/* * Copyright 2002-2005 The Apache Software Foundation. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * XSEC * * OpenSSLCryptoKeyEC := EC Keys * * Author(s): Scott Cantor * * $Id:$ * */ #include #if defined (HAVE_OPENSSL) && defined (XSEC_OPENSSL_HAVE_EC) #include #include #include #include #include #include #include #include #include XSEC_USING_XERCES(Janitor); XSEC_USING_XERCES(ArrayJanitor); #include OpenSSLCryptoKeyEC::OpenSSLCryptoKeyEC() : mp_ecKey(NULL) { }; OpenSSLCryptoKeyEC::~OpenSSLCryptoKeyEC() { // If we have a EC_KEY, delete it // OpenSSL will ensure the memory holding any private key is freed. if (mp_ecKey) EC_KEY_free(mp_ecKey); }; // Generic key functions XSECCryptoKey::KeyType OpenSSLCryptoKeyEC::getKeyType() const { // Find out what we have if (mp_ecKey == NULL) return KEY_NONE; if (EC_KEY_get0_private_key(mp_ecKey) && EC_KEY_get0_public_key(mp_ecKey)) return KEY_EC_PAIR; if (EC_KEY_get0_private_key(mp_ecKey)) return KEY_EC_PRIVATE; if (EC_KEY_get0_public_key(mp_ecKey)) return KEY_EC_PUBLIC; return KEY_NONE; } void OpenSSLCryptoKeyEC::loadPublicKeyBase64(const char* curveName, const char * buf, unsigned int len) { if (mp_ecKey) { EC_KEY_free(mp_ecKey); mp_ecKey = NULL; } EC_KEY* key = EC_KEY_new_by_curve_name(static_cast(XSECPlatformUtils::g_cryptoProvider)->curveNameToNID(curveName)); int bufLen = len; unsigned char * outBuf; XSECnew(outBuf, unsigned char[len + 1]); ArrayJanitor j_outBuf(outBuf); XSCryptCryptoBase64 *b64; XSECnew(b64, XSCryptCryptoBase64); Janitor j_b64(b64); b64->decodeInit(); bufLen = b64->decode((unsigned char *) buf, len, outBuf, len); bufLen += b64->decodeFinish(&outBuf[bufLen], len-bufLen); if (bufLen > 0) { if (o2i_ECPublicKey(&key, (const unsigned char **) &outBuf, bufLen) == NULL) { EC_KEY_free(key); key = NULL; } } if (key == NULL) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error translating Base64 octets into OpenSSL EC_KEY structure"); } mp_ecKey = key; } // "Hidden" OpenSSL functions OpenSSLCryptoKeyEC::OpenSSLCryptoKeyEC(EVP_PKEY *k) { // Create a new key to be loaded as we go if (k == NULL || k->type != EVP_PKEY_EC) return; // Nothing to do with us mp_ecKey = EC_KEY_dup(k->pkey.ec); } // -------------------------------------------------------------------------------- // Verify a signature encoded as a Base64 string // -------------------------------------------------------------------------------- bool OpenSSLCryptoKeyEC::verifyBase64SignatureDSA(unsigned char * hashBuf, unsigned int hashLen, char * base64Signature, unsigned int sigLen) { // Use the currently loaded key to validate the Base64 encoded signature if (mp_ecKey == NULL) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Attempt to validate signature with empty key"); } char * cleanedBase64Signature; unsigned int cleanedBase64SignatureLen = 0; cleanedBase64Signature = XSECCryptoBase64::cleanBuffer(base64Signature, sigLen, cleanedBase64SignatureLen); ArrayJanitor j_cleanedBase64Signature(cleanedBase64Signature); unsigned char sigVal[512]; int sigValLen; EVP_ENCODE_CTX m_dctx; EVP_DecodeInit(&m_dctx); int rc = EVP_DecodeUpdate(&m_dctx, sigVal, &sigValLen, (unsigned char *) cleanedBase64Signature, cleanedBase64SignatureLen); if (rc < 0) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error during Base64 Decode"); } int t = 0; EVP_DecodeFinal(&m_dctx, &sigVal[sigValLen], &t); sigValLen += t; if (sigValLen <= 0 || sigValLen % 2 != 0) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Signature length was odd"); } // Translate to BNs by splitting in half, and thence to ECDSA_SIG ECDSA_SIG * dsa_sig = ECDSA_SIG_new(); dsa_sig->r = BN_bin2bn(sigVal, sigValLen / 2, NULL); dsa_sig->s = BN_bin2bn(&sigVal[sigValLen / 2], sigValLen / 2, NULL); // Now we have a signature and a key - lets check int err = ECDSA_do_verify(hashBuf, hashLen, dsa_sig, mp_ecKey); ECDSA_SIG_free(dsa_sig); if (err < 0) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error validating signature"); } return (err == 1); } // -------------------------------------------------------------------------------- // Sign and encode result as a Base64 string // -------------------------------------------------------------------------------- unsigned int OpenSSLCryptoKeyEC::signBase64SignatureDSA(unsigned char * hashBuf, unsigned int hashLen, char * base64SignatureBuf, unsigned int base64SignatureBufLen) { // Sign a pre-calculated hash using this key if (mp_ecKey == NULL) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Attempt to sign data with empty key"); } ECDSA_SIG * dsa_sig; dsa_sig = ECDSA_do_sign(hashBuf, hashLen, mp_ecKey); if (dsa_sig == NULL) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error signing data"); } // Now turn the signature into a base64 string unsigned char rawSigBuf[256]; unsigned int rawLen; rawLen = BN_bn2bin(dsa_sig->r, rawSigBuf); if (rawLen <= 0) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error converting signature to raw buffer"); } unsigned int rawLenS = BN_bn2bin(dsa_sig->s, (unsigned char *) &rawSigBuf[rawLen]); if (rawLenS <= 0) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error converting signature to raw buffer"); } rawLen += rawLenS; // Now convert to Base 64 BIO * b64 = BIO_new(BIO_f_base64()); BIO * bmem = BIO_new(BIO_s_mem()); BIO_set_mem_eof_return(bmem, 0); b64 = BIO_push(b64, bmem); // Translate signature to Base64 BIO_write(b64, rawSigBuf, rawLen); BIO_flush(b64); unsigned int sigValLen = BIO_read(bmem, base64SignatureBuf, base64SignatureBufLen); BIO_free_all(b64); if (sigValLen <= 0) { throw XSECCryptoException(XSECCryptoException::ECError, "OpenSSL:EC - Error base64 encoding signature"); } return sigValLen; } XSECCryptoKey * OpenSSLCryptoKeyEC::clone() const { OpenSSLCryptoKeyEC * ret; XSECnew(ret, OpenSSLCryptoKeyEC); ret->m_keyType = m_keyType; if (mp_ecKey) ret->mp_ecKey = EC_KEY_dup(mp_ecKey); return ret; } #endif /* HAVE_OPENSSL */