSec + abs, stdIsDST, true
} else if ysec >= endSec {
return stdName, stdOffset, endSec + abs, abs + 365*secondsPerDay, stdIsDST, true
} else {
return dstName, dstOffset, startSec + abs, endSec + abs, dstIsDST, true
}
}
// tzsetName returns the timezone name at the start of the tzset string s,
// and the remainder of s, and reports whether the parsing is OK.
func tzsetName(s string) (string, string, bool) {
if len(s) == 0 {
return "", "", false
}
if s[0] != '<' {
for i, r := range s {
switch r {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ',', '-', '+':
if i < 3 {
return "", "", false
}
return s[:i], s[i:], true
}
}
if len(s) < 3 {
return "", "", false
}
return s, "", true
} else {
for i, r := range s {
if r == '>' {
return s[1:i], s[i+1:], true
}
}
return "", "", false
}
}
// tzsetOffset returns the timezone offset at the start of the tzset string s,
// and the remainder of s, and reports whether the parsing is OK.
// The timezone offset is returned as a number of seconds.
func tzsetOffset(s string) (offset int, rest string, ok bool) {
if len(s) == 0 {
return 0, "", false
}
neg := false
if s[0] == '+' {
s = s[1:]
} else if s[0] == '-' {
s = s[1:]
neg = true
}
// The tzdata code permits values up to 24 * 7 here,
// although POSIX does not.
var hours int
hours, s, ok = tzsetNum(s, 0, 24*7)
if !ok {
return 0, "", false
}
off := hours * secondsPerHour
if len(s) == 0 || s[0] != ':' {
if neg {
off = -off
}
return off, s, true
}
var mins int
mins, s, ok = tzsetNum(s[1:], 0, 59)
if !ok {
return 0, "", false
}
off += mins * secondsPerMinute
if len(s) == 0 || s[0] != ':' {
if neg {
off = -off
}
return off, s, true
}
var secs int
secs, s, ok = tzsetNum(s[1:], 0, 59)
if !ok {
return 0, "", false
}
off += secs
if neg {
off = -off
}
return off, s, true
}
// ruleKind is the kinds of rules that can be seen in a tzset string.
type ruleKind int
const (
ruleJulian ruleKind = iota
ruleDOY
ruleMonthWeekDay
)
// rule is a rule read from a tzset string.
type rule struct {
kind ruleKind
day int
week int
mon int
time int // transition time
}
// tzsetRule parses a rule from a tzset string.
// It returns the rule, and the remainder of the string, and reports success.
func tzsetRule(s string) (rule, string, bool) {
var r rule
if len(s) == 0 {
return rule{}, "", false
}
ok := false
if s[0] == 'J' {
var jday int
jday, s, ok = tzsetNum(s[1:], 1, 365)
if !ok {
return rule{}, "", false
}
r.kind = ruleJulian
r.day = jday
} else if s[0] == 'M' {
var mon int
mon, s, ok = tzsetNum(s[1:], 1, 12)
if !ok || len(s) == 0 || s[0] != '.' {
return rule{}, "", false
}
var week int
week, s, ok = tzsetNum(s[1:], 1, 5)
if !ok || len(s) == 0 || s[0] != '.' {
return rule{}, "", false
}
var day int
day, s, ok = tzsetNum(s[1:], 0, 6)
if !ok {
return rule{}, "", false
}
r.kind = ruleMonthWeekDay
r.day = day
r.week = week
r.mon = mon
} else {
var day int
day, s, ok = tzsetNum(s, 0, 365)
if !ok {
return rule{}, "", false
}
r.kind = ruleDOY
r.day = day
}
if len(s) == 0 || s[0] != '/' {
r.time = 2 * secondsPerHour // 2am is the default
return r, s, true
}
offset, s, ok := tzsetOffset(s[1:])
if !ok {
return rule{}, "", false
}
r.time = offset
return r, s, true
}
// tzsetNum parses a number from a tzset string.
// It returns the number, and the remainder of the string, and reports success.
