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why is the content of $encrypted every time different?

// aquire public key from server
$server_public_key = openssl_pkey_get_public(file_get_contents("C:\publickey.pem"));

// rsa encrypt
openssl_public_encrypt("123", $encrypted, $server_public_key);

also I have tried this one

$publicKey = "file://C:/publickey.pem";
$privateKey = "file://C:/privatekey.pem";
$plaintext = "String to encrypt";

openssl_public_encrypt($plaintext, $encrypted, $publicKey);
$transfer = base64_encode($encrypted);
openssl_private_decrypt($encrypted, $decrypted, $privateKey);

echo $transfer;  //encrypted string

and $transfer is everytime a different string:...




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1 Answer

up vote 4 down vote accepted

The PKCS#1 encryption algorithm uses some random seed to make the cipher-text different every time.

This protects the cipher-text against several attacks, like frequency analysis, ciphertext matching. For example, if you were using a public key to encrypt all your password without randomness. All the same password will yield the same cipher-text. Someone can figure out all the popular passwords by checking the frequency of the cipher-text.

For symmetric key encryption, IV (Initial Vector) serves a similar purpose.

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Is it possible to determine the random seed and sent it to another pkcs#1 encryption algorithm which will use it to decrypt some data encrypted from the first pkcs#1 algorithm? –  panny Jun 5 '10 at 11:40
@panny: please read the PKCS#1 specification. You don't need to do what your asking, the PKCS#1 format makes it possible to remove the random bits by the decryptor without knowing them in advance. Your rsa decryption function almost certainly does this for you. –  GregS Jun 5 '10 at 12:16
Symmetric key encryption doesn't have the same problem (of ciphertext matching), since with a symmetric algorithm anyone who can generate ciphertext for a candidate plaintext must already have the key. –  caf Jun 6 '10 at 5:26
Also prevents replay attacks –  chacham15 Sep 17 '11 at 20:31
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