8560674afd
Thanks to roberto for providing pointers to wedge this into HEAD. Approved by: roberto
612 lines
18 KiB
Plaintext
612 lines
18 KiB
Plaintext
/* -*- Mode: Text -*- */
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autogen definitions options;
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#include copyright.def
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prog-name = "ntpd";
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prog-title = "NTP daemon program";
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argument = "[ <server1> ... <serverN> ]";
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#include ntpdbase-opts.def
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/* explain: Additional information whenever the usage routine is invoked */
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explain = <<- _END_EXPLAIN
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_END_EXPLAIN;
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doc-section = {
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ds-type = 'DESCRIPTION';
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ds-format = 'mdoc';
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ds-text = <<- _END_PROG_MDOC_DESCRIP
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The
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.Nm
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utility is an operating system daemon which sets
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and maintains the system time of day in synchronism with Internet
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standard time servers.
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It is a complete implementation of the
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Network Time Protocol (NTP) version 4, as defined by RFC-5905,
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but also retains compatibility with
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version 3, as defined by RFC-1305, and versions 1
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and 2, as defined by RFC-1059 and RFC-1119, respectively.
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.Pp
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The
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.Nm
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utility does most computations in 64-bit floating point
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arithmetic and does relatively clumsy 64-bit fixed point operations
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only when necessary to preserve the ultimate precision, about 232
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picoseconds.
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While the ultimate precision is not achievable with
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ordinary workstations and networks of today, it may be required
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with future gigahertz CPU clocks and gigabit LANs.
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.Pp
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Ordinarily,
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.Nm
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reads the
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.Xr ntp.conf 5
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configuration file at startup time in order to determine the
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synchronization sources and operating modes.
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It is also possible to
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specify a working, although limited, configuration entirely on the
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command line, obviating the need for a configuration file.
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This may
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be particularly useful when the local host is to be configured as a
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broadcast/multicast client, with all peers being determined by
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listening to broadcasts at run time.
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.Pp
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If NetInfo support is built into
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.Nm ,
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then
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.Nm
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will attempt to read its configuration from the
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NetInfo if the default
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.Xr ntp.conf 5
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file cannot be read and no file is
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specified by the
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.Fl c
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option.
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.Pp
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Various internal
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.Nm
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variables can be displayed and
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configuration options altered while the
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.Nm
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is running
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using the
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.Xr ntpq 1ntpqmdoc
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and
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.Xr ntpdc 1ntpdcmdoc
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utility programs.
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.Pp
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When
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.Nm
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starts it looks at the value of
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.Xr umask 2 ,
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and if zero
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.Nm
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will set the
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.Xr umask 2
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to 022.
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_END_PROG_MDOC_DESCRIP;
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};
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doc-section = {
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ds-type = 'USAGE';
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ds-format = 'mdoc';
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ds-text = <<- _END_MDOC_USAGE
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.Ss "How NTP Operates"
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The
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.Nm
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utility operates by exchanging messages with
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one or more configured servers over a range of designated poll intervals.
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When
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started, whether for the first or subsequent times, the program
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requires several exchanges from the majority of these servers so
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the signal processing and mitigation algorithms can accumulate and
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groom the data and set the clock.
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In order to protect the network
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from bursts, the initial poll interval for each server is delayed
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an interval randomized over a few seconds.
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At the default initial poll
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interval of 64s, several minutes can elapse before the clock is
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set.
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This initial delay to set the clock
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can be safely and dramatically reduced using the
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.Cm iburst
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keyword with the
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.Ic server
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configuration
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command, as described in
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.Xr ntp.conf 5 .
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.Pp
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Most operating systems and hardware of today incorporate a
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time-of-year (TOY) chip to maintain the time during periods when
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the power is off.
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When the machine is booted, the chip is used to
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initialize the operating system time.
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After the machine has
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synchronized to a NTP server, the operating system corrects the
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chip from time to time.
