xntpdc(1M) System Administration Commands xntpdc(1M)
xntpdc - special NTP query program
xntpdc [-ilnps] [-c command] [host] [...]
xntpdc queries the xntpd daemon about its current state and requests changes in that state. You can run xntpdc in interactive mode or in
controlled using command line arguments.
Extensive state and statistics information is available through the xntpdc interface. In addition, nearly all the configuration options
which can be specified at start up using xntpd's configuration file may also be specified at run time using xntpdc.
If one or more request options is included on the command line when xntpdc is executed, each of the requests is sent to the NTP servers
running on each of the hosts given as command line arguments, or on the local host by default. If no request options are given, xntpdc
attempts to read commands from the standard input and execute these on the NTP server running on the first host specified on the command
line, again defaulting to the local host when no other host is specified. xntpdc prompts for commands if the standard input is a terminal
xntpdc uses NTP mode 7 packets to communicate with the NTP server, and can be used to query any compatable server on the network which per-
mits it. As NTP is a UDP protocol, this communication is somewhat unreliable, especially over large distances. xntpdc does not attempt to
re-transmit requests, and times requests out if the remote host is not heard from within a suitable timeout time.
The operation of xntpdc is specific to the particular implementation of the xntpd daemon. You can expect xntpdc to work only with this and
maybe some previous versions of the daemon. Requests from a remote xntpdc program that affect the state of the local server must be authen-
ticated. This requires that both the remote program and local server share a common key and key identifier.
xntpdc reads interactive format commands from the standard input. If you specify the -c, -l, -p or -s option, the specified queries are
sent to the hosts immediately.
The following command line options are supported:
-c command... Add command to the list of commands to execute on the specified hosts. command is interpreted as an interactive
Multiple -c options may be specified.
-i Force xntpdc to operate in interactive mode.
Prompts are written to the standard output. Commands are read from the standard input.
-l Obtain a list of peers which are known to the servers.
This option is equivalent to -c listpeers. See listpeers in Control Message Commands.
-n Output all host addresses in dotted-quad numeric format rather than converting to the canonical host names.
-p Print a list of the peers known to the server as well as a summary of their state.
This option is equivalent to -c peers. See peers in Control Message Commands.
-s Print a list of the peers known to the server as well as a summary of their state, but in a slightly different for-
mat than the -p option. This option is equivalent to -c dmpeers. See dmpeers in Control Message Commands.
The following operands are supported:
The interactive commands consist of a keyword (command_keyword) followed by zero to four arguments. You need to entry only enough charac-
ters of the command_keyword to uniquely identify it. The output of an interactive command is sent to the standard output by default. You
can send the output of an interactive command to a file by appending a <, followed by a file name, to the command line.
A number of interactive format commands are executed entirely within the xntpdc program itself and do not result in NTP mode.
The following interactive commands are supported:
? [ command_keyword] Without an argument, print a list of ntpq command keywords. If command_keyword is specified, print function
and usage information about the command_keyword.
delay milliseconds Specify a time interval to add to timestamps included in requests which require authentication.
This enables (unreliable) server reconfiguration over long delay network paths or between machines whose
clocks are unsynchronized. Because the server no longer requires timestamps in authenticated requests, this
command may be obsolete.
help [ command_keyword] Without an argument, print a list of ntpq command keywords. If command_keyword is specified, print function
and usage information about the command_keyword.
host hostname Set the host (hostname) to which future queries are sent. Specify hostname as a host name or a numeric
hostnames [ yes | no] Print hostnames or numeric addresses in information displays.
Specify yes to print host names. Specify no to print numeric addresses.
The default is yes, unless the -n command line option is specified.
keyid keyid Enable specification of a key number (keyid) to authenticate configuration requests. keyid must correspond
to a key number the server has been configured to use for this purpose.
passwd Allow the user to specify a password at the command line to authenticate configuration requests.
The password is not displayed, and must correspond to the key configured for use by the NTP server for this
purpose. If the password does not correspond to the key configured for use by the NTP server, requests are
quit Exit xntpdc.
timeout millseconds Specify a timeout period for responses to server queries.
The default is approximately 8000 milliseconds. As xntpdc retries each query once after a timeout, the
total waiting time for a timeout is twice the timeout value set.
