guid.py :  » Project-Management » Task-Coach » TaskCoach-1.0.3 » taskcoachlib » thirdparty » Python Open Source

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Python Open Source » Project Management » Task Coach 
Task Coach » TaskCoach 1.0.3 » taskcoachlib » thirdparty » guid.py
#!/usr/bin/env python

# GUID.py
# Version 2.6
#
# Copyright (c) 2006 Conan C. Albrecht
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is furnished
# to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
# INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
# PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE
# FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
# OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.



##################################################################################################
###   A globally-unique identifier made up of time and ip and 8 digits for a counter:
###   each GUID is 40 characters wide
###
###   A globally unique identifier that combines ip, time, and a counter.  Since the
###   time is listed first, you can sort records by guid.  You can also extract the time
###   and ip if needed.
###
###   Since the counter has eight hex characters, you can create up to
###   0xffffffff (4294967295) GUIDs every millisecond.  If your processor
###   is somehow fast enough to create more than that in a millisecond (looking
###   toward the future, of course), the function will wait until the next
###   millisecond to return.
###
###   GUIDs make wonderful database keys.  They require no access to the
###   database (to get the max index number), they are extremely unique, and they sort
###   automatically by time.   GUIDs prevent key clashes when merging
###   two databases together, combining data, or generating keys in distributed
###   systems.
###
###   There is an Internet Draft for UUIDs, but this module does not implement it.
###   If the draft catches on, perhaps I'll conform the module to it.
###


# Changelog
# Sometime, 1997     Created the Java version of GUID
#                    Went through many versions in Java
# Sometime, 2002     Created the Python version of GUID, mirroring the Java version
# November 24, 2003  Changed Python version to be more pythonic, took out object and made just a module
# December 2, 2003   Fixed duplicating GUIDs.  Sometimes they duplicate if multiples are created
#                    in the same millisecond (it checks the last 100 GUIDs now and has a larger random part)
# December 9, 2003   Fixed MAX_RANDOM, which was going over sys.maxint
# June 12, 2004      Allowed a custom IP address to be sent in rather than always using the
#                    local IP address.
# November 4, 2005   Changed the random part to a counter variable.  Now GUIDs are totally
#                    unique and more efficient, as long as they are created by only
#                    on runtime on a given machine.  The counter part is after the time
#                    part so it sorts correctly.
# November 8, 2005   The counter variable now starts at a random long now and cycles
#                    around.  This is in case two guids are created on the same
#                    machine at the same millisecond (by different processes).  Even though
#                    it is possible the GUID can be created, this makes it highly unlikely
#                    since the counter will likely be different.
# November 11, 2005  Fixed a bug in the new IP getting algorithm.  Also, use IPv6 range
#                    for IP when we make it up (when it's no accessible)
# November 21, 2005  Added better IP-finding code.  It finds IP address better now.
# January 5, 2006    Fixed a small bug caused in old versions of python (random module use)

import math
import socket
import random
import sys
import time
import threading



#############################
###   global module variables

#Makes a hex IP from a decimal dot-separated ip (eg: 127.0.0.1)
make_hexip = lambda ip: ''.join(["%04x" % long(i) for i in ip.split('.')]) # leave space for ip v6 (65K in each sub)

MAX_COUNTER = 0xfffffffe
counter = 0L
firstcounter = MAX_COUNTER
lasttime = 0
ip = ''
lock = threading.RLock()
try:  # only need to get the IP addresss once
    ip = socket.getaddrinfo(socket.gethostname(),0)[-1][-1][0]
    hexip = make_hexip(ip)
except: # if we don't have an ip, default to someting in the 10.x.x.x private range
    ip = '10'
    rand = random.Random()
    for i in range(3):
        ip += '.' + str(rand.randrange(1, 0xffff))  # might as well use IPv6 range if we're making it up
    hexip = make_hexip(ip)


#################################
###   Public module functions

def generate(ip=None):
    '''Generates a new guid.  A guid is unique in space and time because it combines
       the machine IP with the current time in milliseconds.  Be careful about sending in
       a specified IP address because the ip makes it unique in space.  You could send in
       the same IP address that is created on another machine.
    '''
    global counter, firstcounter, lasttime
    lock.acquire() # can't generate two guids at the same time
    try:
        parts = []

        # do we need to wait for the next millisecond (are we out of counters?)
        now = long(time.time() * 1000)
        while lasttime == now and counter == firstcounter:
            time.sleep(.01)
            now = long(time.time() * 1000)

        # time part
        parts.append("%016x" % now)

        # counter part
        if lasttime != now:  # time to start counter over since we have a different millisecond
            firstcounter = long(random.uniform(1, MAX_COUNTER))  # start at random position
            counter = firstcounter
        counter += 1
        if counter > MAX_COUNTER:
            counter = 0
        lasttime = now
        parts.append("%08x" % (counter))

        # ip part
        parts.append(hexip)

        # put them all together
        return ''.join(parts)
    finally:
        lock.release()


def extract_time(guid):
    '''Extracts the time portion out of the guid and returns the
       number of seconds since the epoch as a float'''
    return float(long(guid[0:16], 16)) / 1000.0


def extract_counter(guid):
    '''Extracts the counter from the guid (returns the bits in decimal)'''
    return int(guid[16:24], 16)


def extract_ip(guid):
    '''Extracts the ip portion out of the guid and returns it
       as a string like 10.10.10.10'''
    # there's probably a more elegant way to do this
    thisip = []
    for index in range(24, 40, 4):
        thisip.append(str(int(guid[index: index + 4], 16)))
    return '.'.join(thisip)



### TESTING OF GUID CLASS ###
if __name__ == "__main__":
    guids = []
    for i in range(10):  # calculate very fast so people can see the counter in action
        guid = generate()
        guids.append(guid)
    for guid in guids:
        print "GUID:", guid
        guidtime = extract_time(guid)
        print "\tTime:   ", time.strftime('%a, %d %b %Y %H:%M:%S', time.localtime(guidtime)), '(millis: ' + str(round(guidtime - long(guidtime), 3)) + ')'
        print "\tIP:     ", extract_ip(guid)
        print "\tCounter:", extract_counter(guid)
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