So I have some code which needs to use UUID for database IDs. I've gone with v4 (random) for simplicity's sake, and I don't see any real reason to use any of the other less random version of UUID. My UUID class is approximately defined like this (simplified):

class uuid {
    static uuid create_v4();
    // cut out for simplification...
    uint8_t bytes[16];

where the actual generation code looks like this:

namespace {

uint32_t rand32() {
    // we need to do this, because there is no
    // gaurantee that RAND_MAX is >= 0xffffffff
    // in fact, it is LIKELY to be 0x7fffffff
    const uint32_t r1 = rand() & 0x0ff;
    const uint32_t r2 = rand() & 0xfff;
    const uint32_t r3 = rand() & 0xfff;
    return (r3 << 20) | (r2 << 8) | r1;



uuid uuid::create_v4() {

    static const uint16_t c[] = {

    uuid uuid;

    const uint32_t rand_1 = (rand32() & 0xffffffff);
    const uint32_t rand_2 = (rand32() & 0xffff0fff) | 0x4000;
    const uint32_t rand_3 = (rand32() & 0xffff0fff) | c[rand() & 0x03];
    const uint32_t rand_4 = (rand32() & 0xffffffff);

    uuid.bytes[0x00] = (rand_1 >> 24) & 0xff;
    uuid.bytes[0x01] = (rand_1 >> 16) & 0xff;
    uuid.bytes[0x02] = (rand_1 >> 8 ) & 0xff;
    uuid.bytes[0x03] = (rand_1      ) & 0xff;

    uuid.bytes[0x04] = (rand_2 >> 24) & 0xff;
    uuid.bytes[0x05] = (rand_2 >> 16) & 0xff;
    uuid.bytes[0x06] = (rand_2 >> 8 ) & 0xff;
    uuid.bytes[0x07] = (rand_2      ) & 0xff;

    uuid.bytes[0x08] = (rand_3 >> 24) & 0xff;
    uuid.bytes[0x09] = (rand_3 >> 16) & 0xff;
    uuid.bytes[0x0a] = (rand_3 >> 8 ) & 0xff;
    uuid.bytes[0x0b] = (rand_3      ) & 0xff;

    uuid.bytes[0x0c] = (rand_4 >> 24) & 0xff;
    uuid.bytes[0x0d] = (rand_4 >> 16) & 0xff;
    uuid.bytes[0x0e] = (rand_4 >> 8 ) & 0xff;
    uuid.bytes[0x0f] = (rand_4      ) & 0xff;

    return uuid;

This looks correct to me, but I recently got an error from the DB saying that the UUID I tried to insert was a duplicate. Since this is supposed to be highly improbable, I have to assume that there may be an issue with my code. So anyone see anything wrong? Is my random UUID generation, not quite random enough?

NOTE: I cannot use boost's random number generation or it's UUID library. I wish I could, but I am tied to a particular system with particular versions of libraries installed and getting a new enough version of boost to have those features is pretty much not possible.

  • 1
    How are you seeding rand()? Sep 7, 2012 at 17:49
  • 5
    Using a plain rand() for this stuff doesn't seem such a good idea to me, especially since the low-order bits of numbers generated by an LCG are the least random part of the generated number (they typically have shorter period). You should at the very least take some higher order bits, and if I were you I'd go with the version of the algorithm that includes a timestamp, at least you are much less likely to generate duplicates. Sep 7, 2012 at 17:50
  • 3
    can you let the database generate it itself? That would be the safest bet.
    – pstrjds
    Sep 7, 2012 at 17:52
  • 1
    @Matteo: as far as I understand, the gnu libc's implementation of rand() takes measures to avoid the LCG having lower randomness, though I could be wrong.
    – Evan Teran
    Sep 7, 2012 at 17:57
  • 1
    Seeding with time() has a 1-second resolution. Could you be running the seed code more than once in the same second? Sep 7, 2012 at 17:58

1 Answer 1


The code appears to be reasonable to me. As mentioned in the comments, there is some question as to whether rand() is a good choice for this task, but your usage of it seems like a reasonable way to produce 32-bits of data assuming a newer version of the library is being used that ensures the lower bits are as random as the higher bits (also mentioned in the comments by you).

So as long as the rand() function is doing even a moderately good job, it seems very unlikely that you should get a duplicate. So my guess is that there was a different kind of failure. Some possibilities that come to mind:

  1. time(0) failure. This seems highly unlikely. If it returned -1 to indicate an error in two different runs, then it could lead to the problem. However, the only way it is supposed to be able to fail is if an invalid address was given to it (which is definitely not the case here).
  2. Multi-threaded usage. I don't think rand() is thread-safe. If this code were used in a multi-threaded situation, maybe that could result in unexpected behavior.
  3. Cron is causing difficulties. If the clock on the workstation were not accurate and it was being set automatically (e.g., via rdate) to sync with some server, then it could cause a repeat in the cron job at a certain time. I was able to mimic this behavior simply by creating a cron job to dump the current date to a file every minute and then repeatedly setting the date ... it ended up writing the same date/time (to the second) to the file more than once. With a one second resolution of the time function, this could easily lead to a duplicate seed.
  4. The code writing the UUID to the database is incorrect. Even if the UUID generator is working perfectly, there could be a different bug that writes the same UUID twice to the database.

Just wild guesses. Of these, the third one is my favorite, but the 4th would be the one I would suspect first if I were reviewing my own code.

  • #3 is very interesting, I'll definitely have to check into that. I've since updated the code to use /dev/urandom for the seed when it can be successfully read and falls back on time(0) if that fails. So far, it's looking good.
    – Evan Teran
    Sep 11, 2012 at 16:27
  • 1
    @Evan: Last Friday afternoon while waiting for some code scans to complete (that are sucking the life and soul out of me), I played with your UUID generation routine in both Windows and Linux. I simply generated 10 million of them, dumped them to a file, sorted, and then looked for duplicates via awk or ruby (can't remember right now) and did not produce duplicates. Not that that test really proves anything, but I failed to find anything wrong with the logic in your code. Sep 11, 2012 at 16:39
  • Thanks for your interest in getting to the bottom of this. The code has been running well for a few weeks now and I only got the duplicate key error once. So it truly may have been just really bad luck i guess.
    – Evan Teran
    Sep 11, 2012 at 20:05
  • I am accepting this answer since I think that the problem was point #3. I altered the code to see with /dev/random and only use time(0) if that fails. There have been no more collisions since. Thanks again.
    – Evan Teran
    Oct 5, 2012 at 11:18

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