_guid.py
169 lines
| 6.8 KiB
| text/x-python
|
PythonLexer
Brian E Granger
|
r1234 | # encoding: utf-8 | ||
# 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) | ||||