Comments (2)
here is the code which works in Python 3
import datetime
import socket
import struct
import time
import queue
import threading
import select
taskQueue = queue.Queue()
stopFlag = False
def system_to_ntp_time(timestamp):
"""Convert a system time to a NTP time.
Parameters:
timestamp -- timestamp in system time
Returns:
corresponding NTP time
"""
return timestamp + NTP.NTP_DELTA
def _to_int(timestamp):
"""Return the integral part of a timestamp.
Parameters:
timestamp -- NTP timestamp
Retuns:
integral part
"""
return int(timestamp)
def _to_frac(timestamp, n=32):
"""Return the fractional part of a timestamp.
Parameters:
timestamp -- NTP timestamp
n -- number of bits of the fractional part
Retuns:
fractional part
"""
return int(abs(timestamp - _to_int(timestamp)) * 2**n)
def _to_time(integ, frac, n=32):
"""Return a timestamp from an integral and fractional part.
Parameters:
integ -- integral part
frac -- fractional part
n -- number of bits of the fractional part
Retuns:
timestamp
"""
return integ + float(frac)/2**n
class NTPException(Exception):
"""Exception raised by this module."""
pass
class NTP:
"""Helper class defining constants."""
_SYSTEM_EPOCH = datetime.date(*time.gmtime(0)[0:3])
"""system epoch"""
_NTP_EPOCH = datetime.date(1900, 1, 1)
"""NTP epoch"""
NTP_DELTA = (_SYSTEM_EPOCH - _NTP_EPOCH).days * 24 * 3600
"""delta between system and NTP time"""
REF_ID_TABLE = {
'DNC': "DNC routing protocol",
'NIST': "NIST public modem",
'TSP': "TSP time protocol",
'DTS': "Digital Time Service",
'ATOM': "Atomic clock (calibrated)",
'VLF': "VLF radio (OMEGA, etc)",
'callsign': "Generic radio",
'LORC': "LORAN-C radionavidation",
'GOES': "GOES UHF environment satellite",
'GPS': "GPS UHF satellite positioning",
}
"""reference identifier table"""
STRATUM_TABLE = {
0: "unspecified",
1: "primary reference",
}
"""stratum table"""
MODE_TABLE = {
0: "unspecified",
1: "symmetric active",
2: "symmetric passive",
3: "client",
4: "server",
5: "broadcast",
6: "reserved for NTP control messages",
7: "reserved for private use",
}
"""mode table"""
LEAP_TABLE = {
0: "no warning",
1: "last minute has 61 seconds",
2: "last minute has 59 seconds",
3: "alarm condition (clock not synchronized)",
}
"""leap indicator table"""
class NTPPacket:
"""NTP packet class.
This represents an NTP packet.
"""
_PACKET_FORMAT = "!B B B b 11I"
"""packet format to pack/unpack"""
def __init__(self, version=2, mode=3, tx_timestamp=0):
"""Constructor.
Parameters:
version -- NTP version
mode -- packet mode (client, server)
tx_timestamp -- packet transmit timestamp
"""
self.leap = 0
"""leap second indicator"""
self.version = version
"""version"""
self.mode = mode
"""mode"""
self.stratum = 0
"""stratum"""
self.poll = 0
"""poll interval"""
self.precision = 0
"""precision"""
self.root_delay = 0
"""root delay"""
self.root_dispersion = 0
"""root dispersion"""
self.ref_id = 0
"""reference clock identifier"""
self.ref_timestamp = 0
"""reference timestamp"""
self.orig_timestamp = 0
self.orig_timestamp_high = 0
self.orig_timestamp_low = 0
"""originate timestamp"""
self.recv_timestamp = 0
"""receive timestamp"""
self.tx_timestamp = tx_timestamp
self.tx_timestamp_high = 0
self.tx_timestamp_low = 0
"""tansmit timestamp"""
def to_data(self):
"""Convert this NTPPacket to a buffer that can be sent over a socket.
Returns:
buffer representing this packet
Raises:
NTPException -- in case of invalid field
"""
try:
packed = struct.pack(NTPPacket._PACKET_FORMAT,
(self.leap << 6 | self.version << 3 | self.mode),
self.stratum,
self.poll,
self.precision,
_to_int(self.root_delay) << 16 | _to_frac(self.root_delay, 16),
_to_int(self.root_dispersion) << 16 |
_to_frac(self.root_dispersion, 16),
self.ref_id,
_to_int(self.ref_timestamp),
_to_frac(self.ref_timestamp),
#Change by lichen, avoid loss of precision
self.orig_timestamp_high,
self.orig_timestamp_low,
_to_int(self.recv_timestamp),
_to_frac(self.recv_timestamp),
_to_int(self.tx_timestamp),
_to_frac(self.tx_timestamp))
except struct.error:
raise NTPException("Invalid NTP packet fields.")
return packed
def from_data(self, data):
"""Populate this instance from a NTP packet payload received from
the network.
