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Iam building a web app and I would like my URL scheme to look something like this:

Currently I just use the primary key from my SQL Alchemy objects, but the problem is that I dont want the Urls to be sequential or low numbers. For instance my URLs look like this:
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4 Answers 4

up vote 16 down vote accepted

Encoding the integers

You could use a reversible encoding for your integers:

def int_str(val, keyspace):
    """ Turn a positive integer into a string. """
    assert val >= 0
    out = ""
    while val > 0:
        val, digit = divmod(val, len(keyspace))
        out += keyspace[digit]
    return out[::-1]

def str_int(val, keyspace):
    """ Turn a string into a positive integer. """
    out = 0
    for c in val:
        out = out * len(keyspace) + keyspace.index(c)
    return out

Quick testing code:

keyspace = "fw59eorpma2nvxb07liqt83_u6kgzs41-ycdjh" # Can be anything you like - this was just shuffled letters and numbers, but...
assert len(set(keyspace)) == len(keyspace) # each character must occur only once

def test(v):
    s = int_str(v, keyspace)
    w = str_int(s, keyspace)
    print "OK? %r -- int_str(%d) = %r; str_int(%r) = %d" % (v == w, v, s, s, w)



OK? True -- int_str(1064463423090) = 'antmgabi'; str_int('antmgabi') = 1064463423090
OK? True -- int_str(4319193500) = 'w7q0hm-'; str_int('w7q0hm-') = 4319193500
OK? True -- int_str(495689346389) = 'ev_dpe_d'; str_int('ev_dpe_d') = 495689346389
OK? True -- int_str(2496486533) = '1q2t4w'; str_int('1q2t4w') = 2496486533

Obfuscating them and making them non-continuous

To make the IDs non-contiguous, you could, say, multiply the original value with some arbitrary value, add random "chaff" as the digits-to-be-discarded - with a simple modulus check in my example:

def chaffify(val, chaff_size = 150, chaff_modulus = 7):
    """ Add chaff to the given positive integer.
    chaff_size defines how large the chaffing value is; the larger it is, the larger (and more unwieldy) the resulting value will be.
    chaff_modulus defines the modulus value for the chaff integer; the larger this is, the less chances there are for the chaff validation in dechaffify() to yield a false "okay".
    chaff = random.randint(0, chaff_size / chaff_modulus) * chaff_modulus
    return val * chaff_size + chaff

def dechaffify(chaffy_val, chaff_size = 150, chaff_modulus = 7):
    """ Dechaffs the given chaffed value. The chaff_size and chaff_modulus parameters must be the same as given to chaffify() for the dechaffification to succeed.
    If the chaff value has been tampered with, then a ValueError will (probably - not necessarily) be raised. """
    val, chaff = divmod(chaffy_val, chaff_size)
    if chaff % chaff_modulus != 0:
        raise ValueError("Invalid chaff in value")
    return val

for x in xrange(1, 11):
    chaffed = chaffify(x)
    print x, chaffed, dechaffify(chaffed)

outputs (with randomness):

1 262 1
2 440 2
3 576 3
4 684 4
5 841 5
6 977 6
7 1197 7
8 1326 8
9 1364 9
10 1528 10

EDIT: On second thought, the randomness of the chaff may not be a good idea, as you lose the canonicality of each obfuscated ID -- this lacks the randomness but still has validation (changing one digit will likely invalidate the whole number if chaff_val is Large Enough).

def chaffify2(val, chaff_val = 87953):
    """ Add chaff to the given positive integer. """
    return val * chaff_val

def dechaffify2(chaffy_val, chaff_val = 87953):
    """ Dechaffs the given chaffed value. chaff_val must be the same as given to chaffify2(). If the value does not seem to be correctly chaffed, raises a ValueError. """
    val, chaff = divmod(chaffy_val, chaff_val)
    if chaff != 0:
        raise ValueError("Invalid chaff in value")
    return val

Putting it all together

document_id = random.randint(0, 1000000)
url_fragment = int_str(chaffify(document_id))
print "URL for document %d:" % (document_id, url_fragment)
request_id = dechaffify(str_int(url_fragment))
print "Requested: Document %d" % request_id

outputs (with randomness)

URL for document 831274:
Requested: Document 831274
share|improve this answer
The reversible aspect here is really nice. – Christian Oudard Mar 26 '12 at 20:08
+1 for thorough example. TIL – Tom Willis Mar 27 '12 at 1:11

probably a little longer than you would like.

