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I have a uuid class that is part of a portable library that gets initialized with the following piece of code. It works fine under windows, but under linux it's not generating UUID's correctly.

uint32 data[4];
data[0] = rng.Get();
data[1] = rng.Get();
data[2] = rng.Get();
data[3] = rng.Get();

data[1] = (data[1] & 0xffffff0f) | 0x40;
data[2] = (data[2] & 0x7fffffff) | 0x40000000;

memcpy(uuid, data, 16);

for (int i = 0; i < 4; i++)
    printf("%04X", data[i]);

for (int i = 0; i < 16; i++)
    printf("%02X", uuid[i]);

The printf statements are me debugging it.

But, the numbers are messed up. Why are the bottom 4 bytes empty? And why is the first uuid printed, different from the last?

The platorm is 64bt linux on x86. This will always be run on x86 small endian architecture.

e.g. sample output

1st run
AFADD2B6D6E792FB4A62CF4600000000  // why is this different from the previous no?. also the last 4 bytes not set???

2nd run
34D2D6965B65F32F432760D500000000 // same problem as earlier

Something is going haywire with the conversion.

This has now been solved. I don't care about endianess. The bytes are random anyway!

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What is the definition of uint32 and what type is uuid? Also in the first debugging snippet you print a minimum of 4*4 chars; in the 2nd you print a minimum of 16*2 chars. –  pmg Mar 25 '11 at 0:18

5 Answers 5

up vote 4 down vote accepted

It appears that the %X specifier is expecting an int-sized input to be passed, while you seem to be passing it an unsigned char (isn't that what uuid[i] is?).

Try doing this and see if it helps:

for (int i = 0; i < 16; i++) {
    int temp = uuid[i];
    printf("%02X", temp);

Update - New theory

OK, I looked at it more carefully after reading Matthew's answer.

The issue is memcpy along with the (unknown) type of uuid. You copy the uints over uuid. The first 4 bytes of uuid are the little-endian representation of data[0], as should be expected.

Now one theory that could explain the rest is that uint32 is actually 8 bytes long instead of 4, so when you copy the first 16 bytes of data onto uuid we see in order:

  • 4 LSB of data[0], little endian
  • 4 MSB of data[0] (junk)
  • 4 LSB of data[1], little endian
  • 4 MSB of data[1] (junk, for some reason all zeroes)
  • And nothing of data[2] and data[3].

So what is sizeof(uint32) equal to?

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No difference at all. –  Matt Mar 25 '11 at 0:02
I should be converting 4x 4 byte random int's to 16 bytes. –  Matt Mar 25 '11 at 0:04
@MattH: So what is uuid? It's got to be something with that. –  Jon Mar 25 '11 at 0:06
With C99, #include <stdint.h> and use uint32_t, uint64_t for exact width types -- or uint_least32_t, uint_least64_t for minimum width types –  pmg Mar 25 '11 at 0:42
@pmg: Yes, you're right! uint32 isn't even a standard type. It's probably a user-defined type left-over from pre-C99 code that was designed to run on a 32bit system. –  MatthewD Mar 25 '11 at 0:58

The first 4 bytes of data and uuid are the same, but in reversed order - looks like an endianness issue.

  • This is due to the printf printing each uint32 as one block, but the (unsigned?) chars in memory order.

The 2nd 4 bytes of data and the 3rd 4 bytes of uuid are also the same, but reversed. Similar issue.

Solve these two issues and the rest will probably fall into place.

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Try this for debugging instead

for (int i = 0; i < 4; i++)
    printf("%04X ", data[i]);

for (int i = 0; i < 16; i++)
    printf("%02X ", uuid[i]);

I just added a space after the 'X's.

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uint32 is not 32 bits in 64Bit OS, but 64 bits. I saw it here but I think it's true on all 64bit systems.

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I am now printing the sizeof(uint32) and it's showing 4! –  Matt Mar 25 '11 at 1:03
didn't you say the size definition was the problem? –  MByD Mar 25 '11 at 1:15
Yep, that was the issue. The uint32 was came out at 8 bytes instead of the expected 4. I was able to narrow it to a types header file that had an incorrect definition. You say that uint32 is not 32 bits on a 64bit OS, but on my platform it now is and I am running 64 bit linux. i.e. unsigned int = 32 bits. long unsigned int = 64. I changed to the 1st definition for uint32 –  Matt Mar 25 '11 at 1:28
And the problem still exists? Unless there is alignment of 64bit, you should stay only with the issue of endianess. –  MByD Mar 25 '11 at 1:48

Two things are happening here:

  1. the endian problem
  2. you are on a 64 bit machine, so the compiler aligns the (32bit)ints to the native word

In general, you cannot assume how the compiler lays things out in memory. You have to do it the old fashioned way: uuid[0] = data[0] >> 24 & 0xFF

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