I'm trying to come up with a one-liner solution using openssl, that will take in padded SHA256 digest of a message (256 bytes in this case, for RSA2048), and apply RSA "decryption" to the 256 byte digest, ie
m^d mod n
where n is the modulus, d is the private exponent and m is the digest message (padded). This is something that normally happens in normal RSA2048 authentication, but I need to do it piecemeal.
I tried this and it didn't work.
openssl rsautl -decrypt -in msg.sha256 -inkey secret.pem -out msg.sha256.sig RSA operation error 2675740:error:04065084:rsa routines:RSA_EAY_PRIVATE_DECRYPT:data too large for modulus:rsa_eay.c:532:
In the hopes I am confusing encrypting and decryption (since I want to use a private exponent in the calculation) I tried this too
openssl rsautl -encrypt -in msg.sha256 -inkey secret.pem -out msg.sha256.sig RSA operation error 2675740:error:0406D06E:rsa routines:RSA_padding_add_PKCS1_type_2:data too large for key size:rsa_pk1.c:151:
Reading up on RSA "encryption/decryption", in this case I think I'm confusing file encryption/decryption with single message encryption/decryption. File encryption apparently is a higher level protocol that involves AES128 and all that. I don't want that, I just want to do the modular exponentiation with the private expononent.
I also tried
pkeyutil (which I understand is the preferred method with the same results). I'm pretty sure I'm going down the wrong path, and perhaps this is impossible from the command line (I know it's doable from the C API using "bignum".)
--- update ----
I tried removing the PKCS1 v1.5 padding from the SHA256 hash (so I am left with just the 32 bytes of hash), and passing that through, but that didn't work either.
$ head -32c msg.sha256 | openssl.exe rsautl -decrypt -inkey secret.pem -out test.sig RSA operation error 2675740:error:0407106B:rsa routines:RSA_padding_check_PKCS1_type_2:block type is not 02:rsa_pk1.c:190: 2675740:error:04065072:rsa routines:RSA_EAY_PRIVATE_DECRYPT:padding check failed :rsa_eay.c:616:
I tried the same with
-raw and it completed without error, but the result was not what I expected (which I would expect, because it doesn't have the PKCS1v1.5 padding). Then I tried reversing the byte order of the input file, because openssl seems to be complaining about the fact that the input file (as a 256 byte BIGNUM) is slightly bigger than the modulus (as a 256 byte BIGNUM) and if you reverse the order of bytes, then the trailing 0 becomes a leading zero, and it is smaller. It completes, but the result is still not correct.
$ perl -e '$a = `cat msg.sha256`; print "".reverse($a);' > msg.sha256r $ head -256c msg.sha256r | openssl.exe rsautl -encrypt -raw -inkey secret.pem -out test3e.sig $ head -256c msg.sha256r | openssl.exe rsautl -decrypt -raw -inkey secret.pem -out test3d.sig
Yes, I realize I am just stumbling around in the dark, but you'd be surprised how many times I get lucky this way...
Both test3e.sig and test3d.sig do not agree with my calculation from a 3rd party tool.