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In an effort to understand the asymmetric encryption process I outlined a simple PHP script to encrypt and decrypt simple numbers. I noticed that after a while given numbers to encrypt/decrypt the algorithm would fail, as in the decrypted and initial numbers didn't match. I put a loop in to see how the algorithm would perform when ecrypting and decrypting 100 numbers and after the number 32 the process fell apart.

Is this because p*q = 33?


# Test encrypto algo

// Choose prime keys
$p = 47; $q = 71; 
// Compute n = pq
$n = $p*$q;
// Choose e such that 1 < e < f(n) and e and n are coprime
$e = 79;
// Compute a value for d such that (d * e) % f(n) = 1
$d = 1019;
// Compute f(n) = (p-1)(q-1)
$z = ($p - 1)*($q - 1);
// Create public and private keys
$pubK = array('n' => $n, 'e' => $e);
$privK = array('n'=> $n, 'd' => $d);
// Boundary for loop
$l = 100;

// Perform encypt/decrypt on 1..100
for($i = 1; $i <= $l; $i++)
    $enc = enc($i, $pubK);
    $dec = dec($enc, $privK);
    print "encrypted <b>$i</b> = $enc decrypted $enc = <b>$dec</b> ";
    if($i == $dec)
        print "Success<br>";
        print "Fail<br>";

// Encrypt sample with public key
function enc($sample, $key)
    return bcmod(bcpow($sample,$key['e']),$key['n']);
// Decrypt encrypted sample with private key
function dec($sample, $key)
    return bcmod(bcpow($sample, $key['d']),$key['n']);


Output from the loop

share|improve this question
set $p to 5 and look what happens. I think the problem is in small p and q numbers. Script should fail then on 54 iteration – Kasyx May 14 '13 at 11:29
You're right. I set p and q to 3 and 5 and it failed on 14, which supports (3*5) - 1. – Lee May 14 '13 at 11:32
well $key['n'] = 33 (cause 3*11) and it fails on 33... – user1914292 May 14 '13 at 11:33
Ok maybe your algorithm is wrong. Are you spliting your $i into values smaller than n? – Kasyx May 14 '13 at 11:34
I think the question has been answered. The keys provide a range, so they need to be larger. On a similar note, when I use larger keys PHP gives NAN, numbers too big? – Lee May 14 '13 at 11:38
up vote 2 down vote accepted

2.2 Encryption:

[...] Bob then wishes to send message M to Alice. He first turns M into an integer m, such that 0 ≤ m < n by using an agreed-upon reversible protocol known as a padding scheme. ...Alice transmits her public key (n, e) to Bob and keeps the

This does not hold here, therefore you need to use larger factorizations.

share|improve this answer

The problem is in small $p and $q values. As we noticed in comments, bigger value of $n=$p*$q starts returning fails later.

Problems start when $i>$n, then encription/decription returns wrong numbers.

What to do? In real problems, $p and $q are huge numbers. Also message is splited into smaller one and provides as stream of many values. For example you can decrypt parts of your number, and then sum it to get final value. In more advanced cases, code every symbol as a number, and encode/decode they one by one.

share|improve this answer
That makes sense. However, in PHP when I use larger keys - say 47 and 71 - everything returned is nan I take it they're too big for integer space? – Lee May 14 '13 at 12:20
use the BCMath or GMP extension then. – mightyuhu May 14 '13 at 12:23
then pow($sample,$key['e']) returns huge number. You can repair it spliting your $i into smaller parts. – Kasyx May 14 '13 at 12:25
Excellent thanks. BC works perfectly. Updated the code. – Lee May 14 '13 at 12:28

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