# How unique is UUID?

How safe is it to use UUID to uniquely identify something (I'm using it for files uploaded to the server)? As I understand it, it is based off random numbers. However, it seems to me that given enough time, it would eventually repeat it self, just by pure chance. Is there a better system or a pattern of some type to alleviate this issue?

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For a large enough value of "enough time" :) –  lutz Jul 20 '09 at 18:13
"How unique is UUID?" Universally unique, I believe. ;) –  Miles Jul 20 '09 at 18:25
And unless you plan on developing on Venus, a GUID should suffice. –  skaffman Jul 20 '09 at 22:21
more details and generator here: online uuid generator –  Dave May 8 '12 at 18:06

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I like this part from Wikipedia: However, these probabilities only hold when the UUIDs are generated using sufficient entropy. Otherwise, the probability of duplicates could be significantly higher, since the statistical dispersion might be lower. So what is the real chance of duplicate noting this sentence. We can not create real random numbers on computer, can we? –  mans Aug 29 '14 at 10:46
Actually, a lot of work has gone into finding ways to introduce as much entropy ("real randomness", I guess you'd call it) as possible into random number APIs. See en.wikipedia.org/wiki/Entropy_%28computing%29 –  broofa Dec 6 '14 at 13:48

If by "given enough time" you mean 100 years and you're creating them at a rate of a billion a second, then yes, you have a 50% chance of having a collision after 100 years.

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But only after using up 256 exabytes of storage for those IDs. –  Bob Aman Sep 10 '09 at 7:04

There is more than one type of UUID, so "how safe" depends on which type (which the UUID specifications call "version") you are using.

• Version 1 is the time based plus MAC address UUID. The 128-bits contains 48-bits for the network card's MAC address (which is uniquely assigned by the manufacturer) and a 60-bit clock with a resolution of 100 nanoseconds. That clock wraps in 3603 A.D. so these UUIDs are safe at least until then (unless you need more than 10 million new UUIDs per second or someone clones your network card). I say "at least" because the clock starts at 15 October 1582, so you have about 400 years after the clock wraps before there is even a small possibility of duplications.

• Version 4 is the random number UUID. There's six fixed bits and the rest of the UUID is 122-bits of randomness. See Wikipedia or other analysis that describe how very unlikely a duplicate is.

• Version 3 is uses MD5 and Version 5 uses SHA-1 to create those 122-bits, instead of a random or pseudo-random number generator. So in terms of safety it is like Version 4 being a statistical issue (as long as you make sure what the digest algorithm is processing is always unique).

• Version 2 is similar to Version 1, but with a smaller clock so it is going to wrap around much sooner. But since Version 2 UUIDs are for DCE, you shouldn't be using these.

So for all practical problems they are safe. If you are uncomfortable with leaving it up to probabilities (e.g. your are the type of person worried about the earth getting destroyed by a large asteroid in your lifetime), just make sure you use a Version 1 UUID and it is guaranteed to be unique (in your lifetime, unless you plan to live past 3603 A.D.).

So why doesn't everyone simply use Version 1 UUIDs? That is because Version 1 UUIDs reveal the MAC address of the machine it was generated on and they can be predictable -- two things which might have security implications for the application using those UUIDs.

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Defaulting to a version 1 UUID has serious issues when they're generated by the same server for many people. The version 4 UUID is my default since you can quickly write something to generate one in any language or platform (including javascript). –  Justin Bozonier Apr 24 '13 at 14:58
@Hoylen Well explained! but is this much exaggeration required? –  Dinoop paloli Sep 16 '14 at 11:32

Quoting from Wikipedia:

Thus, anyone can create a UUID and use it to identify something with reasonable confidence that the identifier will never be unintentionally used by anyone for anything else

It goes on to explain in pretty good detail on how safe it actually is. So to answer your question: Yes, it's safe enough.

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UUID schemes generally use not only a pseudo-random element, but also the current system time, and some sort of often-unique hardware ID if available, such as a network MAC address.

The whole point of using UUID is that you trust it to do a better job of providing a unique ID than you yourself would be able to do. This is the same rationale behind using a 3rd party cryptography library rather than rolling your own. Doing it yourself may be more fun, but it's typically less responsible to do so.

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The answer to this may depend largely on the UUID version.

Many UUID generators use a version 4 random number. However, many of these use Pseudo a Random Number Generator to generate them.

If a poorly seeded PRNG with a small period is used to generate the UUID I would say it's not very safe at all.

Therefore, it's only as safe as the algorithms used to generate it.

On the flip side, if you know the answer to these questions then I think a version 4 uuid should be very safe to use. In fact I'm using it to identify blocks on a network block file system and so far have not had a clash.

In my case, the PRNG I'm using is a mersenne twister and I'm being careful with the way it's seeded which is from multiple sources including /dev/urandom. Mersenne twister has a period of 2^19937 − 1. It's going to be a very very long time before I see a repeat uuid.

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Been doing it for years. Never run into a problem.

I usually set up my DB's to have one table that contains all the keys and the modified dates and such. Haven't run into a problem of duplicate keys ever.

The only drawback that it has is when you are writing some queries to find some information quickly you are doing a lot of copying and pasting of the keys. You don't have the short easy to remember ids anymore.

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I don't know if this matters to you, but keep in mind that GUIDs are globally unique, but substrings of GUIDs aren't.

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Keep in mind that the reference linked here talks about Version 1 UUIDs (which take information about the generating computer etc. into the id). Most other Answers talk about Version 4 (which are totally random). The above linked Wikipedia article en.wikipedia.org/wiki/Universally_unique_identifier explains the different kinds of UUIDs. –  kratenko Apr 4 '14 at 15:18