A typical NTP monitoring packet
Last update: 24-Jan-2018 08:35 UTC
The ntpq utility program is used to monitor NTP daemon ntpd operations and determine performance. It uses the standard NTP mode 6 control message formats defined in Appendix B of the NTPv3 specification RFC1305. The same formats are used in NTPv4, although some of the variable names have changed and new ones added. The description on this page is for the NTPv4 variables.
The program can be run either in interactive mode or controlled using command line arguments. Requests to read and write arbitrary variables can be assembled, with raw and pretty-printed output options being available. The ntpq can also obtain and print a list of peers in a common format by sending multiple queries to the server.
If one or more request options is included on the command line when ntpq is executed, each of the requests will be sent to the NTP servers running on each of the hosts given as command line arguments, or on localhost by default. If no request options are given, ntpq will attempt to read commands from the standard input and execute these on the NTP server running on the first host given on the command line, again defaulting to localhost when no other host is specified. ntpq will prompt for commands if the standard input is a terminal device.
ntpq uses NTP mode 6 packets to communicate with the NTP server, and hence can be used to query any compatible server on the network which permits it. Note that since NTP is a UDP protocol this communication will be somewhat unreliable, especially over large distances in terms of network topology. ntpq makes one attempt to retransmit requests, and will time requests out if the remote host is not heard from within a suitable timeout time.
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.
For examples and usage, see the NTP Debugging Techniques page.
Command line options are described following. Specifying a command line option other than -i or -n will cause the specified query (queries) to be sent to the indicated host(s) immediately. Otherwise, ntpq will attempt to read interactive format commands from the standard input.
Interactive format commands consist of a keyword followed by zero to four arguments. Only enough characters of the full keyword to uniquely identify the command need be typed. The output of a command is normally sent to the standard output, but optionally the output of individual commands may be sent 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 ntpq program itself and do not result in NTP mode-6 requests being sent to a server. These are described following.
Association IDs are used to identify system, peer and clock variables. System variables are assigned an association ID of zero and system name space, while each association is assigned a nonzero association ID and peer namespace. Most control commands send a single mode-6 message to the server and expect a single response message. The exceptions are the peers command, which sends a series of messages, and the mreadlist and mreadvar commands, which iterate over a range of associations.
Variable | Description |
ind | index on this list |
assid | association ID |
status | peer status word |
conf | yes: persistent, no: ephemeral |
reach | yes: reachable, no: unreachable |
auth | ok, yes, bad and none |
condition | selection status (see the select field of the peer status word) |
last_event | event report (see the event field of the peer status word) |
cnt | event count (see the count field of the peer status word) |
Column | Description |
lstint | Interval in s between the receipt of the most recent packet from this address and the completion of the retrieval of the MRU list by ntpq. |
avgint | Average interval in s between packets from this address. |
rstr | Restriction flags associated with this address. Most are copied unchanged from the matching restrict command, however 0x400 (kod) and 0x20 (limited) flags are cleared unless the last packet from this address triggered a rate control response. |
r | Rate control indicator, either a period, L or K for no rate control response, rate limiting by discarding, or rate limiting with a KoD response, respectively. |
m | Packet mode. |
v | Packet version number. |
count | Packets received from this address. |
rport | Source port of last packet from this address. |
remote address | DNS name, numeric address, or address followed by claimed DNS name which could not be verified in parentheses. |
Variable | Description |
[tally] | single-character code indicating current value of the select field of the peer status word |
remote | host name (or IP number) of peer |
refid | association ID or kiss code |
st | stratum |
t | u: unicast or manycast client, b: broadcast or multicast client, p: pool source, l: local (reference clock), s: symmetric (peer), A: manycast server, B: broadcast server, M: multicast server |
when | sec/min/hr since last received packet |
poll | poll interval (log2 s) |
reach | reach shift register (octal) |
delay | roundtrip delay |
offset | offset of server relative to this host |
jitter | jitter |
The current state of the operating program is shown in a set of status words maintained by the system and each association separately. These words are displayed in the rv and as commands both in hexadecimal and decoded short tip strings. The codes, tips and short explanations are on the Event Messages and Status Words page. The page also includes a list of system and peer messages, the code for the latest of which is included in the status word.
