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I am aware of the multitude of questions here as well as Raymond's excellent (as usual) post. However, since the algorithm to create GUIDs was changed apparently, I found it hard to get my hands on any up-to-date information. The MSDN seems to try and provide as few information as possible.

What is known about how GUIDs are generated in .NET 4? What was changed, and how does it affect the security ("randomness") and integrity ("uniqueness")?

One specific aspect I'm interested in: In v1, it seems to be about impossible to generate the same GUID on a single machine again since there was a timestamp and counter involved. In v4, this is no longer the case (I was told), so the chance to get the same GUID on a single machine ... increased?

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Since Windows 2000 Microsoft uses a version 4 algorithm:

With Windows 2000, Microsoft switched to version 4 GUIDs, since embedding the MAC address was viewed as a security risk. 1

You can see that as well from a GUID generated in .NET (from Wikipedia):

Version 4 UUIDs have the form xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx with any hexadecimal digits for x but only one of 8, 9, A, or B for y. e.g. f47ac10b-58cc-4372-a567-0e02b2c3d479.

A version 4 UUID consist of 122 significant bits, giving 2^122 distinct values which is a very large number. Given a set of H values, the expected number of values we have to choose before finding the first random collision with a 50% chance can be calculated as follows (see Birthday Attack on Wikipedia):

alt text

The result (birthday bound) for 2^122 different values is approximately 2,89e+18. This assumes that the generated values are randomly distributed. Obviously, if the values are distributed unevenly, a random collision can be found faster. For further details also see Random UUID probability of duplicates.

1As a matter of fact, the author of the Melissa worm could be tracked down due to a GUID generated using a version 1 algorithm.

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    +1 - GUIDs are generated by the underlying OS - not .NET. The .NET classes just wrap the underlying OS APIs. – jnoss May 3 '10 at 12:34
  • Thanks for the answer and the additional link, that clarified the bulk of my questions. Do you know if the assumption I'm making in the last paragraph is correct? – mafu May 3 '10 at 12:39
  • Dirk, can you address whether this applies to .NET core as well? Do we need to look into the OS APIs for whatever is running .NET core in order to find out the GUID generation version? – NH. Oct 24 '17 at 22:19
  • According to msdn.microsoft.com/en-us/library/…, since Windows 2000 back in 1999, "the random bits for all version 4 GUIDs built in Windows are obtained via the Windows CryptGenRandom cryptographic API or the equivalent, the same source that is used for generation of cryptographic keys". So I'd say you could call them cryptographically secure -- at least to the extent of the 122 bits of entropy they provide. – Jordan Rieger May 28 '18 at 19:45
  • @JordanRieger: Your statement may be correct, but you should not forget that section 6 of RFC4122 is pretty clear about what you should assume about the randomness of UUID values (including version 4): tools.ietf.org/html/rfc4122#section-6 "Do not assume that UUIDs are hard to guess; they should not be used as security capabilities" — so the specification clearly says you should not consider UUIDs cryptographically secure (even if the actual implementation would guarantee that). – Dirk Vollmar May 28 '18 at 20:08
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Yes, there was a change in .NET 4.0, Guid.NewGuid() directly calls CoCreateGuid(), a small wrapper around UuidCreate(). Previous versions of .NET called a helper function in the CLR, GuidNative::CompleteGuid(). Which calls CoCreateGuid. Not sure why this change was made, smells like nothing more than a minor optimization.

At any rate, the exact same Windows function generates the Guid, the algorithm has been the same for the past 10 years, it is as reliable as it ever was.

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