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I understand the differences between the two from the docs.

Generate a UUID from a host ID, sequence number, and the current time

Generate a random UUID.

So uuid1 uses machine/sequence/time info to generate a UUID. What are the pros and cons of using each?

I know uuid1() can have privacy concerns, since it's based off of machine-information. I wonder if there's any more subtle when choosing one or the other. I just use uuid4() right now, since it's a completely random UUID. But I wonder if I should be using uuid1 to lessen the risk of collisions.

Basically, I'm looking for people's tips for best-practices on using one vs. the other. Thanks!

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Here is an alternative approach to UUID. Though the chance of collision is infinitesimal UUID doesn't guarantee uniqueness. To guarantee the uniqueness you may want to use compound key as [<system id>,<local id>]. Each system participating in data sharing must have its own unique ID of the system either assigned during system set-up or obtained from a common pool of IDs. Local id is a unique ID within any particular system. This involves more hassle but guarantees uniqueness. Sorry for the offtopic, just trying to help. – cherio Mar 27 '13 at 14:55
Doesn't take care of the "privacy concerns" he mentioned – Shrey Aug 4 '14 at 10:27
up vote 133 down vote accepted

uuid1() is guaranteed to not produce any collisions (under the assumption you do not create too many of them at the same time). I wouldn't use it if it's important that there's no connection between the uuid and the computer, as the mac address gets used to make it unique across computers.

You can create duplicates by creating more than 214 uuid1 in less than 100ns, but this is not a problem for most use cases.

uuid4() generates, as you said, a random UUID. The chance of a collision is really, really, really small. Small enough, that you shouldn't worry about it. The problem is, that a bad random-number generator makes it more likely to have collisions.

This excellent answer by Bob Aman sums it up nicely. (I recommend reading the whole answer.)

Frankly, in a single application space without malicious actors, the extinction of all life on earth will occur long before you have a collision, even on a version 4 UUID, even if you're generating quite a few UUIDs per second.

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Sorry, I commented without researching fully - there are bits reserved to keep a version 4 uuid from colliding with a version 1 uuid. I will remove my original comment. See – Mark Ransom Nov 23 '09 at 22:50
@gs Yeah, makes sense with what I was reading. uuid1 is "more unique", while uuid4 is more anonymous. So basically use uuid1 unless you have a reason not to. @mark ransom: Awesome answer, didn't come up when I searched for uuid1/uuid4. Straight from the horse's mouth, it seems. – rocketmonkeys Nov 25 '09 at 17:22
uuid1 won't necessarily produce unique UUIDs if you produce several per second on the same node. Example: [uuid.uuid1() for i in range(2)]. Unless of course something strange is going on that I'm missing. – Michael Mior Nov 16 '13 at 4:14
@Michael: uuid1 has a sequence number (4th element in your example), so unless you use up all the bits in the counter you don't have any collision. – Georg Schölly Nov 17 '13 at 19:56
I should have actually tested. They just happened to look identical. But I have run into a collision before with a snippet similar to the above and a number larger than 2. – Michael Mior Nov 17 '13 at 20:54

One instance when you may consider uuid1() rather than uuid4() is when UUIDs are produced on separate machines, for example when multiple online transactions are process on several machines for scaling purposes.

In such a situation, the risks of having collisions due to poor choices in the way the pseudo-random number generators are initialized, for example, and also the potentially higher numbers of UUIDs produced render more likely the possibility of creating duplicate IDs.

Another interest of uuid1(), in that case is that the machine where each GUID was initially produced is implicitly recorded (in the "node" part of UUID). This and the time info, may help if only with debugging.

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One thing to note when using uuid1, if you use the default call (without giving clock_seq parameter) you have a chance of running into collisions: you have only 14 bit of randomness (generating 18 entries within 100ns gives you roughly 1% chance of a collision see birthday paradox/attack). The problem will never occur in most use cases, but on a virtual machine with poor clock resolution it will bite you.

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@Guilaume it would be really useful to see an example of good practice using clock_seq.... – neuronet Feb 15 '15 at 3:22

My team just ran into trouble using UUID1 for a database upgrade script where we generated ~120k UUIDs within a couple of minutes. The UUID collision led to violation of a primary key constraint.

We've upgraded 100s of servers but on our Amazon EC2 instances we ran into this issue a few times. I suspect poor clock resolution and switching to UUID4 solved it for us.

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