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In the default case, if
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.Nm
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detects that the time on the host
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is more than 1000s from the server time,
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.Nm
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assumes something must be terribly wrong and the only
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reliable action is for the operator to intervene and set the clock
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by hand.
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(Reasons for this include there is no TOY chip,
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or its battery is dead, or that the TOY chip is just of poor quality.)
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This causes
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.Nm
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to exit with a panic message to
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the system log.
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The
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.Fl g
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option overrides this check and the
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clock will be set to the server time regardless of the chip time
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(up to 68 years in the past or future \(em
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this is a limitation of the NTPv4 protocol).
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However, and to protect against broken hardware, such as when the
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CMOS battery fails or the clock counter becomes defective, once the
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clock has been set an error greater than 1000s will cause
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.Nm
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to exit anyway.
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.Pp
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Under ordinary conditions,
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.Nm
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adjusts the clock in
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small steps so that the timescale is effectively continuous and
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without discontinuities.
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Under conditions of extreme network
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congestion, the roundtrip delay jitter can exceed three seconds and
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the synchronization distance, which is equal to one-half the
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roundtrip delay plus error budget terms, can become very large.
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The
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.Nm
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algorithms discard sample offsets exceeding 128 ms,
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unless the interval during which no sample offset is less than 128
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ms exceeds 900s.
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The first sample after that, no matter what the
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offset, steps the clock to the indicated time.
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In practice this
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reduces the false alarm rate where the clock is stepped in error to
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a vanishingly low incidence.
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.Pp
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As the result of this behavior, once the clock has been set it
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very rarely strays more than 128 ms even under extreme cases of
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network path congestion and jitter.
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Sometimes, in particular when
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.Nm
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is first started without a valid drift file
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on a system with a large intrinsic drift
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the error might grow to exceed 128 ms,
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which would cause the clock to be set backwards
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if the local clock time is more than 128 s
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in the future relative to the server.
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In some applications, this behavior may be unacceptable.
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There are several solutions, however.
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If the
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.Fl x
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option is included on the command line, the clock will
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never be stepped and only slew corrections will be used.
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But this choice comes with a cost that
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should be carefully explored before deciding to use
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the
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.Fl x
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option.
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The maximum slew rate possible is limited
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to 500 parts-per-million (PPM) as a consequence of the correctness
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principles on which the NTP protocol and algorithm design are
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based.
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As a result, the local clock can take a long time to
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converge to an acceptable offset, about 2,000 s for each second the
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clock is outside the acceptable range.
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During this interval the
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local clock will not be consistent with any other network clock and
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the system cannot be used for distributed applications that require
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correctly synchronized network time.
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.Pp
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In spite of the above precautions, sometimes when large
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frequency errors are present the resulting time offsets stray
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outside the 128-ms range and an eventual step or slew time
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correction is required.
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If following such a correction the
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frequency error is so large that the first sample is outside the
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acceptable range,
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.Nm
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enters the same state as when the
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.Pa ntp.drift
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file is not present.
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The intent of this behavior
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is to quickly correct the frequency and restore operation to the
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normal tracking mode.
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In the most extreme cases
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(the host
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.Cm time.ien.it
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comes to mind), there may be occasional
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step/slew corrections and subsequent frequency corrections.
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It
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helps in these cases to use the
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.Cm burst
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keyword when
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configuring the server, but
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ONLY
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when you have permission to do so from the owner of the target host.
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.Pp
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Finally,
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in the past many startup scripts would run
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.Xr ntpdate 1ntpdatemdoc
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to get the system clock close to correct before starting
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.Xr ntpd 1ntpdmdoc ,
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but this was never more than a mediocre hack and is no longer needed.
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If you are following the instructions in
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.Sx "Starting NTP (Best Current Practice)"
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and you still need to set the system time before starting
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.Nm ,
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please open a bug report and document what is going on,
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and then look at using
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.Xr sntp 1sntpmdoc .