Information resulting from protocol machine state transitions is displayed using an informal set of ASCII strings called kiss codes. The original purpose was for kiss-o'-death (KoD) packets sent by the server to advise the client of an unusual condition. They are now displayed, when appropriate, in the reference identifier field in various billboards.
The following system variables appear in the rv billboard. Not all variables are displayed in some configurations.
Variable | Description |
status | system status word |
version | NTP software version and build time |
processor | hardware platform and version |
system | operating system and version |
leap | leap warning indicator (0-3) |
stratum | stratum (1-15) |
precision | precision (log2 s) |
rootdelay | total roundtrip delay to the primary reference clock |
rootdisp | total dispersion to the primary reference clock |
peer | system peer association ID |
tc | time constant and poll exponent (log2 s) (3-17) |
mintc | minimum time constant (log2 s) (3-10) |
clock | date and time of day |
refid | reference ID or kiss code |
reftime | reference time |
offset | combined offset of server relative to this host |
sys_jitter | combined system jitter |
frequency | frequency offset (PPM) relative to hardware clock |
clk_wander | clock frequency wander (PPM) |
clk_jitter | clock jitter |
tai | TAI-UTC offset (s) |
leapsec | NTP seconds when the next leap second is/was inserted |
expire | NTP seconds when the NIST leapseconds file expires |
Variable | Description |
host | Autokey host name for this host |
ident | Autokey group name for this host |
flags | host flags (see Autokey specification) |
digest | OpenSSL message digest algorithm |
signature | OpenSSL digest/signature scheme |
update | NTP seconds at last signature update |
cert | certificate subject, issuer and certificate flags |
until | NTP seconds when the certificate expires |
The following peer variables appear in the rv billboard for each association. Not all variables are displayed in some configurations.
Variable | Description |
associd | association ID |
status | peer status word |
srcadr srcport |
source (remote) IP address and port |
dstadr dstport |
destination (local) IP address and port |
leap | leap indicator (0-3) |
stratum | stratum (0-15) |
precision | precision (log2 s) |
rootdelay | total roundtrip delay to the primary reference clock |
rootdisp | total root dispersion to the primary reference clock |
refid | reference ID or kiss code |
reftime | reference time |
reach | reach register (octal) |
unreach | unreach counter |
hmode | host mode (1-6) |
pmode | peer mode (1-5) |
hpoll | host poll exponent (log2 s) (3-17) |
ppoll | peer poll exponent (log2 s) (3-17) |
headway | headway (see Rate Management and the Kiss-o'-Death Packet) |
flash | flash status word |
offset | filter offset |
delay | filter delay |
dispersion | filter dispersion |
jitter | filter jitter |
ident | Autokey group name for this association |
bias | unicast/broadcast bias |
xleave | interleave delay (see NTP Interleaved Modes) |
The bias variable is calculated when the first broadcast packet is received after the calibration volley. It represents the offset of the broadcast subgraph relative to the unicast subgraph. The xleave variable appears only the interleaved symmetric and interleaved modes. It represents the internal queuing, buffering and transmission delays for the preceding packet.
When the NTPv4 daemon is compiled with the OpenSSL software library, additional peer variables are displayed, including the following:
Variable | Description |
flags | peer flags (see Autokey specification) |
host | Autokey server name |
flags | peer flags (see Autokey specification) |
signature | OpenSSL digest/signature scheme |
initsequence | initial key ID |
initkey | initial key index |
timestamp | Autokey signature timestamp |
The following clock variables appear in the cv billboard for each association with a reference clock. Not all variables are displayed in some configurations.
Variable | Description |
associd | association ID |
status | clock status word |
device | device description |
timecode | ASCII time code string (specific to device) |
poll | poll messages sent |
noreply | no reply |
badformat | bad format |
baddata | bad date or time |
fudgetime1 | fudge time 1 |
fudgetime2 | fudge time 2 |
stratum | driver stratum |
refid | driver reference ID |
flags | driver flags |