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I know randomized UUID have very very very low probability for collision in theory, but I am wondering, in practice, how good is java 5's randonUUID in terms of not having collision? Does anybody have any experience to share?

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In my experience, I have never seen a collision ;-) –  Thilo Mar 25 '10 at 6:54
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The algorithms are specified in RFC1422: ietf.org/rfc/rfc4122.txt –  skaffman Mar 25 '10 at 8:33
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@skaffman: the RFC says absolutely nothing about the algorithm used to generate the random digits. –  Michael Borgwardt Mar 25 '10 at 10:36
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Since this is a more open ended question, I guess I won't mark any answer as the correct answer; instead, I will give one vote to each of the answers that I think is good :) –  Alvin Mar 26 '10 at 6:05
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From wikipedia: ...In other words, only after generating 1 billion UUIDs every second for the next 100 years, the probability of creating just one duplicate would be about 50%. –  MaVRoSCy Aug 29 '12 at 9:23

6 Answers 6

I'm not an expert, but I'd assume that enough smart people looked at Java's random number generator over the years. Hence, I'd also assume that random UUIDs are good. So you should really have the theoretical collision probability (which is about 1 : 3 × 10^38 for all possible UUIDs. Does anybody know how this changes for random UUIDs only? Is it 1/(16*4) of the above?)

From my practical experience, I've never seen any collisions so far. I'll probably have grown an astonishingly long beard the day I get my first one ;)

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From wikipedia: ...In other words, only after generating 1 billion UUIDs every second for the next 100 years, the probability of creating just one duplicate would be about 50%. –  MaVRoSCy Aug 29 '12 at 9:23

Does anybody have any experience to share?

There are 2^122 possible values for a type-4 UUID. (The spec says that you lose 2 bits for the type, and a further 4 bits for a version number.)

Assuming that you were to generate 1 million random UUIDs a second, the chances of a duplicate occurring in your lifetime would be vanishingly small. (And to detect the duplicate, you'd have to solve the problem of comparing 1 million new UUIDs per second against all of the UUIDs you have previously generated!)

The chances that anyone has experienced (i.e. actually noticed) a duplicate in real life are even smaller than vanishingly small ... because of the practical difficulty of looking for collisions.

Now of course, you will typically be using a pseudo-random number generator, not a source of truly random numbers. But I think we can be confident that if you are using a creditable provider for your cryptographic strength random numbers, then it will be cryptographic strength, and the probability of repeats will be the same as for an ideal (non-biased) random number generator.

However, if you were to use a JVM with a "broken" crypto- random number generator, all bets are off. (And that might include some of the workarounds for "shortage of entropy" problems on some systems. Or the possibility that someone has tinkered with your JRE, either on your system or upstream.)

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UUID uses java.security.SecureRandom, which is supposed to be "cryptographically strong". While the actual implementation is not specified and can vary between JVMs (meaning that any concrete statements made are valid only for one specific JVM), it does mandate that the output must pass a statistical random number generator test.

It's always possible for an implementation to contain subtle bugs that ruin all this (see OpenSSH key generation bug) but I don't think there's any concrete reason to worry about Java UUIDs's randomness.

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"It's always possible for an implementation to contain subtle bugs ..." - Or (donning tin-foil hat) ... deliberate subtle flaws. <:-) –  Stephen C Sep 16 '14 at 13:20
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Cryptographic strength is completely irrelevant for the question of collisions. –  osa Jan 4 at 1:12
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@osa: Not producing collisions (more than to be expected from perfect randomness) is pretty much the lowest quality requirement for a RNG, while cryptographic strength is the highest. In other words, a cryptographically strong RNG will most definitely not produce more collisions than expected. –  Michael Borgwardt Jan 4 at 1:37

Wikipedia has a very good answer http://en.wikipedia.org/wiki/Universally_unique_identifier#Random_UUID_probability_of_duplicates

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I'd also quote from that page, "The probability of one duplicate would be about 50% if every person on earth owns 600 million UUIDs." –  Jeff Axelrod Oct 28 '11 at 16:16
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This is only true for true randomness, not for pseudorandom numbers like javas UUIDs. –  Markus Oct 1 '12 at 14:08
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@Markus: completely wrong. Probability of collisions for good pseudorandom RNGs' especially cryptographically strong ones, is no different than "true" randomness. –  Michael Borgwardt Apr 6 '13 at 10:49
    
Wikipedia is wrong, in reality v4 ID's collide much more than this. Write a program and prove it to yourself. –  Eric May 22 '14 at 1:37
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@Eric - I think the onus is on you to back up your assertion. FWIW, the only scenarios I can think of where type 4 UUIDs would collide more frequently that the probability theory says they should are: 1) a bad source of crypto random numbers, or 2) a UUID library that has been compromised. –  Stephen C Jun 9 '14 at 7:49

We have been using the Java's random UUID in our application for more than one year and that to very extensively. But we never come across of having collision.

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I play at lottery last year, and I've never won .... but it seems that there lottery has winners ...

doc : http://tools.ietf.org/html/rfc4122

Type 1 : not implemented. collision are possible if the uuid is generated at the same moment. impl can be artificially a-synchronize in order to bypass this problem.

Type 2 : never see a implementation.

Type 3 : md5 hash : collision possible (128 bits-2 technical bytes)

Type 4 : random : collision possible (as lottery). note that the jdk6 impl dont use a "true" secure random because the PRNG algorithm is not choose by developer and you can force system to use a "poor" PRNG algo. So your UUID is predictable.

Type 5 : sha1 hash : not implemented : collision possible (160 bit-2 technical bytes)

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