I would like to generate a long UUID - something like the session key used by gmail. It should be at least 256 chars and no more than 512. It can contain all alpha-numeric chars and a few special chars (the ones below the function keys on the keyboard). Has this been done already or is there a sample out there?

C++ or C#

Update: A GUID is not enough. We already have been seeing collisions and need to remedy this. 512 is the max as of now because it will prevent us from changing stuff that was already shipped.

Update 2: For the guys who are insisting about how unique the GUID is, if someone wants to guess your next session ID, they don't have to compute the combinations for the next 1 trillion years. All they have to do is use constrain the time factor and they will be done in hours.

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    Is globally unique not unique enough? – John Rasch May 19 '10 at 17:10
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    @John: What, your application doesn't need to support an interstellar empire? – Steven Sudit May 19 '10 at 17:11
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    Regardless of whether what he's asking is unnecessary, it seems pointless to downvote the guy for an honest question... – Dan Tao May 19 '10 at 17:12
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    Why don't you just answer his question without all the sarcasm and bad vibes? – bl4ckb0l7 May 19 '10 at 17:13
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    @bitschnau i disagree. it is possible that asker is not aware that Guid is unique enought. if it is just that he really don't need LONG guid. if he needs only some sequence of bytes then again, it is not guid that he needs – Andrey May 19 '10 at 17:16

As per your update2 you are correct on Guids are predicable even the msdn references that. here is a method that uses a crptographicly strong random number generator to create the ID.

static long counter; //store and load the counter from persistent storage every time the program loads or closes.

public static string CreateRandomString(int length)
    long count = System.Threading.Interlocked.Increment(ref counter);
    int PasswordLength = length;
    String _allowedChars = "abcdefghijkmnopqrstuvwxyzABCDEFGHJKLMNOPQRSTUVWXYZ23456789";
    Byte[] randomBytes = new Byte[PasswordLength];
    RNGCryptoServiceProvider rng = new RNGCryptoServiceProvider();
    char[] chars = new char[PasswordLength];
    int allowedCharCount = _allowedChars.Length;
    for (int i = 0; i < PasswordLength; i++)
        while(randomBytes[i] > byte.MaxValue - (byte.MaxValue % allowedCharCount))
            byte[] tmp = new byte[1];
            randomBytes[i] = tmp[0];
        chars[i] = _allowedChars[(int)randomBytes[i] % allowedCharCount];
    byte[] buf = new byte[8];
    buf[0] = (byte) count;
    buf[1] = (byte) (count >> 8);
    buf[2] = (byte) (count >> 16);
    buf[3] = (byte) (count >> 24);
    buf[4] = (byte) (count >> 32);
    buf[5] = (byte) (count >> 40);
    buf[6] = (byte) (count >> 48);
    buf[7] = (byte) (count >> 56);
    return Convert.ToBase64String(buf) + new string(chars);

EDIT I know there is some biasing because allowedCharCount is not evenly divisible by 255, you can get rid of the bias throwing away and getting a new random number if it lands in the no-mans-land of the remainder.

EDIT2 - This is not guaranteed to be unique, you could hold a static 64 bit(or higher if necessary) monotonic counter encode it to base46 and have that be the first 4-5 characters of the id.

UPDATE - Now guaranteed to be unique

UPDATE 2: Algorithm is now slower but removed biasing.

EDIT: I just ran a test, I wanted to let you know that ToBase64String can return non alphnumeric charaters (like 1 encodes to "AQAAAAAAAAA=") just so you are aware.

New Version:

Taking from Matt Dotson's answer on this page, if you are no so worried about the keyspace you can do it this way and it will run a LOT faster.

public static string CreateRandomString(int length)
    length -= 12; //12 digits are the counter
    if (length <= 0)
        throw new ArgumentOutOfRangeException("length");
    long count = System.Threading.Interlocked.Increment(ref counter);
    Byte[] randomBytes = new Byte[length * 3 / 4];
    RNGCryptoServiceProvider rng = new RNGCryptoServiceProvider();

    byte[] buf = new byte[8];
    buf[0] = (byte)count;
    buf[1] = (byte)(count >> 8);
    buf[2] = (byte)(count >> 16);
    buf[3] = (byte)(count >> 24);
    buf[4] = (byte)(count >> 32);
    buf[5] = (byte)(count >> 40);
    buf[6] = (byte)(count >> 48);
    buf[7] = (byte)(count >> 56);
    return Convert.ToBase64String(buf) + Convert.ToBase64String(randomBytes);
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    Technically you're still not guaranteed to be unique. When you run out of counter bits and start cycling, you'll get the very remote possibility of collision. If you're going to keep a counter, the you can just use System.Numerics.BigInteger and count forever. – Matt Dotson May 19 '10 at 20:09
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    if he generates 11,574 new id's per second (1 billion per day) 24 hours a day, 356 days a year, it will take 50.5 million years for it to wrap around. I think 64 bit will be fine. – Scott Chamberlain May 19 '10 at 21:11
  • Would using your method of generating a random string, say, be safe for generating unique product keys? – David Anderson Apr 18 '12 at 8:21
  • @DavidAnderson Yes, but if the product key is going to be verified on the client without connecting to a server to check if it is valid it would not work. For that kind of method you need some way to verify that the key is "Correct". See this SO Question for instructions to do it that way. – Scott Chamberlain Apr 18 '12 at 13:58
  • I already have an activation server wrote and ready, I just wanted to make sure the algorithm was good enough for key generation (I tested it generating 1,000,000 unique keys and there were no collisions), so it seems like a good method. :) I was struggling with Base32Encoding and things of such. – David Anderson Apr 18 '12 at 19:07

If your GUIDs are colliding, may I ask how you're generating them?

