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#!/usr/bin/env python
#------------------------------------------------------------------------------
# Copyright (c) 2005, Enthought, Inc.
# All rights reserved.
# 
# This software is provided without warranty under the terms of the BSD
# license included in enthought/LICENSE.txt and may be redistributed only
# under the conditions described in the aforementioned license.  The license
# is also available online at http://www.enthought.com/licenses/BSD.txt
# Thanks for using Enthought open source!
# 
# Author: Enthought, Inc.
# Description: <Enthought util package component>
#------------------------------------------------------------------------------

# GUID.py
# Version 2.1. 
#
# Copyright (C) 2003  Dr. Conan C. Albrecht <conan_albrechtATbyu.edu>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA



##################################################################################################
###   A globally-unique identifier made up of time and ip and 8 random digits: 40 characters wide
###  
###   A globally unique identifier that combines ip, time, and random bits.  Since the 
###   time is listed first, you can sort records by guid.  You can also extract the time 
###   and ip if needed.  
###     
###   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
#

import random
import socket
import sys
import time
import threading

# The size of the circular queue.  Larger sizes give more assurance for uniqueness.
# Smaller sizes take less memory and are a tiny bit faster
QUEUE_SIZE = 100


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

MAX_RANDOM = sys.maxint # converted to hex goes to 8 chars (at least, in Python 2.3)
rand = random.Random()
ip = ''
lock = threading.RLock()
lastguid = ''
try:
  ip = socket.gethostbyname(socket.gethostname())
except (socket.gaierror): # if we don't have an ip, default to someting in the 10.x.x.x private range
  ip = '10'
  for i in range(3):
    ip += '.' + str(rand.randrange(1, 254))
hexip = ''.join(["%04x" % long(i) for i in ip.split('.')]) # leave space for ip v6 (65K in each sub)


#######################################
###   A simple circular set
###   to ensure we don't duplicate
###   GUIDs in the same millisecond
  
class CircularSet:
  '''A circular set.  A set that maxes at a given size, replacing the oldest element after maximum size.
     This implementation is NOT thread safe.  (generate() below is thread safe, though)
  '''
  def __init__(self):
    self.queue = []
    self.queue_map = {} # for efficiency, we keep a map of everything
    self.queueindex = 0

  def add(self, val):
    '''Adds a value to the queue'''
    # check to see if we have this value.  If so, throw an exception
    assert not self.queue_map.has_key(val), 'This value is already in the set!'
    
    # add the new one to the list
    if len(self.queue) > self.queueindex:
      # first remove the previous key at this location
      del self.queue_map[self.queue[self.queueindex]]
      self.queue[self.queueindex] = val
    else:
      self.queue.append(val)
      
    # now add to the map for efficiency
    self.queue_map[val] = val
    
    # increment the queue index
    self.queueindex += 1
    if self.queueindex >= QUEUE_SIZE:
      self.queueindex = 0
      
queue = CircularSet()
  
#################################
###   Public module functions

def generate():
  '''Generates a new guid'''
  global lock, queue  # since we modify the module variable
  try:
    lock.acquire() # can't generate two guids at the same time
    while 1:
      parts = []
      # time part
      parts.append("%016x" % (long(time.time() * 1000)))
      # ip part
      parts.append(hexip)
      # random part
      parts.append(("%08x" % (rand.random() * MAX_RANDOM))[:8]) # limit to 8 chars, just in case maxint goes up in future Pythons
      # put them all together
      guid = ''.join(parts)
      try:
        queue.add(guid)  # throws the AssertionError if this GUID is a duplicate of the queue
        return guid
      except AssertionError: # signals we already have this GUID in the queue
        pass
  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


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
  ip = ''
  index = 16
  while index < 32:
    if ip != '':
      ip += "."
    ip += str(int(guid[index: index + 4], 16))
    index += 4
  return ip


def extract_random(guid):
  '''Extracts the random bits from the guid (returns the bits in decimal)'''
  return int(guid[32:], 16)


### TESTING OF GUID CLASS ###
if __name__ == "__main__":
  guid = generate()
  print "GUID:", guid
  print "Time:", time.strftime('%a, %d %b %Y %H:%M:%S', time.localtime(extract_time(guid)))
  print "IP:  ", extract_ip(guid)
  print "Rand:", extract_random(guid)