NAME
ntpdate
—
set the date and time via
NTP
SYNOPSIS
ntpdate |
[-46bBdoqsuv ] [-a
key] [-e
authdelay] [-k
keyfile] [-o
version] [-p
samples] [-t
timeout] server ... |
DESCRIPTION
Note: The functionality of this program is now available in the ntpd(8) program. See the-q
command line option
in the ntpd(8) page. After a suitable period of mourning, the
ntpdate
utility is to be retired from this
distribution.
The ntpdate
utility sets the local date
and time by polling the Network Time Protocol (NTP) server(s) given as the
server arguments to determine the correct time. It
must be run as root on the local host. A number of samples are obtained from
each of the servers specified and a subset of the NTP clock filter and
selection algorithms are applied to select the best of these. Note that the
accuracy and reliability of ntpdate
depends on the
number of servers, the number of polls each time it is run and the interval
between runs.
The following options are available:
-4
- Force DNS resolution of following host names on the command line to the IPv4 namespace.
-6
- Force DNS resolution of following host names on the command line to the IPv6 namespace.
-a
key- Enable the authentication function and specify the key identifier to be used for authentication as the argument key. The keys and key identifiers must match in both the client and server key files. The default is to disable the authentication function.
-B
- Force the time to always be slewed using the adjtime(2) system call, even if the measured offset is greater than +-128 ms. The default is to step the time using settimeofday(2) if the offset is greater than +-128 ms. Note that, if the offset is much greater than +-128 ms in this case, it can take a long time (hours) to slew the clock to the correct value. During this time, the host should not be used to synchronize clients.
-b
- Force the time to be stepped using the settimeofday(2) system call, rather than slewed (default) using the adjtime(2) system call. This option should be used when called from a startup file at boot time.
-d
- Enable the debugging mode, in which
ntpdate
will go through all the steps, but not adjust the local clock. Information useful for general debugging will also be printed. -e
authdelay- Specify the processing delay to perform an authentication function as the value authdelay, in seconds and fraction (see ntpd(8) for details). This number is usually small enough to be negligible for most purposes, though specifying a value may improve timekeeping on very slow CPU's.
-k
keyfile- Specify the path for the authentication key file as the string keyfile. The default is /etc/ntp.keys. This file should be in the format described in ntpd(8).
-o
version- Specify the NTP version for outgoing packets as the integer
version, which can be 1 or 2. The default is 3. This
allows
ntpdate
to be used with older NTP versions. -p
samples- Specify the number of samples to be acquired from each server as the integer samples, with values from 1 to 8 inclusive. The default is 4.
-q
- Query only - do not set the clock.
-s
- Divert logging output from the standard output (default) to the system syslog(3) facility. This is designed primarily for convenience of cron(8) scripts.
-t
timeout- Specify the maximum time waiting for a server response as the value timeout, in seconds and fraction. The value is rounded to a multiple of 0.2 seconds. The default is 1 second, a value suitable for polling across a LAN.
-u
- Direct
ntpdate
to use an unprivileged port for outgoing packets. This is most useful when behind a firewall that blocks incoming traffic to privileged ports, and you want to synchronise with hosts beyond the firewall. Note that the-d
option always uses unprivileged ports. -v
- Be verbose. This option will cause
ntpdate
's version identification string to be logged.
The ntpdate
utility can be run manually as
necessary to set the host clock, or it can be run from the host startup
script to set the clock at boot time. This is useful in some cases to set
the clock initially before starting the NTP daemon
ntpd(8). It is also possible to run ntpdate
from a cron(8) script. However, it is important to note that
ntpdate
with contrived
cron(8) scripts is no substitute for the NTP daemon, which uses
sophisticated algorithms to maximize accuracy and reliability while
minimizing resource use. Finally, since ntpdate
does
not discipline the host clock frequency as does
ntpd(8), the accuracy using ntpdate
is
limited.
Time adjustments are made by ntpdate
in
one of two ways. If ntpdate
determines the clock is
in error more than 0.5 second it will simply step the time by calling the
system
settimeofday(2) routine. If the error is less than 0.5
seconds, it will slew the time by calling the system
adjtime(2) routine. The latter technique is less disruptive and more
accurate when the error is small, and works quite well when
ntpdate
is run by
cron(8) every hour or two.
The ntpdate
utility will decline to set
the date if an NTP server daemon (e.g.,
ntpd(8)) is running on the same host. When running
ntpdate
on a regular basis from
cron(8) as an alternative to running a daemon, doing so once every
hour or two will result in precise enough timekeeping to avoid stepping the
clock.
Note that in contexts where a host name is expected, a
-4
qualifier preceding the host name forces DNS
resolution to the IPv4 namespace, while a -6
qualifier forces DNS resolution to the IPv6 namespace.
If NetInfo support is compiled into
ntpdate
, then the server
argument is optional if ntpdate
can find a time
server in the NetInfo configuration for
ntpd(8).
FILES
- /etc/ntp.keys
- contains the encryption keys used by
ntpdate
.
SEE ALSO
BUGS
The slew adjustment is actually 50% larger than the measured offset, since this (it is argued) will tend to keep a badly drifting clock more accurate. This is probably not a good idea and may cause a troubling hunt for some values of the kernel variables kern.clockrate.tick and kern.clockrate.tickadj.