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.Pp
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There is a way to start
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.Xr ntpd 1ntpdmdoc
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that often addresses all of the problems mentioned above.
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.Ss "Starting NTP (Best Current Practice)"
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First, use the
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.Cm iburst
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option on your
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.Cm server
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entries.
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.Pp
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If you can also keep a good
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.Pa ntp.drift
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file then
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.Xr ntpd 1ntpdmdoc
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will effectively "warm-start" and your system's clock will
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be stable in under 11 seconds' time.
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.Pp
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As soon as possible in the startup sequence, start
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.Xr ntpd 1ntpdmdoc
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with at least the
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.Fl g
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and perhaps the
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.Fl N
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options.
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Then,
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start the rest of your "normal" processes.
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This will give
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.Xr ntpd 1ntpdmdoc
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as much time as possible to get the system's clock synchronized and stable.
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.Pp
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Finally,
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if you have processes like
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.Cm dovecot
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or database servers
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that require
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monotonically-increasing time,
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run
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.Xr ntp-wait 1ntp-waitmdoc
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as late as possible in the boot sequence
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(perhaps with the
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.Fl v
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flag)
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and after
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.Xr ntp-wait 1ntp-waitmdoc
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exits successfully
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it is as safe as it will ever be to start any process that require
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stable time.
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.Ss "Frequency Discipline"
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The
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.Nm
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behavior at startup depends on whether the
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frequency file, usually
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.Pa ntp.drift ,
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exists.
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This file
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contains the latest estimate of clock frequency error.
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When the
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.Nm
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is started and the file does not exist, the
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.Nm
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enters a special mode designed to quickly adapt to
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the particular system clock oscillator time and frequency error.
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This takes approximately 15 minutes, after which the time and
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frequency are set to nominal values and the
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.Nm
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enters
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normal mode, where the time and frequency are continuously tracked
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relative to the server.
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After one hour the frequency file is
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created and the current frequency offset written to it.
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When the
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.Nm
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is started and the file does exist, the
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.Nm
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frequency is initialized from the file and enters normal mode
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immediately.
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After that the current frequency offset is written to
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the file at hourly intervals.
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.Ss "Operating Modes"
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The
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.Nm
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utility can operate in any of several modes, including
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symmetric active/passive, client/server broadcast/multicast and
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manycast, as described in the
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.Qq Association Management
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page
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(available as part of the HTML documentation
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provided in
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.Pa /usr/share/doc/ntp ) .
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It normally operates continuously while
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monitoring for small changes in frequency and trimming the clock
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for the ultimate precision.
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However, it can operate in a one-time
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mode where the time is set from an external server and frequency is
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set from a previously recorded frequency file.
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A
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broadcast/multicast or manycast client can discover remote servers,
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compute server-client propagation delay correction factors and
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configure itself automatically.
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This makes it possible to deploy a
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fleet of workstations without specifying configuration details
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specific to the local environment.
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.Pp
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By default,
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.Nm
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runs in continuous mode where each of
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possibly several external servers is polled at intervals determined
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by an intricate state machine.
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The state machine measures the
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incidental roundtrip delay jitter and oscillator frequency wander
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and determines the best poll interval using a heuristic algorithm.
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Ordinarily, and in most operating environments, the state machine
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will start with 64s intervals and eventually increase in steps to
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1024s.
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A small amount of random variation is introduced in order to
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avoid bunching at the servers.
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In addition, should a server become
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unreachable for some time, the poll interval is increased in steps
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to 1024s in order to reduce network overhead.
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.Pp
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In some cases it may not be practical for
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.Nm
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to run continuously.
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A common workaround has been to run the
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.Xr ntpdate 1ntpdatemdoc
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or
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.Xr sntp 1sntpmdoc
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programs from a
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.Xr cron 8
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job at designated
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times.
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However, these programs do not have the crafted signal
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processing, error checking or mitigation algorithms of
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.Nm .
