I've written a ntp client in python to query a time server and display the time and the program executes but does not give me any results. I'm using python's 2.7.3 integrated development environment and my OS is Windows 7. Here is the code:

# File: Ntpclient.py
from socket import AF_INET, SOCK_DGRAM
import sys
import socket
import struct, time

# # Set the socket parameters 

host = "pool.ntp.org"
port = 123
buf = 1024
address = (host,port)
msg = 'time'

# reference time (in seconds since 1900-01-01 00:00:00)
TIME1970 = 2208988800L # 1970-01-01 00:00:00

# connect to server
client = socket.socket( AF_INET, SOCK_DGRAM)
client.sendto(msg, address)
msg, address = client.recvfrom( buf )

t = struct.unpack( "!12I", data )[10]
t -= TIME1970
print "\tTime=%s" % time.ctime(t)

Use ntplib:

The following should work on both Python 2 and 3:

import ntplib
from time import ctime
c = ntplib.NTPClient()
response = c.request('pool.ntp.org')


Fri Jul 28 01:30:53 2017
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  • Many thanks guys i included the library file: from time import ctime and it worked fine – Howard Hugh Oct 1 '12 at 1:49
  • A small warning with ntplib, it still has a bug, it doesn't parse the root_delay correctly: github.com/Tipoca/ntplib/issues/1 – Basj Jun 4 '18 at 20:10
  • The root_delay is correct. (see the latest comment in the issue) The most precise use is if the local clock is calibrated by offset this way: fixed_time = response.offset + time.time(). This is more precise than a simple timestamp from the time server because the offset from ntplib is corrected by a half of network round-trip delay. – hynekcer Feb 29 at 18:42

Here is a fix for the above solution, which adds fractions of seconds to the implementation and closes the socket properly. As it's actually just a handful lines of code, I didn't want to add another dependency to my project, though ntplib admittedly is probably the way to go in most cases.

#!/usr/bin/env python
from contextlib import closing
from socket import socket, AF_INET, SOCK_DGRAM
import struct
import time

NTP_DELTA = 2208988800  # 1970-01-01 00:00:00
NTP_QUERY = b'\x1b' + 47 * b'\0'  

def ntp_time(host="pool.ntp.org", port=123):
    with closing(socket( AF_INET, SOCK_DGRAM)) as s:
        s.sendto(NTP_QUERY, (host, port))
        msg, address = s.recvfrom(1024)
    unpacked = struct.unpack(NTP_PACKET_FORMAT,
    return unpacked[10] + float(unpacked[11]) / 2**32 - NTP_DELTA

if __name__ == "__main__":
    print time.ctime(ntp_time()).replace("  ", " ")
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  • Old thread, but this is a good, quick solution for me instead of trying to figure out how to add modules into my build system (Petalinux). – Tom Myddeltyn Feb 7 '17 at 13:32
  • 2
    If you wonder what '\x1b' + 47 * '\0' stands for: stackoverflow.com/a/26938508/1422096 – Basj Jun 4 '18 at 14:14
  • 1
    i like this answer because it has less dependency – eigenfield Sep 18 '18 at 18:27
  • The UDP socket is connectionless and therefore the is nothing that could or need be closed. The fractions of seconds work of course also with the original solution with ntplib. The advantage is only the removed dependency – hynekcer Feb 29 at 18:33
  • @hynekcer Thanks for the update to modern times! About the socket: To my understanding it should be closed anyways, just to save local resources. The amount of open sockets is limited, and for long running processes, they shouldn't be leaked. – Michael Mar 5 at 11:31

It should be

msg = '\x1b' + 47 * '\0' 

Instead of

msg = 'time'

But as Maksym said you should use ntplib instead.

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msg = '\x1b' + 47 * '\0'
t = struct.unpack( "!12I", msg )[10]
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  • Although this may answer the question (I am not sure), it is usually better to include some explanation as to why (and how) this solves the problem. This especially applies when answering a question that was asked over a year ago and already has a similar answer – Mark Rotteveel Jun 1 '14 at 15:23

Sorry if my answer doesn't satisfy your expectations. I think it makes sense to use an existing solution. ntplib is a quite good library for working with NTP servers.

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