// Copyright 2009 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" "runtime" "syscall" "unsafe" ) //go:generate go run genzabbrs.go -output zoneinfo_abbrs_windows.go // TODO(rsc): Fall back to copy of zoneinfo files. // BUG(brainman,rsc): On Windows, the operating system does not provide complete // time zone information. // The implementation assumes that this year's rules for daylight savings // time apply to all previous and future years as well. // getKeyValue retrieves the string value kname associated with the open registry key kh. func getKeyValue(kh syscall.Handle, kname string) (string, error) { var buf [50]uint16 // buf needs to be large enough to fit zone descriptions var typ uint32 n := uint32(len(buf) * 2) // RegQueryValueEx's signature expects array of bytes, not uint16 p, _ := syscall.UTF16PtrFromString(kname) if err := syscall.RegQueryValueEx(kh, p, nil, &typ, (*byte)(unsafe.Pointer(&buf[0])), &n); err != nil { return "", err } if typ != syscall.REG_SZ { // null terminated strings only return "", errors.New("Key is not string") } return syscall.UTF16ToString(buf[:]), nil } // matchZoneKey checks if stdname and dstname match the corresponding "Std" // and "Dlt" key values in the kname key stored under the open registry key zones. func matchZoneKey(zones syscall.Handle, kname string, stdname, dstname string) (matched bool, err2 error) { var h syscall.Handle p, _ := syscall.UTF16PtrFromString(kname) if err := syscall.RegOpenKeyEx(zones, p, 0, syscall.KEY_READ, &h); err != nil { return false, err } defer syscall.RegCloseKey(h) s, err := getKeyValue(h, "Std") if err != nil { return false, err } if s != stdname { return false, nil } s, err = getKeyValue(h, "Dlt") if err != nil { return false, err } if s != dstname && dstname != stdname { return false, nil } return true, nil } // toEnglishName searches the registry for an English name of a time zone // whose zone names are stdname and dstname and returns the English name. func toEnglishName(stdname, dstname string) (string, error) { var zones syscall.Handle p, _ := syscall.UTF16PtrFromString(`SOFTWARE\Microsoft\Windows NT\CurrentVersion\Time Zones`) if err := syscall.RegOpenKeyEx(syscall.HKEY_LOCAL_MACHINE, p, 0, syscall.KEY_READ, &zones); err != nil { return "", err } defer syscall.RegCloseKey(zones) var count uint32 if err := syscall.RegQueryInfoKey(zones, nil, nil, nil, &count, nil, nil, nil, nil, nil, nil, nil); err != nil { return "", err } var buf [50]uint16 // buf needs to be large enough to fit zone descriptions for i := uint32(0); i < count; i++ { n := uint32(len(buf)) if syscall.RegEnumKeyEx(zones, i, &buf[0], &n, nil, nil, nil, nil) != nil { continue } kname := syscall.UTF16ToString(buf[:]) matched, err := matchZoneKey(zones, kname, stdname, dstname) if err == nil && matched { return kname, nil } } return "", errors.New(`English name for time zone "` + stdname + `" not found in registry`) } // extractCAPS extracts capital letters from description desc. func extractCAPS(desc string) string { var short []rune for _, c := range desc { if 'A' <= c && c <= 'Z' { short = append(short, rune(c)) } } return string(short) } // abbrev returns the abbreviations to use for the given zone z. func abbrev(z *syscall.Timezoneinformation) (std, dst string) { stdName := syscall.UTF16ToString(z.StandardName[:]) a, ok := abbrs[stdName] if !ok { dstName := syscall.UTF16ToString(z.DaylightName[:]) // Perhaps stdName is not English. Try to convert it. englishName, err := toEnglishName(stdName, dstName) if err == nil { a, ok = abbrs[englishName] if ok { return a.std, a.dst } } // fallback to using capital letters return extractCAPS(stdName), extractCAPS(dstName) } return a.std, a.dst } // pseudoUnix returns the pseudo-Unix time (seconds since Jan 1 1970 *LOCAL TIME*) // denoted by the system date+time d in the given year. // It is up to the caller to convert this local time into a UTC-based time. func pseudoUnix(year int, d *syscall.Systemtime) int64 { // Windows specifies daylight savings information in "day in month" format: // d.Month is month number (1-12) // d.DayOfWeek is appropriate weekday (Sunday=0 to Saturday=6) // d.Day is week within the month (1 to 5, where 5 is last week of the month) // d.Hour, d.Minute and d.Second are absolute time day := 1 t := Date(year, Month(d.Month), day, int(d.Hour), int(d.Minute), int(d.Second), 0, UTC) i := int(d.DayOfWeek) - int(t.Weekday()) if i < 0 { i += 7 } day += i if week := int(d.Day) - 1; week < 4 { day += week * 7 } else { // "Last" instance of the day. day += 4 * 7 if day > daysIn(Month(d.Month), year) { day -= 7 } } return t.sec + int64(day-1)*secondsPerDay + internalToUnix } func initLocalFromTZI(i *syscall.Timezoneinformation) { l := &localLoc nzone := 1 if i.StandardDate.Month > 0 { nzone++ } l.zone = make([]zone, nzone) stdname, dstname := abbrev(i) std := &l.zone[0] std.name = stdname if nzone == 1 { // No daylight savings. std.offset = -int(i.Bias) * 60 l.cacheStart = alpha l.cacheEnd = omega l.cacheZone = std l.tx = make([]zoneTrans, 1) l.tx[0].when = l.cacheStart l.tx[0].index = 0 return } // StandardBias must be ignored if StandardDate is not set, // so this computation is delayed until after the nzone==1 // return above. std.offset = -int(i.Bias+i.StandardBias) * 60 dst := &l.zone[1] dst.name = dstname dst.offset = -int(i.Bias+i.DaylightBias) * 60 dst.isDST = true // Arrange so that d0 is first transition date, d1 second, // i0 is index of zone after first transition, i1 second. d0 := &i.StandardDate d1 := &i.DaylightDate i0 := 0 i1 := 1 if d0.Month > d1.Month { d0, d1 = d1, d0 i0, i1 = i1, i0 } // 2 tx per year, 100 years on each side of this year l.tx = make([]zoneTrans, 400) t := Now().UTC() year := t.Year() txi := 0 for y := year - 100; y < year+100; y++ { tx := &l.tx[txi] tx.when = pseudoUnix(y, d0) - int64(l.zone[i1].offset) tx.index = uint8(i0) txi++ tx = &l.tx[txi] tx.when = pseudoUnix(y, d1) - int64(l.zone[i0].offset) tx.index = uint8(i1) txi++ } } var usPacific = syscall.Timezoneinformation{ Bias: 8 * 60, StandardName: [32]uint16{ 'P', 'a', 'c', 'i', 'f', 'i', 'c', ' ', 'S', 't', 'a', 'n', 'd', 'a', 'r', 'd', ' ', 'T', 'i', 'm', 'e', }, StandardDate: syscall.Systemtime{Month: 11, Day: 1, Hour: 2}, DaylightName: [32]uint16{ 'P', 'a', 'c', 'i', 'f', 'i', 'c', ' ', 'D', 'a', 'y', 'l', 'i', 'g', 'h', 't', ' ', 'T', 'i', 'm', 'e', }, DaylightDate: syscall.Systemtime{Month: 3, Day: 2, Hour: 2}, DaylightBias: -60, } var aus = syscall.Timezoneinformation{ Bias: -10 * 60, StandardName: [32]uint16{ 'A', 'U', 'S', ' ', 'E', 'a', 's', 't', 'e', 'r', 'n', ' ', 'S', 't', 'a', 'n', 'd', 'a', 'r', 'd', ' ', 'T', 'i', 'm', 'e', }, StandardDate: syscall.Systemtime{Month: 4, Day: 1, Hour: 3}, DaylightName: [32]uint16{ 'A', 'U', 'S', ' ', 'E', 'a', 's', 't', 'e', 'r', 'n', ' ', 'D', 'a', 'y', 'l', 'i', 'g', 'h', 't', ' ', 'T', 'i', 'm', 'e', }, DaylightDate: syscall.Systemtime{Month: 10, Day: 1, Hour: 2}, DaylightBias: -60, } func initTestingZone() { initLocalFromTZI(&usPacific) } func initAusTestingZone() { initLocalFromTZI(&aus) } func initLocal() { var i syscall.Timezoneinformation if _, err := syscall.GetTimeZoneInformation(&i); err != nil { localLoc.name = "UTC" return } initLocalFromTZI(&i) } func loadLocation(name string) (*Location, error) { if z, err := loadZoneFile(runtime.GOROOT()+`\lib\time\zoneinfo.zip`, name); err == nil { z.name = name return z, nil } return nil, errors.New("unknown time zone " + name) } func forceZipFileForTesting(zipOnly bool) { // We only use the zip file anyway. }