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I'm have build an up php script to host large number of images upload by user, what is the best way to generate random numbers to image filenames so that in future there would be no filename conflict? Be it like Imageshack. Thanks.

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  • 17
    Random != Unique. The two have nothing to do with each other. Random numbers include duplicates -- scattered around randomly in the sequence of numbers.
    – S.Lott
    May 14, 2010 at 11:45
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    Are the images associated with database records? If so, you could just use the primary key as the filename, since that's guaranteed to be unique. May 14, 2010 at 11:52
  • Would it be safe not to lookup the database records? I have look up if the file is exist in the folder through PHP.
    – proyb2
    May 14, 2010 at 12:04
  • Of course you could look it up in the database, but the UUID approach doesn't require the need to, so why bother?
    – apg
    May 14, 2010 at 12:14
  • Maybe he will have to insert a record in the db anyway.
    – o0'.
    May 14, 2010 at 13:56

9 Answers 9

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$better_token = uniqid(md5(mt_rand()), true);
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Easiest way would be a new GUID for each file.

http://www.php.net/manual/en/function.uniqid.php#65879

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    en.wikipedia.org/wiki/…. You have a better chance of being hit by a meteorite.
    – apg
    May 14, 2010 at 12:12
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    still not a reason to avoid a system that is really unique.
    – o0'.
    May 14, 2010 at 14:23
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    @Lo'oris: not getting hit by a meteorite sounds like a good reason. May 14, 2010 at 18:19
2

Here's how I implemented your solution

This example assumes i want to

  • Get a list, containing 50 numbers that is unique and random, and
  • This list of # to come from the number range of 0 to 1000

Code:

 //developed by www.fatphuc.com

 $array = array(); //define the array

 //set random # range
 $minNum = 0;
 $maxNum = 1000;

// i just created this function, since we’ll be generating
// # in various sections, and i just want to make sure that
// if we need to change how we generate random #, we don’t 
// have to make multiple changes to the codes everywhere. 
// (basically, to prevent mistakes)

function GenerateRandomNumber($minNum, $maxNum){
   return round(rand($minNum, $maxNum));
}

//generate 49 more random #s to give a total of 50 random #s
for($i = 1; $i <= 49; $i++){
    $num1 = GenerateRandomNumber($minNum, $maxNum);   
        while(in_array($num1, $array)){
            $num1 = GenerateRandomNumber($minNum, $maxNum);
        }   
    $array[$i] = $num1;
}

asort($array); //just want to sort the array

//this simply prints the list of #s in list style
echo '<ol>';
foreach ($array as $var){
    echo '<li>';
    echo $var;
    echo '</li>';
}
echo '</ol>';
1

Keep a persistent list of all the previous numbers you've generated(in a database table or in a file) and check that a newly generated number is not amongst the ones on the list. If you find this to be prohibitively expensive, generate random numbers on a sufficient number of bits to guarantee a very low probability of collision.

You can also use an incremental approach of assigning these numbers, like a concatenation of a timestamp_part based on the current time and a random_part, just to make sure you don't get collisions if multiple users upload files at the same time.

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    This solution does not scale well
    – symcbean
    May 14, 2010 at 12:37
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You could use microtime() as suggested above and then appending an hash of the original filename to further avoid collisions in the (rare) case of exact contemporary uploads.

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  • I like this best. A hash created from the current timestamp, the current user name, the file name, and an incremental global upload counter would be 100% duplicate safe.
    – Pekka
    May 14, 2010 at 11:53
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    Why? Why not just use an incremental global counter? That's the only part of all of this that's ensuring 0 collisions.
    – Jeriko
    May 14, 2010 at 12:13
  • or, as I suggested, just create a name without putting too much effort in it and just check it before committing.
    – o0'.
    May 14, 2010 at 13:40
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There are several flaws in your postulate that random values will be unique - regardless of how good the random number generator is. Also, the better the random number generator, the longer it takes to calculate results.

Wouldn't it be better to use a hash of the datafile - that way you get the added benefit of detecting duplicate submissions.

If detecting duplicates is known to be a non-issue, then I'd still recommend this approach but modify the output based on detected collisions (but using a MUCH cheaper computation method than that proposed by Lo'oris) e.g.

 $candidate_name=generate_hash_of_file($input_file);
 $offset=0;
 while ((file_exists($candidate_name . strrev($offset) && ($offset<50)) {
    $offset++;
 }
 if ($offset<50) {
    rename($input_file, $candidate_name . strrev($offset));
 } else {
    print "Congratulations - you've got the biggest storage network in the world by far!";
 }

this would give you the capacity to store approx 25*2^63 files using a sha1 hash.

As to how to generate the hash, reading the entire file into PHP might be slow (particularly if you try to read it all into a single string to hash it). Most Linux/Posix/Unix systems come with tools like 'md5sum' which will generate a hash from a stream very efficiently.

C.

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  1. forge a filename
  2. try to open that file
  3. if it exists, goto 1
  4. create the file
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Using something based on a timestamp maybe. See the microtime function for details. Alternatively uniqid to generate a unique ID based on the current time.

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Guaranteed unique cannot be random. Random cannot be guaranteed unique. If you want unique (without the random) then just use the integers: 0, 1, 2, ... 1235, 1236, 1237, ... Definitely unique, but not random.

If that doesn't suit, then you can have definitely unique with the appearance of random. You use encryption on the integers to make them appear random. Using DES will give you 32 bit numbers, while using AES will give you 64 bit numbers. Use either to encrypt 0, 1, 2, ... in order with the same key. All you need to store is the key and the next number to encrypt. Because encryption is reversible, then the encrypted numbers are guaranteed unique.

If 64 bit or 32 bit numbers are too large (32 bits is 8 hex digits) then look at a format preserving encryption which will give you a smaller size range at some cost in time.

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