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I need to encrypt message with X.509 RSA public key. I successfully imported 1024-bit public key in DER format, but my program fails with message longer than about 110 bytes. I'm calling CryptEncrypt function with pbData set to NULL, because I need to calculate size of output buffer first.

This is the source code:

screenshot

Plain text version of the same:

bool CCrypt::RSAEncrypt() {
    HCRYPTPROV hProv = NULL;
    HCRYPTKEY  hKey = NULL;

    if (CryptAcquireContext(&hProv, NULL, MS_ENHANCED_PROV, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT)) {
        CParam *pubKey = coreData.local.overlay->getItem(3);

        // Decode the binary key blob in DER format into a CERT_PUBLIC_KEY_INFO
        CERT_PUBLIC_KEY_INFO* publicKeyInfo = NULL;
        DWORD publicKeyInfoSize;
        if (CryptDecodeObjectEx(
            X509_ASN_ENCODING,
            X509_PUBLIC_KEY_INFO,
            (LPBYTE) pubKey->getVal(),
            pubKey->getLength(),
            CRYPT_DECODE_ALLOC_FLAG/* | CRYPT_DECODE_NOCOPY_FLAG*/,
            NULL,   // TODO: Pass a CRYPT_DECODE_PARA to use own heap management to allocate memory
            &publicKeyInfo,
            &publicKeyInfoSize
        )) {
            // Import the public using the context
            if (CryptImportPublicKeyInfo(
                hProv,
                X509_ASN_ENCODING,
                publicKeyInfo,
                &hKey
            )) {
                // Get the size of a key
                DWORD dwBlockLen = NULL;
                DWORD dwValLen = sizeof(DWORD);
                if (CryptGetKeyParam(hKey, KP_BLOCKLEN, (LPBYTE) &dwBlockLen, &dwValLen, 0)) {
                    dwBlockLen = (dwBlockLen + 7) / 8;  // Transform to bytes legth
                    BYTE msg[] = "Lorem ipsum dolor sit .... [3000+ characters here]";
                    DWORD dwMsgLen = I(str)->lengthA((LPSTR) msg);
                    //dwMsgLen = 110;
                    DBG(C_INFO, "CryptGetKeyParam succeed. dwMsgLen: %d, dwBlockLen: %d", dwMsgLen, dwBlockLen);
                    // pbData [in, out] set to NULL to calculate actual size of a buffer required
                    if (CryptEncrypt(hKey, 0, TRUE, CRYPT_OAEP, NULL, &dwMsgLen, 0)) {
                        DBG(C_INFO, "CryptEncrypt succeed. dwMsgLen: %d", dwMsgLen);
                        // TODO: Fails here

                    } else {
                        DBG(C_ERROR, "CryptEncrypt error.");
                    }
                } else {
                    DBG(C_ERROR, "CryptGetKeyParam error.");
                }
                CryptDestroyKey(hKey);
            }
            LocalFree(publicKeyInfo);
        }
        CWA(advapi32, CryptReleaseContext)(hProv, 0);
    }

    return false;
}

Output from my debugger:

[16:08:14] TC=1093889010, PID=25484(0x638C), TID=26340(0x66E4), LE=0(0x0), F=CCrypt::RSAEncrypt, FL=d:\c\source\client\../common/Crypt.cpp (62)
INFO: CryptGetKeyParam succeed. dwMsgLen: 2175, dwBlockLen: 128

[16:08:14] TC=1093889010, PID=25484(0x638C), TID=26340(0x66E4), LE=2148073476(0x80090004), F=CCrypt::RSAEncrypt, FL=d:\c\source\client\../common/Crypt.cpp (69)
ERROR: CryptEncrypt error.

As you can see, this function fails at CryptEncrypt with error NTE_BAD_LEN (0x80090004). However when I manually set dwMsgLen to 110 [see line 61], it works correctly. When I set this variable to 120, it fails.

Can someone tell me where the problem can be?

share|improve this question
    
Are you asking for the specific implementation reason for that exact limit or are you unaware of the fact that the size of the data is limited due to the nature of RSA/asymmetric encryption? Usually you can encrypt data as large as the RSA key length but not beyond (so 1024/8 = 128 bytes) (~small deviations will apply based on the padding used) –  Alex K. May 14 at 14:28
    
So if I understand it properly, I must call CryptEncrypt in a loop and concatenate several 128-bytes-long blocks, am I right? –  Peter May 14 at 14:33
2  
Well you could but that's slow and hugely inefficient, usually you would encrypt the data with a symmetric alg like AES, use RSA to encrypt the AES key and send off the two. Take a look @ security.stackexchange.com/a/33445/2073 –  Alex K. May 14 at 14:36
    
@user1558605 well, yes, unless an attacker can alter the ciphertext; in that case you would need a signature in addition. But long story short, follow Alex K.'s advice. and use hybrid encryption. –  Maarten Bodewes - owlstead May 14 at 23:27

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