Control Message Commands
Query commands result in NTP mode 7 packets containing requests for information being sent to the server. These control message commands
are read-only commands in that they make no modification of the server configuration state.
The following control message commands are supported:
Obtain debugging information for a reference clock driver. This information is provided only by some clock drivers.
Obtain and print information concerning a peer clock.
The values obtained provide information on the setting of fudge factors and other clock performance information.
Obtain a list of peers for which the sserver is maintaining state, along with a summary of that state.
The peer summary list is identical to the output of the peers command, except for the character in the leftmost column. Characters only
appear beside peers which were included in the final stage of the clock selection algorithm. A . indicates that this peer was cast off
in the falseticker detection, while a + indicates that the peer made it through. A * denotes the peer with which the server is cur-
Print statistics counters maintained in the input-output module.
Obtain and print kernel phase-lock loop operating parameters.
This information is available only if the kernel has been specially modified for a precision timekeeping function.
Obtain and print a brief list of the peers for which the server is maintaining state.
These should include all configured peer associations as well as those peers whose stratum is such that they are considered by the
server to be possible future synchonization candidates. candidates.
loopinfo [ oneline | multiline ]
Print the values of selected loop filter variables.
The loop filter is the part of NTP which deals with adjusting the local system clock.
The oneline and multiline options specify the format in which this information is printed. multiline is the default.
The offset is the last offset given to the loop filter by the packet processing code. The frequency is the frequency error of the local
clock in parts-per-million (ppm). The time_const controls the stiffness of the phase-lock loop and thus the speed at which it can adapt
to oscillator drift. The watchdog timer value is the number of seconds which have elapsed since the last sample offset was given to the
Print statistics counters related to memory allocation code.
Obtain and print traffic counts collected and maintained by the monitor facility. The version number should not normally need to be
Obtain a list of peers for which the server is maintaining state, along with a summary of that state.
The following summary information is included:
o Address of the remote peer.
o Local interface address. If a local address has yet to be determined it is 0.0.0.0.
o Stratum of the remote peer. A stratum of 16 indicates the remote peer is unsynchronized.
o Polling interval, in seconds.
o Reachability register, in octal.
o Current estimated delay, offset and dispersion of the peer, in seconds.
o Mode in which the peer entry is operating.
This is represented by the character in the left margin. A + denotes symmetric active, a - indicates symmetric passive, a = means
the remote server is being polled in client mode, a ^ indicates that the server is broadcasting to this address, a ~ denotes that
the remote peer is sending broadcasts and a * marks the peer the server is currently synchonizing to.
This field may contain a host name, an IP address, a reference clock implementation name with its parameter or REFCLK (implementa-
tion number, parameter). On hostnames no only IP-addresses is displayed.
pstats peer_address [...]
Show the per-peer statistic counters associated with the specified peers.
Obtain and print the server's restriction list.
Generally, this list is printed in sorted order.
showpeer peer_address [...]
Show a detailed display of the current peer variables for one or more peers. Most of these values are described in the NTP Version 2
Print a variety of system state variables that are related to the local server.
The output from sysinfo is described in NTP Version 3 specification, RFC-1305. All except the last four lines are described in the NTP
Version 3 specification, RFC-1305.
The system flags show various system flags, some of which can be set and cleared by the enable and disable configuration commands,
respectively. These are the auth, bclient, monitor, pll, pps and stats flags. See the xntpd documentation for the meaning of these
flags. There are two additional flags which are read only, the kernel_pll and kernel_pps. These flags indicate the synchronization sta-
tus when the precision time kernel modifications are in use. The kernel_pll indicates that the local clock is being disciplined by the
kernel, while the kernel_pps indicates the kernel discipline is provided by the PPS signal. The stability is the residual frequency
error remaining after the system frequency correction is applied and is intended for maintenance and debugging. In most architectures,
this value initially decreases from as high as 500 ppm to a nominal value in the range .01 to 0.1 ppm. If it remains high for some time
after starting the daemon, something may be wrong with the local clock, or the value of the kernel variable tick may be incorrect. The
broadcastdelay shows the default broadcast delay, as set by the broadcastdelay configuration command. The authdelay shows the default
authentication delay, as set by the authdelay configuration command.
