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How it is possible to verify a digital signature with the crypto++ library?

The input data is:

  • public_key BASE64 encoded hex string.
  • public exponent from the public key.
  • signature as hex string.

I don't know the private key part. I have written this test function but it alway ends with "VerifierFilter: digital signature not valid" error.

The key here is exported from a valid KeyPair!

void rawRSAVerificationTest()

// RSA 2048 digital signature verification
try {

    std::string pupKeyStr ("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");
    //sha256 hashed data signature
    std::string signatureStr = "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";

    //Chinese Remainder Theorem (CRT)
    std::string pupExpStr ("0x10001");

    CryptoPP::AutoSeededRandomPool rng;
    CryptoPP::RSA::PublicKey pubKeyRaw;

    CryptoPP::Integer pup_key_cast( static_cast<CryptoPP::Integer> (pupKeyStr.c_str()));
    CryptoPP::Integer pup_exp_cast( static_cast<CryptoPP::Integer> (pupExpStr.c_str()));

    pubKeyRaw.Initialize(pup_key_cast, pup_exp_cast);
    if (!pubKeyRaw.Validate(rng, 3))
        std::cout << "Error while public key validation" << std::endl;

    CryptoPP::RSASS<CryptoPP::PSS,  CryptoPP::SHA256>::Verifier verifier_sha256(pubKeyRaw);

    CryptoPP::StringSource( signatureStr, true,   
        new CryptoPP::SignatureVerificationFilter(   
        verifier_sha256, NULL,   
        ) // SignatureVerificationFilter   
        ); // StringSource   

catch( CryptoPP::Exception& e )
    std::cerr << "ERROR: " << e.what() << std::endl;
catch( ... )
    std::cerr << "ERROR: Unknown verify signature error" << std::endl;

What i have missed?

I will be very grateful for any help! Thanks in advance!

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What do you mean by "raw"? Which RSA signature scheme was used to create the signature? PSS? –  Rasmus Faber Jun 21 '12 at 21:13
That looks more like a hexadecimal encoded modulus to me. It's exactly 512 characters in size (which means 256 bytes or 2048 bits). What do the "cast" statements do? –  owlstead Jun 22 '12 at 0:03
I mean with RAW RSA: Performing encryption and decryption operations using Crypto++'s with RSA primitives. –  Diethard Jun 22 '12 at 7:29
Yes it is a hexadecimal encoded modulus. The cast is used for the crypto++ Integer Class. Which imports a modulus string to this class. –  Diethard Jun 22 '12 at 7:33
Your signatureStr is 32 bytes long. The probability that this is actually a RSA signature with a 2048 bit RSA key is incredibly small. Most probably this is just the SHA-256 hash. Of course you need the hash to verify the signature, but you also need the actual signature. To verify an RSA signature, you need four pieces of data: the modulus, the public exponent, the hash (or the entire signtext, so you can calculate the hash) and the signature. –  Rasmus Faber Jun 22 '12 at 10:34

1 Answer 1

How it is possible to verify a digital signature with the crypto++ library?

Well, that one is easy when you know where to look. From the Crypto++ wiki on RSA Signature Schemes:

RSA::PrivateKey privateKey = ...;
RSA::PublicKey publicKey = ...; 

// Setup
string message = "RSA-PSSR Test", signature, recovered;    

// Sign and Encode
RSASS<PSSR, SHA1>::Signer signer(privateKey);

StringSource ss1(message, true, 
    new SignerFilter(rng, signer,
        new StringSink(signature),
        true // putMessage for recovery
   ) // SignerFilter
); // StringSource

// Verify and Recover
RSASS<PSSR, SHA1>::Verifier verifier(publicKey);

StringSource ss2(signature, true,
    new SignatureVerificationFilter(
        new StringSink(recovered),
   ) // SignatureVerificationFilter
); // StringSource

cout << "Verified signature on message" << endl;
cout << "Message: " << recovered << endl;

CryptoPP::RSASS<CryptoPP::PSS,  CryptoPP::SHA256>::Verifier verifier_sha256(pubKeyRaw);

A few questions:

  • Should that be PSS (signature scheme with appendix) or PSSR (signature scheme with recovery)?
  • Are you certain its not, for example, PKCS1v15?
  • If it is a recovery scheme, is the signature at the beginning or end of the hex encoded signatureStr?

This original Integer initialization was probably wrong. Crypto++ will attempt to parse the string as a decimal integer, and not a hexadecimal integer because in lacks a 0x prefix and h suffix (one or the other should be present).

You should add the prefix, suffix, or use the byte array constructor. The byte array constructor is shown below.

std::string pupKeyStr ("e0c3851114c758fb...");

string pupKeyBin;
StringSource ss1(pupKeyStr, true,
    new HexDecoder(
        new StringSink(pupKeyBin)

CryptoPP::Integer pup_key_cast( (unsigned char*)pupKeyBin.data(), pupKeyBin.size() );

StringSource( signatureStr, true, ...

This is probably wrong. You probably need something like:

string signatureBin;
StringSource ss1(signatureStr, true,
    new HexDecoder(
        new StringSink(signatureBin)

StringSource ss2(signatureBin, true,
    new SignatureVerificationFilter(...

I tried the code with the binary signature using both PSSA and PSSR. Neither worked. I also tried with SignatureVerificationFilter's SIGNATURE_AT_BEGIN and SIGNATURE_AT_END. Neither worked. And I tried the combinations with SHA1 and RSASSA_PKCS1v15_SHA_Verifier. Nothing worked.

Can you verify precisely what you have?

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