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What's the best way to generate a cryptographically secure 32 bytes salt in PHP, without depending on libraries seldom included in typical PHP installations?

After some googling I discovered that mt_rand is not considered secure enough, but I haven't found a suggestion for a replacement. One article suggested reading from /dev/random but not only this won't work on windows; it is also very slow.

I want a reasonable balance between security and speed (ie, it shouldn't take 20 seconds to generate 512 bytes, like /dev/random usually does)

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/dev/urandom can be used for faster generation, but still won't work on Windows systems. –  Amber Mar 25 '10 at 7:37
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6 Answers

up vote 5 down vote accepted

You might want to take a look at the documentation (and comments) for mcrypt_create_iv().

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You can use the function mycrypt_create_iv(), since PHP Version 5.3 it also uses the random source on a Windows server (not only on Unix). Before using it, you should check if the constant MCRYPT_DEV_URANDOM is defined.

mcrypt_create_iv($length, MCRYPT_DEV_URANDOM);

Unlike random, urandom does not block the server, if there is not enough entropy available. Since the password salt should be unique (not necessarily random), urandom seems to be a good choice to me.

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uniqueid is not well suited for generating a random string as it too is microtime based. A CPU Cycle is generally much shorter than a microtime-tick, which may lead to possible constancy for a given variable within loops. Setting the second parameter "entropy" to true,

 uniqid('', true)

will provide increased randomness.

To get a random string that is well compatible with most character-sets,one may apply base64 encoding to the mcrypt initilization vector function mcrypt_create_iv:

$length = 16;
base64_encode(mcrypt_create_iv(ceil(0.75*$length), MCRYPT_DEV_URANDOM))
//> hlZuRJypdHFQPtI2oSFrgA==
strlen(base64_encode(mcrypt_create_iv(ceil(0.75*$length), MCRYPT_DEV_URANDOM)))
//> 16

Reducing the character-alphabet to 2^6Bit increases the size, which is accounted for above.

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uniqid() should be fine for this purpose.

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I use uniqid() with some fast computable seed value (like the suggested microtime), too. Haven't done a cryptographic analysis, but seems to fit the bill. –  Boldewyn Mar 25 '10 at 8:15
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Read from /dev/urandom, or use openssl_random_pseudo_bytes().

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I think microtime() is enough.

Strangely, but I am still getting downvotes for this answer.

Though the only explanation I get is that microtime is predictable.
It sounds strange to me as salt always assumed as openly known - so, there is no use for prediction at all.

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Not really. Not only it's very very easy to predict (it's the current time), I also can't get 32 bytes out of it. –  qster Mar 25 '10 at 7:37
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@qster you can use it as random number generator. And get any number of bytes you want. And it is not the current time, you messed it up with time(). Microseconds do change pretty fast. And it's only salt, you don't need too much security on salt. –  Your Common Sense Mar 25 '10 at 7:46
    
@YourCommonSense Run echo microtime() through a for loop (10 loops is fine) and see how wrong you are... –  Mike S Nov 29 '12 at 15:39
    
Strangely, but some comments may contain a contradiction even in a single line: "it's current time[stamp] but I can't get 32 bytes out of it". I've always thought that unix timestamp is a 32-bit number exactly. –  Your Common Sense Aug 3 '13 at 7:40
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@YourCommonSense: bits are not bytes. –  datashaman Oct 17 '13 at 6:57
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