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The
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.Fl q
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option is intended for this purpose.
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Setting this option will cause
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.Nm
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to exit just after
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setting the clock for the first time.
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The procedure for initially
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setting the clock is the same as in continuous mode; most
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applications will probably want to specify the
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.Cm iburst
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keyword with the
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.Ic server
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configuration command.
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With this
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keyword a volley of messages are exchanged to groom the data and
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the clock is set in about 10 s.
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If nothing is heard after a
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couple of minutes, the daemon times out and exits.
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After a suitable
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period of mourning, the
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.Xr ntpdate 1ntpdatemdoc
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program will be
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retired.
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.Pp
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When kernel support is available to discipline the clock
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frequency, which is the case for stock Solaris, Tru64, Linux and
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.Fx ,
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a useful feature is available to discipline the clock
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frequency.
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First,
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.Nm
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is run in continuous mode with
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selected servers in order to measure and record the intrinsic clock
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frequency offset in the frequency file.
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It may take some hours for
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the frequency and offset to settle down.
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Then the
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.Nm
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is
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stopped and run in one-time mode as required.
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At each startup, the
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frequency is read from the file and initializes the kernel
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frequency.
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.Ss "Poll Interval Control"
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This version of NTP includes an intricate state machine to
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reduce the network load while maintaining a quality of
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synchronization consistent with the observed jitter and wander.
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There are a number of ways to tailor the operation in order enhance
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accuracy by reducing the interval or to reduce network overhead by
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increasing it.
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However, the user is advised to carefully consider
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the consequences of changing the poll adjustment range from the
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default minimum of 64 s to the default maximum of 1,024 s.
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The
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default minimum can be changed with the
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.Ic tinker
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.Cm minpoll
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command to a value not less than 16 s.
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This value is used for all
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configured associations, unless overridden by the
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.Cm minpoll
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option on the configuration command.
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Note that most device drivers
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will not operate properly if the poll interval is less than 64 s
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and that the broadcast server and manycast client associations will
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also use the default, unless overridden.
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.Pp
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In some cases involving dial up or toll services, it may be
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useful to increase the minimum interval to a few tens of minutes
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and maximum interval to a day or so.
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Under normal operation
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conditions, once the clock discipline loop has stabilized the
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interval will be increased in steps from the minimum to the
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maximum.
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However, this assumes the intrinsic clock frequency error
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is small enough for the discipline loop correct it.
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The capture
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range of the loop is 500 PPM at an interval of 64s decreasing by a
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factor of two for each doubling of interval.
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At a minimum of 1,024
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s, for example, the capture range is only 31 PPM.
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If the intrinsic
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error is greater than this, the drift file
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.Pa ntp.drift
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will
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have to be specially tailored to reduce the residual error below
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this limit.
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Once this is done, the drift file is automatically
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updated once per hour and is available to initialize the frequency
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on subsequent daemon restarts.
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.Ss "The huff-n'-puff Filter"
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In scenarios where a considerable amount of data are to be
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downloaded or uploaded over telephone modems, timekeeping quality
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can be seriously degraded.
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This occurs because the differential
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delays on the two directions of transmission can be quite large.
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In
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many cases the apparent time errors are so large as to exceed the
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step threshold and a step correction can occur during and after the
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data transfer is in progress.
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.Pp
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The huff-n'-puff filter is designed to correct the apparent time
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offset in these cases.
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It depends on knowledge of the propagation
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delay when no other traffic is present.
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In common scenarios this
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occurs during other than work hours.
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The filter maintains a shift
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register that remembers the minimum delay over the most recent
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interval measured usually in hours.
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Under conditions of severe
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delay, the filter corrects the apparent offset using the sign of
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the offset and the difference between the apparent delay and
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minimum delay.
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The name of the filter reflects the negative (huff)
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and positive (puff) correction, which depends on the sign of the
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offset.
