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I have a 256-bit private key that I want to use to sign a SHA-1 digest (20 bytes). Using openssl directly it seems to work

echo doesntmatter | openssl dgst -sha1 -binary | openssl rsautl -sign -inkey 256bit_private_key.pem | openssl enc -base64

gives me a Base64 output as expected.

But doing it with the OpenSSL fails with "error:04075070:rsa routines:RSA_sign:digest too big for rsa key". As you can see below, I'm passing the 20-byte (SHA_DIGEST_LENGTH=20) SHA-1 digest as input to RSA_sign. Even with padding it shouldn't be more than the maximum of 32 bytes that I can encrypt with a 256 bit modulus key?!

unsigned char digest[SHA_DIGEST_LENGTH];
SHA1(message, messageSize, digest);

unsigned int privateKeySize = RSA_size(privateKey); // 256 bits = 32 bytes
unsigned char* signature = new unsigned char[privateKeySize];
unsigned int signatureSize;

int res = RSA_sign(NID_sha1, digest, SHA_DIGEST_LENGTH, signature, &signatureSize, privateKey);

if(res == 0)
{
    int err = ERR_get_error(); // 67588208
    char *s = ERR_error_string(err, 0); // error:04075070:lib(4):func(117):reason(112)

    delete [] signature;

    [...]
}

What am I doing wrong in the code?

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Is this c? Please specify programming language! –  ppeterka Feb 26 '13 at 15:01
    
The code is C++, but that shouldn't matter –  AndiDog Feb 26 '13 at 15:04
    
a 256-bit RSA key is pretty intensely insecure... I hope this is just for a school project or something not for something "real" –  Peter Elliott Feb 26 '13 at 16:12

3 Answers 3

check out this SO answer. rsautl is depreciated in favor of pkeyutl

Essentially, RSA signing should use RSA-PSS signature padding scheme to be secure, and the RSA-PSS will be strictly larger than the digest, because of the necessity to communicate a salt. additionally, RSA_sign does a digest as a part of the signing scheme, so your code is going to do a digest of a digest. you want to instead either pass the message in directly, or use RSA_private_encrypt combined with a suitable RSA_padding_add_x call.

and as I said in my comment, a 256-bit key is sufficiently secure for a symmetric algorithm, but it will be trivial to crack for an RSA private key (on the order of 4 minutes on a couple of year old machine). Using a bare minimum of a 1024 bit key (and probably a 2048 or 4096 bit key) will give you a security level roughly equivalent to a 128 bit symmetric algorithm.

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1  
Thanks for the suggestions! My use case is a bit different and luckily not really security-related, else I'd change to a larger key and RSA_sign immediately. –  AndiDog Feb 26 '13 at 19:16

Re Peter Elliott: not quite.

The PKCS1 standard sequence is hash, encode in ASN.1, pad (v1.5 aka type1 or PSS), modexp (private_encrypt).

OpenSSL (low-level) RSA_sign does the last three (with v1.5 padding) but not the first.

The higher-level envelope module does all four (original EVP_Sign{Init,Update,Final}*, enhanced EVP_DigestSign*). It's the ASN.1 encode that made the value too large for a 256-bit key -- which as stated is breakable anyway.

rsautl does only the last two steps not the encode, so it runs but gives a nonstandard result. pkeyutl for RSA does the same by default but can be told to do the encode.

Also, PSS has a better security proof, but as far as I've heard there's no actual attack on v1.5 and it's still widely used. If you have the choice of PSS (both/all parties support it) choose it, but don't feel worried about using v1.5.

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Guess I found the solution. openssl rsautl -sign uses RSA_private_encrypt instead of RSA_sign (what I would have expected). RSA_sign creates a longer structure than the 20-bytes message I provided, so it fails with the given error.

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