It is astronomically improbable that GUIDs would collide as they are based on:

  • 60 bits - timestamp during generation
  • 48 bits - computer identifier
  • 14 bits - unique ID
  • 6 bits are fixed

You would have to run the GUID generation on the same machine about 50 times in the exact same instant in time in order to have a 50% chance of collision. Note that instant is measured down to nanoseconds.


As per your comment "putting GUIDs into a hashtable"... the GetHashCode() method is what is causing the collision, not the GUIDs:

public override int GetHashCode()
    return ((this._a ^ ((this._b << 0x10) | ((ushort) this._c))) ^ ((this._f << 0x18) | this._k));

You can see it returns an int, so if you have more than 2^32 "GUIDs" in the hashtable, you are 100% going to have a collision.

  • Try inserting in sql-server 2005. That's were we saw the collisions – Ron May 19 '10 at 17:37
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    @Ron: you could always have SQL give you the GUID. – Matthew Whited May 19 '10 at 17:39
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    This is a good point. The OP should modify his test program to check for equality when he gets a collision. That way you can tell the difference between 2 GUIDs with colliding hash codes and 2 identical GUIDs. – A. Levy May 19 '10 at 17:42
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    +1 for brilliant insight on the hash table. – Ogre Psalm33 May 19 '10 at 17:48
StringBuilder sb = new StringBuilder();
for (int i = 0; i < HOW_MUCH_YOU_WANT / 32; i++)
return sb.ToString();

but what for?

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    +1 for asking the right question. – Steven Sudit May 19 '10 at 19:10

The problem here is why, not how. A session ID bigger than a GUID is useless, because it's already big enough to thwart brute force attacks.

If you're concerned about predicting GUID's, don't be. Unlike the earlier, sequential GUID's, V4 GUID's are cryptographically secure, based on RC4. The only exploit I know about depends on having full access to the internal state of the process that's generating the values, so it can't get you anywhere if all you have is a partial sequence of GUID's.

If you're paranoid, generate a GUID, hash it with something like SHA-1, and use that value. However, this is a waste of time. If you're concerned about session hijacking, you should be looking at SSL, not this.

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    For the record, this was downvoted arbitrarily by someone who is unhappy with me. – Steven Sudit Jul 22 '10 at 15:47
byte[] random = new Byte[384];

//RNGCryptoServiceProvider is an implementation of a random number generator.
RNGCryptoServiceProvider rng = new RNGCryptoServiceProvider();
var sessionId = Convert.ToBase64String(random);

You can replace the "/" and "=" from the base64 encoding to be whatever special characters are acceptable to you.

Base64 encoding creates a string that is 4/3 larger than the byte array (hence the 384 bytes should give you 512 characters).

This should give you orders of magnatude more values than a base16 (hex) encoded guid. 512^16 vs 512^64

Also if you are putting these in sql server, make sure to turn OFF case insensitivity.


There are two really easy ways (C#):

1) Generate a bunch of Guids using Guid.NewGuid().ToString("N"). each GUID will be 32 characters long, so just generate 8 of them and concatenate them to get 256 chars.

2) Create a constant string (const string sChars = "abcdef") of acceptable characters you'd like in your UID. Then in a loop, randomly pick characters from that string by randomly generating a number from 0 to the length of the string of acceptable characters (sChars), and concatenate them in a new string (use stringbuilder to make it more performant, but string will work too).

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    The latter technique is not guaranteed unique, since it's random. It's UNLIKELY to clash, but not guaranteed. – Will Hartung May 19 '10 at 17:21
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    Of course, the first technique is also not guaranteed unique and more likely to clash than the second one. :) – Stephen Cleary May 19 '10 at 17:54

You may want to check out boost's Uuid Library. It supports a variety of generators, including a random generator that might suit your needs.


I would use some kind of hash of std::time() probably sha512. ex (using crypto++ for the sha hash + base64 encoding).

#include <iostream>
#include <sstream>
#include <ctime>
#include <crypto++/sha.h>
#include <crypto++/base64.h>

int main() {
    std::string digest;
    std::stringstream ss("");
    ss << std::time(NULL);

    // borrowed from http://www.cryptopp.com/fom-serve/cache/50.html
    CryptoPP::SHA512 hash;
    CryptoPP::StringSource foo(ss.str(), true,
        new CryptoPP::HashFilter(hash,
           new CryptoPP::Base64Encoder(
               new CryptoPP::StringSink(digest))));
    std::cout << digest << std::endl;

    return 0;
  • I am thing along the same lines. – Ron May 19 '10 at 17:42

https://github.com/bigfatsea/SUID Simple Unique Identifier

Though it's in Java, but can be easily ported to any other language. You may expect duplicated ids on same instance 136 years later, good enough for medium-small projects.


long id = SUID.id().get();

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