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I am in need to compare data between an Oracle database and a MySQL database.

In Oracle, the data is first encrypted with the AES-128 algorithm, and then hashed. Which means it is not possible to recover the data and decrypt it.

The same data is available in MySQL, and in plain text. So to compare the data, I tried encrypting and then hashing the MySQL data while following the same steps done in Oracle.

After lots of tries, I finally found out that the aes_encrypt in MySQL returns different results than the one in Oracle.

-- ORACLE:
-- First the key is hashed with md5 to make it a 128bit key:
raw_key := DBMS_CRYPTO.Hash (UTL_I18N.STRING_TO_RAW ('test_key', 'AL32UTF8'), DBMS_CRYPTO.HASH_MD5);

-- Initialize the encrypted result
encryption_type:= DBMS_CRYPTO.ENCRYPT_AES128 + DBMS_CRYPTO.CHAIN_CBC + DBMS_CRYPTO.PAD_PKCS5;

-- Then the data is being encrypted with AES:
encrypted_result := DBMS_CRYPTO.ENCRYPT(UTL_I18N.STRING_TO_RAW('test-data', 'AL32UTF8'), encryption_type, raw_key);

The result for the oracle code will be: 8FCA326C25C8908446D28884394F2E22

-- MySQL
-- While doing the same with MySQL, I have tried the following:
SELECT hex(aes_encrypt('test-data', MD5('test_key'));

The result for the MySQL code will be: DC7ACAC07F04BBE0ECEC6B6934CF79FE

Am I missing something? Or are the encryption methods between different languages not the same?

UPDATE: According to the comments below, I believe I should mention the fact that the result of DBMS_CRYPTO.Hash in Oracle is the same as the result returned by the MD5 function in MySQL.

Also using CBC or CBE in Oracle gives the same result, since the IV isn't being passed to the function, thus the default value of the IV is used which is NULL

BOUNTY: If someone can verify my last comment, and the fact that if using same padding on both sides, will yield same results gets the bounty:

@rossum The default padding in MySQL is PKCS7, mmm... Oh.. In Oracle it's using PKCS5, can't believe I didn't notice that. Thanks. (Btw Oracle doesn't have the PAD_PKCS7 option, not in 11g at least)

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At first glance I suspect the problem to be here: 'test_key', 'AL32UTF8' Methinks MySQL has a different charset on your data and thus different data before the encryption is applied. –  Johan Sep 1 '11 at 13:37
    
I suspect that the encryption should be the same, so I would ensure the keys are the same. i.e. Does MD5 return Hex string or raw bytes. If hex, what about the case? Unfortunately I don't have access to Oracle with DBMS_CRYPTO installed. –  Sodved Sep 1 '11 at 13:46
    
@Sodved Yes the MD5 hashing is giving the same result in both databases which is 8C32D1183251DF9828F929B935AE0419. And since that is the case @Johan, it shouldn't be an encoding problem since the MD5 hashing is the same –  Dan Sep 1 '11 at 13:56
2  
You might be better off explicitly specifying the IV on both sides. You should also explicitly specify the padding to use on both sides: PKCS7 is usual for AES. –  rossum Sep 1 '11 at 19:42
1  
@rossum The default padding in MySQL is PKCS7, mmm... Oh.. In Oracle it's using PKCS5, can't believe I didn't notice that. Thanks. (Btw Oracle doesn't have the PAD_PKCS7 option, not in 11g at least) –  Dan Sep 2 '11 at 7:47

2 Answers 2

up vote 7 down vote accepted
+100

MySQL's MD5 function returns a string of 32 hexadecimal characters. It's marked as a binary string but it isn't the 16 byte binary data one would expect.

So to fix it, this string must be converted back to the binary data:

SELECT hex(aes_encrypt('test-data', unhex(MD5('test_key'))));

The result is:

8FCA326C25C8908446D28884394F2E22

It's again a string of 32 hexadecimal characters. But otherwise it's the same result as with Oracle.

And BTW:

  • MySQL uses PKCS7 padding.
  • PKCS5 padding and PKCS7 padding are one and the same. So the Oracle padding option is correct.
  • MySQL uses ECB block cipher mode. So you'll have to adapt the code accordingly. (It doesn't make any difference for the first 16 bytes.)
  • MySQL uses no initialization vector (the same as your Oracle code).
  • MySQL uses a non-standard folding a keys. So to achieve the same result in MySQL and Oracle (or .NET or Java), only use keys that are 16 byte long.
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Could be CBC vs ECB. Comment at the bottom of this page: http://dev.mysql.com/doc/refman/5.5/en/encryption-functions.html says mysql function uses ECB

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I have seen that comment and I've tried ECB in Oracle to see if it gives a different result, but that wasn't the case. Which actually, is the expected result because ECB and CBC are basically the same if the IV wasn't sent to the encrypt function. (It's default value is NULL) –  Dan Sep 1 '11 at 13:50
    
@Dan: They are only the same if a single block is being encrypted. With padding, what started as exactly a single block (16 bytes) may extend to two blocks due to the padding. –  rossum Sep 6 '11 at 12:52

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