// The number must be between min and max.
func tzsetNum(s string, min, max int) (num int, rest string, ok bool) {
if len(s) == 0 {
return 0, "", false
}
num = 0
for i, r := range s {
if r < '0' || r > '9' {
if i == 0 || num < min {
return 0, "", false
}
return num, s[i:], true
}
num *= 10
num += int(r) - '0'
if num > max {
return 0, "", false
}
}
if num < min {
return 0, "", false
}
return num, "", true
}
// tzruleTime takes a year, a rule, and a timezone offset,
// and returns the number of seconds since the start of the year
// that the rule takes effect.
func tzruleTime(year int, r rule, off int) int {
var s int
switch r.kind {
case ruleJulian:
s = (r.day - 1) * secondsPerDay
if isLeap(year) && r.day >= 60 {
s += secondsPerDay
}
case ruleDOY:
s = r.day * secondsPerDay
case ruleMonthWeekDay:
// Zeller's Congruence.
m1 := (r.mon+9)%12 + 1
yy0 := year
if r.mon <= 2 {
yy0--
}
yy1 := yy0 / 100
yy2 := yy0 % 100
dow := ((26*m1-2)/10 + 1 + yy2 + yy2/4 + yy1/4 - 2*yy1) % 7
if dow < 0 {
dow += 7
}
// Now dow is the day-of-week of the first day of r.mon.
// Get the day-of-month of the first "dow" day.
d := r.day - dow
if d < 0 {
d += 7
}
for i := 1; i < r.week; i++ {
if d+7 >= daysIn(Month(r.mon), year) {
break
}
d += 7
}
d += int(daysBefore[r.mon-1])
if isLeap(year) && r.mon > 2 {
d++
}
s = d * secondsPerDay
}
return s + r.time - off
}
// lookupName returns information about the time zone with
// the given name (such as "EST") at the given pseudo-Unix time
// (what the given time of day would be in UTC).
func (l *Location) lookupName(name string, unix int64) (offset int, ok bool) {
l = l.get()
// First try for a zone with the right name that was actually
// in effect at the given time. (In Sydney, Australia, both standard
// and daylight-savings time are abbreviated "EST". Using the
// offset helps us pick the right one for the given time.
// It's not perfect: during the backward transition we might pick
// either one.)
for i := range l.zone {
zone := &l.zone[i]
if zone.name == name {
nam, offset, _, _, _ := l.lookup(unix - int64(zone.offset))
if nam == zone.name {
return offset, true
}
}
}
// Otherwise fall back to an ordinary name match.
for i := range l.zone {
zone := &l.zone[i]
if zone.name == name {
return zone.offset, true
}
}
// Otherwise, give up.
return
}
// NOTE(rsc): Eventually we will need to accept the POSIX TZ environment
// syntax too, but I don't feel like implementing it today.
var errLocation = errors.New("time: invalid location name")
var zoneinfo *string
var zoneinfoOnce sync.Once
// LoadLocation returns the Location with the given name.
//
// If the name is "" or "UTC", LoadLocation returns UTC.
// If the name is "Local", LoadLocation returns Local.
//
// Otherwise, the name is taken to be a location name corresponding to a file
// in the IANA Time Zone database, such as "America/New_York".
//
// LoadLocation looks for the IANA Time Zone database in the following
// locations in order:
//
// - the directory or uncompressed zip file named by the ZONEINFO environment variable
// - on a Unix system, the system standard installation location
// - $GOROOT/lib/time/zoneinfo.zip
// - the time/tzdata package, if it was imported
func LoadLocation(name string) (*Location, error) {
if name == "" || name == "UTC" {
return UTC, nil
}
if name == "Local" {
return Local, nil
}
if containsDotDot(name) || name[0] == '/' || name[0] == '\\' {
// No valid IANA Time Zone name contains a single dot,
// much less dot dot. Likewise, none begin with a slash.
return nil, errLocation
}
zoneinfoOnce.Do(func() {
env, _ := syscall.Getenv("ZONEINFO")
zoneinfo = &env
})
var firstErr error
if *zoneinfo != "" {
if zoneData, err := loadTzinfoFromDirOrZip(*zoneinfo, name); err == nil {
if z, err := LoadLocationFromTZData(name, zoneData); err == nil {
return z, nil
}
firstErr = err
} else if err != syscall.ENOENT {
firstErr = err
}
}
if z, err := loadLocation(name, platformZoneSources); err == nil {
return z, nil
} else if firstErr == nil {
firstErr = err
}
return nil, firstErr
}
// containsDotDot reports whether s contains "..".
func containsDotDot(s string) bool {
if len(s) < 2 {
return false
}
for i := 0; i < len(s)-1; i++ {
if s[i] == '.' && s[i+1] == '.' {
return true
}
}
return false
}
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