How calculate size of RSA cipher text using key size & clear text length?
https://stackoverflow.com/questions/11505547
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21-06-2021 - |
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I've some clear text which I want to encrypt using RSA_PKCS_V21 (using PolarSSL library). The problem is that I need to know size of cipher text before executing the algorithm (for dynamic memory allocation purpose).
I know RSA key size & clear text length.
I also want to know the limitation on input clear text length.
Any idea?
Solution
Just check the RSA PKCS#1 v2.1 standard, chapter 7.2:
RSAES-PKCS1-V1_5-ENCRYPT ((n, e), M)
Input:
- (n, e) recipient's RSA public key (k denotes the length in octets of the modulus n)
- M message to be encrypted, an octet string of length mLen, where mLen <= k - 11
So the input depends on the key size. k is that key size but in octets. So for a 1024 bit key you have 1024 / 8 - 11 = 117 bytes as maximum plain text.
Note that above is the maximum size for RSA with PKCS#1 v1.5 padding. For the newer OAEP padding the following can be found in chapter 7.1:
RSAES-OAEP-ENCRYPT ((n, e), M, L)
...
Input:
- (n, e) recipient's RSA public key (k denotes the length in octets of the RSA modulus n)
- M message to be encrypted, an octet string of length mLen, where mLen <= k - 2hLen - 2
- L optional label to be associated with the message; the default value for L, if L is not provided, is the empty string
Where hLen is the output size of the hash function used for the mask generation function. If the default SHA-1 hash function is used then the maximum size of the message is k - 42 (as the output size of SHA-1 is 20 bytes, and 2 * 20 + 2 = 42).
Normally a randomly generated secret key is encrypted instead of the message. Then the message is encrypted with that secret key. This allows almost infinitely long messages, and symmetric crypto - such as AES in CBC mode - is much faster than asymmetric crypto. This combination is called hybrid encryption.
The output size for RSA encryption or signature generation with any padding is identical to the size of the modulus in bytes (rounded upwards, of course), so for a 1024 bit key you would expect 1024 / 8 = 128 octets / bytes.
Note that the output array of the calculated size may contain leading bytes set to zero; this should be considered normal.
