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As previous discussed, confirmation emails should have a unique, (practically) un-guessable code--essentially a one-time password--in the confirmation link.

The UUID.randomUUID() docs say:

The UUID is generated using a cryptographically strong pseudo random number generator.

Does this imply that the the UUID random generator in a properly implemented JVM is suitable for use as the unique, (practically) un-guessable OTP?

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You might be interested in my answer to another question, which will give you more security with fewer digits... if that matters. –  erickson Jun 14 '12 at 5:09
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6 Answers

up vote 5 down vote accepted

if you read the RFC that defines UUIDs, and which is linked to from the API docs, you'll see that not all bits of the UUID are actually random (the "variant" and the "version" are not random). so a type 4 UUID (the kind that you intend to use), if implemented correctly, should have 122 bits of (secure, for this implementation) random information, out of a total size of 128 bits.

so yes, it will work as well as a 122 bit random number from a "secure" generator. but a shorter value may contain a sufficient amount of randomness and might be easier for a user (maybe i am the only old-fashioned person who still reads email in a terminal, but confirmation URLs that wrap across lines are annoying....).

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Others provided similar answers, but this seemed to be the most complete and informative. Thanks. –  cqcallaw Jun 14 '12 at 4:25
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Yes, using a java.util.UUID is fine. There's not much more that needs to be said.

Here's my suggestion:

  1. Send the user a link with a huge password in it as the URL argument.
  2. When user clicks the link, write your backend so that it will determine whether or not the argument is correct and that the user is logged in.
  3. Invalidate the UUID 24 hours after it has been issued.

This will take some work, but it's necessary if you really care about writing a robust, secure system.

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Your suggestion is my exact intention, except I intend to invalidate the UUID as soon as the confirmation URL is visited and confirmation is complete. –  cqcallaw Jun 14 '12 at 4:28
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It is perfect as one time password, as even I had implemented the same for application on which am working. Moreover, the link which you've shared says it all.

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If it's generated by a CSRNG then it's unpredictable and so can be used.

But the trouble you're going to is wasted if you're sending out confirmation emails unencrypted - if an attacker has the means of predicting RNG results from your system then chances are they can intercept emails too.

UUIDs are also long strings (128-bits then typically Base64 (22 chars) or Base16-encoded (32 chars)) - think about how user-friendly your system will be. Personally I'd use a CSRNG to select 8 alphanumeric characters at random and return those.

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I don't think being able to predict RNG results implies email interception capabilities--it just implies that the RNG is poorly implemented :) Also, I'm not too concerned about the length, because I expect to embed the code in a confirmation URL that must be visited to complete confirmation. –  cqcallaw Jun 14 '12 at 4:25
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I think this should be suitable, as it is generated randomly rather than from any specific input (ie you're not feeding it with a username or something like that) - so multiple calls to this code will give different results. It states that its a 128-bit key, so its long enough to be impractical to break.

Are you then going to use this key to encrypt a value, or are you expecting to use this as the actual password? Regardless, you'll need to re-interpret the key into a format that can be entered by a keyboard. For example, do a Base64 or Hex conversion, or somehow map the values to alpha-numerics, otherwise the user will be trying to enter byte values that don't exist on the keyboard.

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I plan to embed the confirmation code in a confirmation URL that the email recipient clicks to complete confirmation. No user input should be necessary... –  cqcallaw Jun 14 '12 at 4:21
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The point of the random code for a confirmation link is that the attacker should not be able to guess nor predict the value. As you can see, to find the correct code to your confirmation link, a 128bits length UUID yields 2^128 different possible codes, namely, 340,282,366,920,938,463,463,374,607,431,768,211,456 possible codes to try. I think your confirmation link is not for launching a nuclear weapon, right? This is difficult enough for attacker to guess. It's secure.

-- update --

If you don't trust the cryptographically strong random number generator provided, you can put some more unpredictable parameters with the UUID code and hash them. For example,

code = SHA1(UUID, Process PID, Thread ID, Local connection port number, CPU temperature)

This make it even harder to predict.

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Just the number of bits generated doesn't make it unpredictable. java.util.Random can be used to get 128 bits of data, but that doesn't mean it's anything like secure. –  Louis Wasserman Jun 14 '12 at 3:25
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Nowadays, people attacks for making money, and you have a limited budget. Nothing is unbreakable. So how secure it should be? The point of security is - how much do they cost to break it, and what benefit they can get? If it's a code for confirmation link of a common website, then this is secure enough. If this is a code for nuclear weapon, then I wouldn't say so. For me, the definition of secure is - The cost to break it >> The revenue expectation. When it cost too much to break it, and little revenue you can make by break it, then it's safe. –  Victor Lin Jun 14 '12 at 3:36
    
@LouisWasserman You cant compare java.util.Random with UUID.randomUUID() –  Pau Kiat Wee Jun 14 '12 at 3:56
    
There is a topic is about randomUUID stackoverflow.com/questions/2513573/… –  Victor Lin Jun 14 '12 at 3:58
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docs.oracle.com/javase/6/docs/api/java/security/… "A cryptographically strong random number minimally complies with the statistical random number generator tests specified in FIPS 140-2, Security Requirements for Cryptographic Modules, section 4.9.1. Additionally, SecureRandom must produce non-deterministic output. Therefore any seed material passed to a SecureRandom object must be unpredictable, and all SecureRandom output sequences must be cryptographically strong, as described in RFC 1750: Randomness Recommendations for Security." –  Victor Lin Jun 14 '12 at 4:02
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