This is a preview/early-acces/alpha/buzzword-of-the-times release of a new FOSS project written to gradually take over the world of networked timekeeping.
The first step is a NTP protocol client daemon, 'Ntimed-client', which will synchronize a systems clock to some set of NTP servers
If this catches on, support for slave servers, refclocks and other protocols, such as PTP, can be added, subject to interest, skill, time and money.
The overall architectural goals are the same as every other FOSS project claims to follow: Simplicity, Quality, Security etc. etc. but I tend to think that we stick a little bit more closely to them.
This work is sponsored by Linux Foundation, partly in response to the HeartBleed fiasco, and after studying the 300,000+ lines of source-code in NTPD, I concluded that while it could be salvaged, it would be more economical, much faster and far more efficient to start from scratch.
This is the result.
You can take this code, compile it, run it, and it will steer your computers clock, but I am not going to encourage you to do that in production yet -- unless you know what you are doing and why you are doing it: This is only a preview release.
Soon-ish, there will be full production-ready releases and packages for your favourite operating system, but we are not there yet.
But if you are willing to read C-source code to figure out what the printouts mean, if you care about quality time-keeping or quality programming, I would love to hear your feedback, reviews and ideas.
I maintain a blog-of-sorts about this project here:
http://phk.freebsd.dk/time
There you will find information about theory, practice and the thinking that tries to bridge the gap between them.
Updates typically happen during weekends -- that is when I work on Ntimed.
Me, Poul-Henning Kamp. Please send email to [email protected].
The plan is to have the first production ready release in Q1/2015.
Hopefully OS releases will then adopt Ntimed, first as alternative to, and later as replacement for NTPD in client applications.
It is not my intent to start and manage an entirely new FOSS project around Ntimed, Harlan from The Network Time Foundation has agreed to adopt Ntimed and it will run in/with/parallel to the NTPD project. Or something. We still need to flesh out all those details.
Pull the source code over to the machine you want to play on, and:
sh configure make
(That was fast, wasn't it ? -- Amazing how slow things aren't when you don't go hunting for 27 different FORTRAN compilers for your C code.)
Stop ntpd if it is running, and then:
./ntimed-client -t /tmp/somefile some_ntp_server some_other_ntp_server
That should synchronize your clock to those servers.
Because this is a preview release, the process will not "daemonize" into the background.
The '-t /tmp/somefile' arguments tells it to write a full blow-by-blow tracefile, for analysis and debugging.
If something goes wrong, I'm going to ask you for a copy the tracefile.
After a few seconds, your clock will be stepped if necessary. (In the final version, this is where the process daemonizes into the background -- from which point you can trust your clock to be good.)
In the next 30-60 seconds, the PLL will eliminate any residual phase error and from this point in time, your computers clock should be good to a few milliseconds, depending on the quality of the servers.
After about 5-10 minutes, the PLL will have integrated the frequency error of your computers crystal, and the PLL will start to "stiffen" to minimize the amount of steering necessary to keep the clock aligned to the servers.
If you are using distant or very distant servers, things will take longer.
You can also run the program two other ways:
./Ntimed-client --poll-server some_ntp_server some_other_ntp_server
This will not steer your clock, but it will query the servers as if it should have steered your clock. (Ntpd should not be running at the same time.) By default it terminates after 1800 seconds, but you can control that with "-d 3600" for one hour etc.
If you save the output into a file (redirect stdout or use '-t filename'), you can use it as input for a simulation run:
./Ntimed-client --sim-client -s filename -t /tmp/_
And then run:
python plotgen.py
Then you can finally get some nice pictures to look at by:
gnuplot load '/tmp/_g'
Parameters can be examined and tweaked with '-p' arguments:
-p '?'
Gives a list of available parameters, and you can get information about each parameter:
-p parameter_name
To set the parameter to a non-default value:
-p parameter_name=new_value
Not everything which should be a parameter is yet, and there are some unused dummy parameters there, just to make sure the macro-magic works.
First and foremost a big thanks to Professor Dave L. Mills.
Thanks for being the first time-nut on the InterNETs, as we called them back then.
Thanks for being an all-round pleasant fellow to work with.
Thanks for adopting my 'nanokernel' and 'refclock_oncore'.
But in particular thanks for lending me the most cantankerous LORAN-C receiver the world have ever seen, at a time in my life where I badly needed that a distraction to keep me sane.
A big thanks to the Linux Foundation for realizing that NTPD was in dire straits after Dave Mills retired.
Thanks for giving me money and free hands to do what I thought was best -- even though I am a "BSD-guy".
Thanks to Harlan Steen for keeping the NTPD flame burning, however stormy the last decade has been.
I trust The Network Time Foundation will take as good care of Ntimed in the future, as it has taken care of NTPD in the past.
A special wave of the hat to John R. Vig for his famous Quartz Crystal Tutorial.
And finally, a shout-out and thanks to time-nuts@ in general and Tom Van Baak in particular, for being jolly and interesting company for people who happen to care about nanoseconds, leap seconds, choke-ring antennas and the finer points of SC- vs. AT-cut quartz crystals.
phk