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.Pp
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The filter is activated by the
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.Ic tinker
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command and
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.Cm huffpuff
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keyword, as described in
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.Xr ntp.conf 5 .
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_END_MDOC_USAGE;
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};
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doc-section = {
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ds-type = 'FILES';
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ds-format = 'mdoc';
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ds-text = <<- _END_MDOC_FILES
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.Bl -tag -width /etc/ntp.drift -compact
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.It Pa /etc/ntp.conf
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the default name of the configuration file
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.It Pa /etc/ntp.drift
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the default name of the drift file
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.It Pa /etc/ntp.keys
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the default name of the key file
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.El
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_END_MDOC_FILES;
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};
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doc-section = {
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ds-type = 'SEE ALSO';
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ds-format = 'mdoc';
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ds-text = <<- _END_MDOC_SEE_ALSO
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.Xr ntp.conf 5 ,
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.Xr ntpdate 1ntpdatemdoc ,
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.Xr ntpdc 1ntpdcmdoc ,
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.Xr ntpq 1ntpqmdoc ,
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.Xr sntp 1sntpmdoc
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.Pp
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In addition to the manual pages provided,
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comprehensive documentation is available on the world wide web
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at
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.Li http://www.ntp.org/ .
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A snapshot of this documentation is available in HTML format in
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.Pa /usr/share/doc/ntp .
|
|
.Rs
|
|
.%A David L. Mills
|
|
.%T Network Time Protocol (Version 1)
|
|
.%O RFC1059
|
|
.Re
|
|
.Rs
|
|
.%A David L. Mills
|
|
.%T Network Time Protocol (Version 2)
|
|
.%O RFC1119
|
|
.Re
|
|
.Rs
|
|
.%A David L. Mills
|
|
.%T Network Time Protocol (Version 3)
|
|
.%O RFC1305
|
|
.Re
|
|
.Rs
|
|
.%A David L. Mills
|
|
.%A J. Martin, Ed.
|
|
.%A J. Burbank
|
|
.%A W. Kasch
|
|
.%T Network Time Protocol Version 4: Protocol and Algorithms Specification
|
|
.%O RFC5905
|
|
.Re
|
|
.Rs
|
|
.%A David L. Mills
|
|
.%A B. Haberman, Ed.
|
|
.%T Network Time Protocol Version 4: Autokey Specification
|
|
.%O RFC5906
|
|
.Re
|
|
.Rs
|
|
.%A H. Gerstung
|
|
.%A C. Elliott
|
|
.%A B. Haberman, Ed.
|
|
.%T Definitions of Managed Objects for Network Time Protocol Version 4: (NTPv4)
|
|
.%O RFC5907
|
|
.Re
|
|
.Rs
|
|
.%A R. Gayraud
|
|
.%A B. Lourdelet
|
|
.%T Network Time Protocol (NTP) Server Option for DHCPv6
|
|
.%O RFC5908
|
|
.Re
|
|
_END_MDOC_SEE_ALSO;
|
|
};
|
|
|
|
doc-section = {
|
|
ds-type = 'BUGS';
|
|
ds-format = 'mdoc';
|
|
ds-text = <<- _END_MDOC_BUGS
|
|
The
|
|
.Nm
|
|
utility has gotten rather fat.
|
|
While not huge, it has gotten
|
|
larger than might be desirable for an elevated-priority
|
|
.Nm
|
|
running on a workstation, particularly since many of
|
|
the fancy features which consume the space were designed more with
|
|
a busy primary server, rather than a high stratum workstation in
|
|
mind.
|
|
_END_MDOC_BUGS;
|
|
};
|
|
|
|
doc-section = {
|
|
ds-type = 'NOTES';
|
|
ds-format = 'mdoc';
|
|
ds-text = <<- _END_MDOC_NOTES
|
|
Portions of this document came from FreeBSD.
|
|
_END_MDOC_NOTES;
|
|
};
|