NTP howto

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This is a short description on how to get two computers have the same clock using NTP (Network Time Protocol)
 
This is a short description on how to get two computers have the same clock using NTP (Network Time Protocol)
  
'''NTPD how'''
+
==NTPD how==
  
 
NTPD - ntp demon (ntpd) - must run on both (all) computers that needs to be synchronized.
 
NTPD - ntp demon (ntpd) - must run on both (all) computers that needs to be synchronized.
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ntpd will try to adjust the clock-speed to get an equal clock speed on the two clocks, without ever setting the clock. No steps backwards.
 
ntpd will try to adjust the clock-speed to get an equal clock speed on the two clocks, without ever setting the clock. No steps backwards.
  
'''The sync takes time'''
+
==Sync takes time==
  
 
When ntpd is started it will decide which server is the better, this takes typically about 4-8 minutes (requires about 4-8 samples spaced 64 seconds - the 'reach' field (octal) should have about 4 ones (017) as shown below - may reach 0377 (8 times '1')).
 
When ntpd is started it will decide which server is the better, this takes typically about 4-8 minutes (requires about 4-8 samples spaced 64 seconds - the 'reach' field (octal) should have about 4 ones (017) as shown below - may reach 0377 (8 times '1')).
  
'''Test progress'''
+
===Test progress===
  
 
as root the status can be monitored by, e.g.:
 
as root the status can be monitored by, e.g.:
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The other source 192.168.1.10 shows 16 in the field 'st' (stratum - a measure of clock quality), ntpd will never try to synchronize to a source with stratum 16. See configuration of master clock source to ensure a low stratum.
 
The other source 192.168.1.10 shows 16 in the field 'st' (stratum - a measure of clock quality), ntpd will never try to synchronize to a source with stratum 16. See configuration of master clock source to ensure a low stratum.
  
'''Configuration of slave computer'''
+
==Configuration of slave computer==
  
 
The ntpd configuration is typically at  
 
The ntpd configuration is typically at  
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The restrict part and other parts of the configuration file are commented out.
 
The restrict part and other parts of the configuration file are commented out.
  
'''Start of slave'''
+
===Start of slave===
  
 
In the startconfiguration of the slave computer the ntpd is usually started automatically - on a slagware distribution like this done in /etc/rc.d/rc.local
 
In the startconfiguration of the slave computer the ntpd is usually started automatically - on a slagware distribution like this done in /etc/rc.d/rc.local
  
  
'''Configuration of master computer'''
+
==Configuration of master computer==
  
 
The ntpd configuration is typically at  
 
The ntpd configuration is typically at  
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  ==============================================================================
 
  ==============================================================================
 
  *LOCAL(0)        .LOCL.          2 l  39  64  377    0.000    0.000  0.001
 
  *LOCAL(0)        .LOCL.          2 l  39  64  377    0.000    0.000  0.001
 +
 +
The users of this clock source should then obtain stratum level 3, as shown above.

Revision as of 12:51, 16 June 2008

This is a short description on how to get two computers have the same clock using NTP (Network Time Protocol)

Contents

NTPD how

NTPD - ntp demon (ntpd) - must run on both (all) computers that needs to be synchronized.

The sync is - should - be obtained in two steps:

  • initial
root@smr19:/rhome/demo# ntpdate -u 192.168.1.10

This will update the clock on this computer to the clock on the 192.168.1.10 computer (if the difference is above 0.5 second - else nothing is changed). The accuracy is typically better than 1 ms.

The clocks will then drift - often between 0.1 to 1 ms each second - this (often) needs to be controlled:

  • keep sync
root@smr19:/rhome/demo# ntpd

ntpd will try to adjust the clock-speed to get an equal clock speed on the two clocks, without ever setting the clock. No steps backwards.

Sync takes time

When ntpd is started it will decide which server is the better, this takes typically about 4-8 minutes (requires about 4-8 samples spaced 64 seconds - the 'reach' field (octal) should have about 4 ones (017) as shown below - may reach 0377 (8 times '1')).

Test progress

as root the status can be monitored by, e.g.:

root@smr19:/rhome/demo# ntpq -p
     remote           refid      st t when poll reach   delay   offset  jitter
==============================================================================
 192.168.1.10    .INIT.          16 u    -   64    0    0.000    0.000   0.000
*pc89.iau.dtu.dk LOCAL(0)         3 u   19   64   17    0.254  -20.070   1.857


This shows that the pc89 computer is the time source (the * as first character) the offset is -20.070 ms The last poll was performed 19 seconds ago and the poll interval is 64 seconds.

After a few hours the clock difference will reduce to about the magnitude of the jitter (in ms - here about 1.8 ms).

The other source 192.168.1.10 shows 16 in the field 'st' (stratum - a measure of clock quality), ntpd will never try to synchronize to a source with stratum 16. See configuration of master clock source to ensure a low stratum.

Configuration of slave computer

The ntpd configuration is typically at

/etc/ntp.conf

On the computer that should be synchronized the configuration file could look like (some comments removed):

# file /etc/ntp.conf
#
server  192.168.1.10
server pc89
#server kalman
#
driftfile /etc/ntp/drift
multicastclient                 # listen on default 224.0.1.1
broadcastdelay  0.008

The server part shows in this case two clock sources, the 192.168.1.10 and the PC89.

The server pc89 is the one to use in this example, as the 192.168.1.10 is not available in this test setup. In the 'ntpq -p' above the 192.168.1.10 has never had a successful update.

The driftfile is the place where ntpd saves the adjustment to the local clock to maintain it at the same speed as the reference computers clock. NB! there is only one drift value, so if the computer has to keep sync with different computers, where these computers may drift at a a different rate, then ntpd will use 'very' long time to readjust to the new source. That is once is gets used to the errors in the PC89 clock source, and then is reconfigured to a sutuation where 192.168.1.10 is available and PC89 is not, then this will probably drift with a quite different value - and require maybe 8-20 hours to get back into sync.

The restrict part and other parts of the configuration file are commented out.

Start of slave

In the startconfiguration of the slave computer the ntpd is usually started automatically - on a slagware distribution like this done in /etc/rc.d/rc.local


Configuration of master computer

The ntpd configuration is typically at

# /etc/ntp.conf on clock master
#
server 127.127.1.0 #local clock
fudge 127.127.1.0 stratum 2
#
driftfile  /etc/ntp/drift

This shows one server only, being the local real-time clock. The 'fudge' line tels ntpd to fake local clock as stratum 2 (a high quality) clock source.

The ntpd need to be started on this computer, and a ntpq -p would show something like:

pc89 jca # ntpq -p
     remote           refid      st t when poll reach   delay   offset  jitter
==============================================================================
*LOCAL(0)        .LOCL.           2 l   39   64  377    0.000    0.000   0.001

The users of this clock source should then obtain stratum level 3, as shown above.

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