Print statistics counters maintained in the protocol module.
Print statistics counters maintained in the timer/event queue support code.
Runtime Configuration Requests
The server authenticates all requests that cause state changes in the server. The server uses a configured NTP key to accomplish this. This
facility can also be disabled by the server by not configuring a key).
You must make the key number and the corresponding key known to xtnpdc. Use the keyid or passwd commands to do so.
The passwd command prompts users for a password to use as the encryption key. It also prompts automatically for both the key number and
password the first time a command which would result in an authenticated request to the server is given. Authentication provides verifica-
tion that the requester has permission to make such changes. It also gives an extra degree of protection against transmission errors.
Authenticated requests always include a time stamp in the packet data. The time stamp is included in the computation of the authentication
code. This timestamp is compared by the server to its receive time stamp. If the time stamps differ by more than a small amount the
request is rejected.
Time stamps are rejected for two reasons. First, it makes simple replay attacks on the server, by someone who might be able to overhear
traffic on your LAN, much more difficult. Second, it makes it more difficult to request configuration changes to your server from topologi-
cally remote hosts.
While the reconfiguration facility works well with a server on the local host, and may work adequately between time-synchronized hosts on
the same LAN, it works very poorly for more distant hosts. If reasonable passwords are chosen, care is taken in the distribution and pro-
tection of keys and appropriate source address restrictions are applied, the run time reconfiguration facility should provide an adequate
level of security.
The following commands make authenticated requests.
addpeer peer_address [ keyid ] [ version ] [ prefer ]
Add a configured peer association at the given address and operating in symmetric active mode. An existing association with the same
peer may be deleted when this command is executed, or may simply be converted to conform to the new configuration, as appropriate.
If the optional keyid is a non-zero integer, all outgoing packets to the remote server will have an authentication field attached
encrypted with this key. If the keyid is 0 or omitted, no authentication is done.
Specify version as 1, 2 or 3. The default is 3.
The prefer keyword indicates a preferred peer. This keyword is used primarily for clock synchronisation if possible. The preferred
peer also determines the validity of the PPS signal - if the preferred peer is suitable for synchronisation so is the PPS signal.
addserver peer_address [ keyid ] [ version ] [ prefer ]
Identical to the addpeer command, except that the operating mode is client.
addtrap [ address [ port ] [ interface ]
Set a trap for asynchronous messages.
Return information concerning the authentication module, including known keys and counts of encryptions and decryptions which have been
broadcast peer_address [ keyid ] [ version ] [ prefer ]
Identical to the addpeer command, except that the operating mode is broadcast. In this case a valid key identifier and key are
required. The peer_address parameter can be the broadcast address of the local network or a multicast group address assigned to NTP. If
a multicast address, a multicast-capable kernel is required.
clrtrap [ address [ port ] [ interface]
Clear a trap for asynchronous messages.
delrestrict address mask [ ntpport ]
Delete the matching entry from the restrict list.
fudge peer_address [ time1 ] [ time2 ] [ stratum ] [ refid ]
Provide a way to set certain data for a reference clock.
Cause the current set of authentication keys to be purged and a new set to be obtained by re-reading the keys file. The keys file must
have been specified in the xntpd configuration file. This enables encryption keys to be changed without restarting the server.
restrict address mask flag [ flag]
This command operates in the same way as the restrict configuration file commands of xntpd.
Clear the statistics counters in various modules of the server.
Display the traps set in the server.
trustkey keyid [...]
untrustkey keyid [...]
These commands operate in the same way as the trustedkey and untrustkey configuration file commands of xntpd.
unconfig peer_address [...]
Cause the configured bit to be removed from the specified peers. In many cases this causes the peer association to be deleted. When
appropriate, however, the association may persist in an unconfigured mode if the remote peer is willing to continue on in this fashion.
unrestrict address mask flag [ flag]
Unrestrict the matching entry from the restrict list.
See attributes(5) for descriptions of the following attributes:
|ATTRIBUTE TYPE |ATTRIBUTE VALUE |
|Availability |SUNWntpu |
ntpdate(1M), ntpq(1M), ntptrace(1M), xntpd(1M), rename(2), attributes(5)
SunOS 5.10 12 July 2004 xntpdc(1M)