Parameters:
data -- buffer payload
Raises:
NTPException -- in case of invalid packet format
"""
try:
unpacked = struct.unpack(NTPPacket._PACKET_FORMAT,
data[0:struct.calcsize(NTPPacket._PACKET_FORMAT)])
except struct.error:
raise NTPException("Invalid NTP packet.")
self.leap = unpacked[0] >> 6 & 0x3
self.version = unpacked[0] >> 3 & 0x7
self.mode = unpacked[0] & 0x7
self.stratum = unpacked[1]
self.poll = unpacked[2]
self.precision = unpacked[3]
self.root_delay = float(unpacked[4])/2**16
self.root_dispersion = float(unpacked[5])/2**16
self.ref_id = unpacked[6]
self.ref_timestamp = _to_time(unpacked[7], unpacked[8])
self.orig_timestamp = _to_time(unpacked[9], unpacked[10])
self.orig_timestamp_high = unpacked[9]
self.orig_timestamp_low = unpacked[10]
self.recv_timestamp = _to_time(unpacked[11], unpacked[12])
self.tx_timestamp = _to_time(unpacked[13], unpacked[14])
self.tx_timestamp_high = unpacked[13]
self.tx_timestamp_low = unpacked[14]
def GetTxTimeStamp(self):
return (self.tx_timestamp_high,self.tx_timestamp_low)
def SetOriginTimeStamp(self,high,low):
self.orig_timestamp_high = high
self.orig_timestamp_low = low
class RecvThread(threading.Thread):
def init(self,socket):
threading.Thread.init(self)
self.socket = socket
def run(self):
global taskQueue,stopFlag
while True:
if stopFlag == True:
print ("RecvThread Ended")
break
rlist,wlist,elist = select.select([self.socket],[],[],1);
if len(rlist) != 0:
print ("Received %d packets" % (len(rlist)))
for tempSocket in rlist:
try:
data,addr = tempSocket.recvfrom(1024)
recvTimestamp = recvTimestamp = system_to_ntp_time(1562056257.6)
taskQueue.put((data,addr,recvTimestamp))
except (OSError, err):
print (err)
class WorkThread(threading.Thread):
def init(self,socket):
threading.Thread.init(self)
self.socket = socket
def run(self):
global taskQueue,stopFlag
while True:
if stopFlag == True:
print ("WorkThread Ended")
break
try:
data,addr,recvTimestamp = taskQueue.get(timeout=1)
recvPacket = NTPPacket()
recvPacket.from_data(data)
timeStamp_high,timeStamp_low = recvPacket.GetTxTimeStamp()
sendPacket = NTPPacket(version=3,mode=4)
sendPacket.stratum = 2
sendPacket.poll = 10
'''
sendPacket.precision = 0xfa
sendPacket.root_delay = 0x0bfa
sendPacket.root_dispersion = 0x0aa7
sendPacket.ref_id = 0x808a8c2c
'''
sendPacket.ref_timestamp = recvTimestamp-5
sendPacket.SetOriginTimeStamp(timeStamp_high,timeStamp_low)
sendPacket.recv_timestamp = recvTimestamp
sendPacket.tx_timestamp = system_to_ntp_time(1562056257.6)
socket.sendto(sendPacket.to_data(),addr)
print ("Sent to %s:%d" % (addr[0],addr[1]))
except queue.Empty:
continue
listenIp = "0.0.0.0"
listenPort = 123
socket = socket.socket(socket.AF_INET,socket.SOCK_DGRAM)
socket.bind((listenIp,listenPort))
print ("local socket: "), socket.getsockname();
recvThread = RecvThread(socket)
recvThread.start()
workThread = WorkThread(socket)
workThread.start()
while True:
try:
time.sleep(0.5)
except KeyboardInterrupt:
print ("Exiting...")
stopFlag = True
recvThread.join()
workThread.join()
#socket.close()
print ("Exited")
break
from ntpserver.
I recently completed the small changes required to comply with Python3.x., and tested them.
Any interest ? I can PR them if needed.
Jacques
from ntpserver.
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from ntpserver.