Back to systemd


systemd 30 and newer include systemd-timedated. This is a tiny daemon that can be used to control the system time and related settings. It currently offers access to four settings:

  • The system time
  • The system timezone
  • A boolean controlling whether the system RTC is in local or UTC timezone
  • Whether the NTP services is enabled/started or disabled/stopped. See systemd-timedated.service(8) for more information.

The daemon is accessible via D-Bus:

$ gdbus introspect --system --dest org.freedesktop.timedate1 --object-path /org/freedesktop/timedate1
node /org/freedesktop/timedate1 {
  interface org.freedesktop.timedate1 {
      SetTime(in  x usec_utc,
              in  b relative,
              in  b user_interaction);
      SetTimezone(in  s timezone,
                  in  b user_interaction);
      SetLocalRTC(in  b local_rtc,
                  in  b fix_system,
                  in  b user_interaction);
      SetNTP(in  b use_ntp,
             in  b user_interaction);
      readonly s Timezone = 'Europe/Berlin';
      readonly b LocalRTC = false;
      readonly b NTP = true;
  interface org.freedesktop.DBus.Properties {
  interface org.freedesktop.DBus.Introspectable {
  interface org.freedesktop.DBus.Peer {

Use SetTime() to change the system clock. Pass a value of microseconds since 1 Jan 1970 UTC. If "relative" is true the passed usec value will be added to the current system time, if it is false the current system time will be set to the passed usec value. If the system time is set with this call the RTC will be updated as well.

Use SetTimezone() to set the system timezone. Pass a value like "Europe/Berlin" to set the timezone. Valid timezones you may parse from /usr/share/zoneinfo/ If the RTC is configured to be maintained in local time it will be updated accordingly.

Use SetLocalRTC() to control whether the RTC is in local time or UTC. It is strongly recommended to maintain the RTC in UTC. Some OSes (Windows) however maintain the RTC in local time which might make it necessary to enable this feature. However, this creates various problems as daylight changes might be missed. If fix_system is passed "true" the time from the RTC is read again and the system clock adjusted according to the new setting. If fix_system is passed "false" the system time is written to the RTC taking the new setting into account. Use fix_system=true in installers and livecds where the RTC is probably more reliable than the system time. Use fix_system=false in configuration UIs that are run during normal operation and where the system clock is probably more reliable than the RTC.

Use SetNTP() to control whether the system clock is synchronized with the network using NTP. This will enable/start resp. disable/stop the NTP service.

Whenever the timezone and local_rtc settings are changed via the daemon PropertyChanged signals are sent out to which clients can subscribe. Changing the time settings using this interface is authenticated via PolicyKit.

Note that this service will not inform you about system time changes. Use timerfd() with CLOCK_REALTIME and TFD_TIMER_CANCEL_ON_SET for that.

The user_interaction boolean parameters can be used to control whether PolicyKit should interactively ask the user for authentication credentials if it needs to.

The PolicyKit action for SetTimezone() is org.freedesktop.timedate1.set-timezone. For SetLocalRTC() it is org.freedesktop.timedate1.set-local-rtc, for SetTime() it is org.freedesktop.timedate1.set-time and for SetNTP() it is org.freedesktop.timedate1.set-ntp.

The sources for timedated are available in git for review:

For more information how the system clock and RTC interact see

Plan: We plan to add a new boolean "CanNTP" soon, which can be used to determine whether the system can do NTP or not.

Hooking in an NTP Implementation

systemd-timedated can enable/disable NTP implementations. Since multiple NTP implementations exist the unit to enable/start/disable/stop for this is not hardcoded in timedated and may be configured via drop-in files in /usr/lib/systemd/ntp-units.d/*.list. An NTP implementation should ship one of these files in its RPM listing the unit to disable or enable. timedated will then enable/disable the first unit it finds from all .list files in that directory. The files are sorted alphabetically by their names. A single file can list multiple unit files. Empty lines and lines starting with # are ignored. Example: the NTP implementation ntpd could ship:


as /usr/lib/systemd/ntp-units.d/60-ntpd.list. Similar, chrony could ship:


as /usr/lib/systemd/ntp-units.d/50-chrony.list. If both servers are installed chrony would be controlled preferably by timedated, since 50-chrony.list is alphabetically before 60-ntpd.list.

Note that distributions can also override how the individual implementations order themselves alphabetically. For example, a distribution could drop in this:

# Prefer ntpd over chronyd

as /usr/lib/systemd/ntp-units.d/00-fedora.list in which case this overrides the others, since 00-fedora.list is alphabetically before both 50-chrony.list and 60-ntpd.list.

This D-Bus interface follows the usual interface versioning guidelines.