Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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!

share|improve this question
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? –  Maarten Bodewes 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?

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.