Python 2.7.1+ (r271:86832, Apr 11 2011, 18:13:53) 
[GCC 4.5.2] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> import uuid
>>> uuid.uuid4()
>>> str(uuid.uuid4())

And if you are using sqlalchemy you can define an id column of type uuid like so

from sqlalchemy import types
from sqlalchemy.databases.mysql import MSBinary
from sqlalchemy.schema import Column
import uuid

class UUID(types.TypeDecorator):
    impl = MSBinary
    def __init__(self):
        self.impl.length = 16

    def process_bind_param(self,value,dialect=None):
        if value and isinstance(value,uuid.UUID):
            return value.bytes
        elif value and not isinstance(value,uuid.UUID):
            raise ValueError,'value %s is not a valid uuid.UUID' % value
            return None

    def process_result_value(self,value,dialect=None):
        if value:
            return uuid.UUID(bytes=value)
            return None

    def is_mutable(self):
        return False

id_column_name = "id"

def id_column():
    import uuid
    return Column(id_column_name,UUID(),primary_key=True,default=uuid.uuid4)

If you are using Django, Preet's answer is probably more appropriate since a lot of django's stuff depends on primary keys that are ints.

share|improve this answer
this is a generated universally unique id. it is not associated or mapped to the ids of object records in an deterministic way and hence doesn't meet the askers requirements. – Preet Kukreti Mar 26 '12 at 19:02
you may be right, but it doesn't read that way to me in the question. unless the string of characters as typed was supposed to be the requirement. there's been plenty of times where people have asked how to use something like guids for primary keys instead of a sequntial counter, which was what I thought was being asked. – Tom Willis Mar 26 '12 at 19:07
@Preet The asker would presumably want to store the mangled key alongside his primary key any way – Joe Holloway Mar 26 '12 at 19:14
ah yes sorry, I was under the impression that the asker wanted a mapping scheme, but maybe he really does want a primary key replacement. – Preet Kukreti Mar 26 '12 at 19:15

Looking into your requirement, the best bet would be to use itertools.combinations somewhat like this

>>> urls=itertools.combinations(string.ascii_letters,6)
>>> ''+''.join(
>>> ''+''.join(
>>> ''+''.join(
share|improve this answer

you could always take a hash of the id and then represent the resulting number with a base 62 (0-9, a-z, A-Z) radix.

import string
import hashlib

def enc(val):
    chars = string.digits + string.letters
    num_chars = len(chars)
    while val!= 0:
        r+=chars[val % num_chars]
    return r

def fancy_id(i, hash_truncate=12):
    h = hashlib.sha1(str(i))
    return enc(int(h.hexdigest()[:hash_truncate], 16))

fancy_id(1) # 'XYY6dYFg'
fancy_id(2) # '6jxNvE961'

similarly a decode function would exist You would have to store this generated url id in your object. so that you can map back from your url id to the object.

share|improve this answer
Are you sure that taking off the first 12 characters of the sha1 hash would offer a wide enough distribution such that no collisions would result in his range of possible IDs? You're changing the guarantees of the hashing algorithm by doing that, no? – Joe Holloway Mar 26 '12 at 19:18
Um... how would you decode the (truncated!) SHA1 hash into the original integer? – AKX Mar 26 '12 at 20:24
@Joe A good hash function demonstrates a strong avalanche effect in that 50% of the bits will be flipped on any small change. AFAIK this just reduces the domain, but does not sacrifice distribution within the domain. Yes, with a reduced domain there are more chances of collisions as the number of ids approaches the domain. The fact that there is no decode function (see below) means that this should be OK. AKX: Haha thanks, I intended it to be stored, not sure why when I finished writing the code I forgot and somehow thought there would be a decode function. – Preet Kukreti Mar 27 '12 at 1:37

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