Difference between revisions of "Time"
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== Time Zone ==
== Time Zone ==
== Time Skew ==
== Time Skew ==
Revision as of 17:23, 26 October 2012
In an operating system the time (clock) is determined by four parts: Time value, Time standard, Time Zone, and DST (Daylight Saving Time if applicable). This article explains what they are and how to read/set them. To maintain accurate system time on a network see Network Time Protocol.
Hardware clock and system clock
A computer has two clocks that need to be considered: the "Hardware clock" and the "System/software clock".
Hardware clock (a.k.a. the Real Time Clock (RTC) or CMOS clock) stores the values of: Year, Month, Day, Hour, Minute, and the Seconds. It does not have the ability to store the time standard (localtime or UTC), nor whether DST is used.
System clock (a.k.a. the software clock) keeps track of: Time, Time Zone, and DST if applicable. It is calculated by the Linux kernel as the number of seconds since midnight January 1st 1970, UTC. The initial value of the system clock is calculated from the hardware clock, dependent on the value of the HARDWARECLOCK variable defined in
/etc/rc.conf. After boot-up has completed the system clock runs independently of the hardware clock. The Linux kernel keeps track of the system clock by counting timer interrupts.
To check the current hardware clock time and system clock time respectively (the hardware clock time is presented in localtime even if the hardware clock set to UTC):
# hwclock --show $ date
To set the system clock directly:
# date MMDDhhmmYYYY
To set the hardware clock directly (the argument must be in local time, even if you keep your hardware clock in UTC.):
# hwclock --set --date="YYYY-MM-DD hh:mm:ss"
The hardware clock can be set from the system clock and vice versa:
# hwclock --systohc # hwclock --hctosys
Standard behavior of most operating systems is:
- Set the system clock from the hardware clock on boot
- Keep accurate time of the system clock with an NTP daemon
- Set the hardware clock from the system clock on shutdown. (On Arch Linux, the hardware clock is not set from system clock on shutdown. Although, it is adjusted for systematic drift with the --adjust flag).
Arch Linux initscripts use hwclock to set the system clocks on boot, if
hwclock is in the daemons list in
/etc/rc.conf hwclock will also sync time on shutdown. Using the
hwclock daemon is not recommended if running the NTP daemon as the NTP daemon adjusts the hardware clock, which may lead to
hwclock --adjust miscalculations.
There are two time standards: localtime and Coordinated Universal Time (UTC). The localtime standard is dependent on the current time zone, while UTC is the global time standard and is independent of time zone values. Though conceptually different, UTC is also known as GMT (Greenwich Mean Time).
The standard used by hardware clock (CMOS clock, the time that appears in BIOS) is defined by the operating system. By default, Windows uses localtime, Mac OS uses UTC, and UNIX-like operating systems vary. An OS that uses the UTC standard, generally, will consider CMOS (hardware clock) time a UTC time (GMT, Greenwich time) and make an adjustment to it while setting the System time on boot according to your time zone.
When using Linux it is beneficial to have the hardware clock set to the UTC standard and made known to all operating systems. Defining the hardware clock in Linux as UTC means that Daylight Saving Time will automatically be accounted for. If using the localtime standard the system clock will not be changed for DST occurrences assuming that another operating system will take care of the DST switch (and provided no NTP agent is operating).
You can set the hardware clock time standard through the command line. You can check what you have set your Arch Linux install to use by:
$ cat /etc/adjtime
The hardware clock can be queried and set with the
hwclock command. To change the hardware clock time standard to localtime use:
# hwclock -w --localtime
And to set it to UTC use:
# hwclock -w --utc
These will generate
/etc/adjtime automatically; no further configuration is required.
During kernel startup, at the point when the RTC driver is loaded, the system clock may be set from the hardware clock. Whether this occurs or not depends on the hardware platform, the version of the kernel and kernel build options. If this does occur, at this point in the boot sequence, the hardware clock time is assumed to be UTC and the value of
/proc/sys/class/rtcN/hctosys (N=0,1,2,..) will be set to 1. Later during execution of
/etc/rc.sysinit, the system clock is set again from the hardware clock dependent on the value of HARDWARECLOCK. Hence, having the hardware clock using localtime may cause some unexpected behavior during the boot sequence; e.g system time going backwards, which is always a bad idea.
UTC in Windows
regedit, add a
DWORD value with hexadecimal value
1 to the registry:
Alternatively, create a
*.reg file (on the desktop) with the following content and double click it to import it into registry:
Windows Registry Editor Version 5.00 [HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\TimeZoneInformation] "RealTimeIsUniversal"=dword:00000001
Windows XP and Windows Vista SP1 have support for setting the time standard as UTC and can be activated in the same way. However, there is a bug after resuming from the suspend/hibernation state that resets the clock to localtime. For these operating systems it is recommended to use localtime.
Should Windows ask to update the clock due to DST changes, let it. It will leave the clock in UTC as expected, only correcting the displayed time.
The hardware clock and system clock time may need to be updated after setting this value.
A common source of problems is that different programs that interact with the real time clock do not agree whether or not it should be in UTC or local time. This tends to manifest itself in the time being consistently off by the same number of hours as your time zone differs from UTC.
This problem can usually be solved by only configuring the real time device in one location, by removing the HARDWARECLOCK line from
/etc/rc.conf and instead configuring this value in
/etc/adjtime. This is the default configuration location for the hwclock program, and initscripts will use this value if HARDWARECLOCK is not set in rc.conf.
Once this is configured correctly, make sure that both system time and the real time clock are up-to-date before the next reboot.
To check the current zone:
$ timedatectl status
To list available zones:
$ timedatectl list-timezones
To change your time zone:
# timedatectl set-timezone <Zone>/<SubZone>
# timedatectl set-timezone Canada/Eastern
Every clock has a value that differs from real time (the best representation of which being International Atomic Time); no clock is perfect. A quartz-based electronic clock keeps imperfect time, but maintains a consistent inaccuracy. This base 'inaccuracy' is known as 'time skew' or 'time drift'.
When the hardware clock is set with
hwclock, a new drift value is calculated in seconds per day. The drift value is calculated by using the difference between the new value set and the hardware clock value just before the set, taking into account the value of the previous drift value and the last time the hardware clock was set. The new drift value and the time when the clock was set is written to the file
/etc/adjtime overwriting the previous values. The hardware clock can be adjusted for drift when the command
hwclock --adjust is run; this occurs by default on shutdown if the
hwclock daemon is enabled.
If the hardware clock keeps losing or gaining time in large increments, it is possible that an invalid drift has been recorded. This can happen if you have set the hardware clock time incorrectly or your time standard is not synchronized with a Windows or Mac OS install. The drift value can be removed by removing the file
/etc/adjtime, then set the correct hardware clock and system clock time, and check if your time standard is correct.
The software clock is very accurate but like most clocks is not perfectly accurate and will drift as well. Though rarely, the system clock can lose accuracy if the kernel skips interrupts. There are some tools to improve software clock accuracy:
- NTP can synchronize the software clock of a GNU/Linux system with internet time servers using the Network Time Protocol. NTP can also adjust the interrupt frequency and the number of ticks per second to decrease system clock drift.
- AUR can adjust kernel time variables like interrupt frequency to help improve the system clock time drift. AUR in