Is there a way to extract the moment of historic leap seconds from the time-zone database that is distributed on most linux distributions? I am looking for a solution in python, but anything that works on the command line would be fine too.
My use case is to convert between gps-time (which is basically the number of seconds since the first GPS-satellite was switched on in 1980) and UTC or local time. UTC is adjusted for leap-seconds every now and then, while gps-time increases linearly. This is equivalent to converting between UTC and TAI. TAI also ignores leap-seconds, so presumably TAI and gps-time run with a fixed offset. At work, we use gps-time as the time-standard for synchronizing astronomical observations around the world.
I have working functions that convert between gps-time and UTC, but I had to hard-code a table of leap seconds, which I get here (the file
tzdata2013xx.tar.gz contains a file named
leapseconds). I have to update this file by hand every few years when a new leapsecond is announced. I would prefer to get this information from the standard tzdata, which is automatically updated via system updates several times a year.
I am pretty sure the information is hidden in some binary files somewhere in
/usr/share/zoneinfo/. I have been able to extract some of it using
man tzfile gives some info about the format), but I never got it working completely. Are there any standard packages that can access this information? I know about pytz, which seems to get the standard DST information from the same database, but it does not give access to leap seconds. I also found tai64n, but looking at its source code, it just contains a hard-coded table.
Inspired by steveha's answer and some code in pytz/tzfile.py, I finally got a working solution (tested on py2.5 and py2.7):
from struct import unpack, calcsize from datetime import datetime def print_leap(tzfile = '/usr/share/zoneinfo/right/UTC'): with open(tzfile, 'rb') as f: # read header fmt = '>4s c 15x 6l' (magic, format, ttisgmtcnt, ttisstdcnt,leapcnt, timecnt, typecnt, charcnt) = unpack(fmt, f.read(calcsize(fmt))) assert magic == 'TZif'.encode('US-ASCII'), 'Not a timezone file' print 'Found %i leapseconds:' % leapcnt # skip over some uninteresting data fmt = '>%(timecnt)dl %(timecnt)dB %(ttinfo)s %(charcnt)ds' % dict( timecnt=timecnt, ttinfo='lBB'*typecnt, charcnt=charcnt) f.read(calcsize(fmt)) #read leap-seconds fmt = '>2l' for i in xrange(leapcnt): tleap, nleap = unpack(fmt, f.read(calcsize(fmt))) print datetime.utcfromtimestamp(tleap-nleap+1)
In : print_leap() Found 25 leapseconds: 1972-07-01 00:00:00 1973-01-01 00:00:00 1974-01-01 00:00:00 ... 2006-01-01 00:00:00 2009-01-01 00:00:00 2012-07-01 00:00:00
While this does solve my question, I will probably not go for this solution. Instead, I will include leap-seconds.list with my code, as suggested by Matt Johnson. This seems to be the authoritative list used as a source for tzdata, and is probably updated by NIST twice a year. This means I will have to do the update by hand, but this file is straightforward to parse and includes an expiration date (which tzdata seems to be missing).