/* * Copyright (c) 2010 .SE (The Internet Infrastructure Foundation) * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /***************************************************************************** BotanECDH.cpp Botan ECDH asymmetric algorithm implementation *****************************************************************************/ #include "config.h" #ifdef WITH_ECC #include "log.h" #include "BotanECDH.h" #include "BotanRNG.h" #include "CryptoFactory.h" #include "BotanCryptoFactory.h" #include "ECParameters.h" #include "BotanECDHKeyPair.h" #include "BotanUtil.h" #include #include #include #include #include // Signing functions bool BotanECDH::signInit(PrivateKey* /*privateKey*/, const AsymMech::Type /*mechanism*/, const void* /* param = NULL */, const size_t /* paramLen = 0 */) { ERROR_MSG("ECDH does not support signing"); return false; } bool BotanECDH::signUpdate(const ByteString& /*dataToSign*/) { ERROR_MSG("ECDH does not support signing"); return false; } bool BotanECDH::signFinal(ByteString& /*signature*/) { ERROR_MSG("ECDH does not support signing"); return false; } // Verification functions bool BotanECDH::verifyInit(PublicKey* /*publicKey*/, const AsymMech::Type /*mechanism*/, const void* /* param = NULL */, const size_t /* paramLen = 0 */) { ERROR_MSG("ECDH does not support verifying"); return false; } bool BotanECDH::verifyUpdate(const ByteString& /*originalData*/) { ERROR_MSG("ECDH does not support verifying"); return false; } bool BotanECDH::verifyFinal(const ByteString& /*signature*/) { ERROR_MSG("ECDH does not support verifying"); return false; } // Encryption functions bool BotanECDH::encrypt(PublicKey* /*publicKey*/, const ByteString& /*data*/, ByteString& /*encryptedData*/, const AsymMech::Type /*padding*/) { ERROR_MSG("ECDH does not support encryption"); return false; } // Decryption functions bool BotanECDH::decrypt(PrivateKey* /*privateKey*/, const ByteString& /*encryptedData*/, ByteString& /*data*/, const AsymMech::Type /*padding*/) { ERROR_MSG("ECDH does not support decryption"); return false; } // Key factory bool BotanECDH::generateKeyPair(AsymmetricKeyPair** ppKeyPair, AsymmetricParameters* parameters, RNG* /*rng = NULL */) { // Check parameters if ((ppKeyPair == NULL) || (parameters == NULL)) { return false; } if (!parameters->areOfType(ECParameters::type)) { ERROR_MSG("Invalid parameters supplied for ECDH key generation"); return false; } ECParameters* params = (ECParameters*) parameters; // Generate the key-pair Botan::ECDH_PrivateKey* eckp = NULL; try { BotanRNG* rng = (BotanRNG*)BotanCryptoFactory::i()->getRNG(); eckp = new Botan::ECDH_PrivateKey(*rng->getRNG(), BotanUtil::byteString2ECGroup(params->getEC())); } catch (...) { ERROR_MSG("ECDH key generation failed"); return false; } // Create an asymmetric key-pair object to return BotanECDHKeyPair* kp = new BotanECDHKeyPair(); ((BotanECDHPublicKey*) kp->getPublicKey())->setFromBotan(eckp); ((BotanECDHPrivateKey*) kp->getPrivateKey())->setFromBotan(eckp); *ppKeyPair = kp; // Release the key delete eckp; return true; } bool BotanECDH::deriveKey(SymmetricKey **ppSymmetricKey, PublicKey* publicKey, PrivateKey* privateKey) { // Check parameters if ((ppSymmetricKey == NULL) || (publicKey == NULL) || (privateKey == NULL)) { return false; } // Get keys Botan::ECDH_PublicKey* pub = ((BotanECDHPublicKey*) publicKey)->getBotanKey(); Botan::ECDH_PrivateKey* priv = ((BotanECDHPrivateKey*) privateKey)->getBotanKey(); if (pub == NULL || priv == NULL) { ERROR_MSG("Failed to get Botan ECDH keys"); return false; } // Derive the secret Botan::SymmetricKey sk; try { #if BOTAN_VERSION_CODE >= BOTAN_VERSION_CODE_FOR(1,11,33) BotanRNG* rng = (BotanRNG*)BotanCryptoFactory::i()->getRNG(); Botan::PK_Key_Agreement ka(*priv, *rng->getRNG(), "Raw"); #else Botan::PK_Key_Agreement ka(*priv, "Raw"); #endif sk = ka.derive_key(0, pub->public_value()); } catch (...) { ERROR_MSG("Botan ECDH key agreement failed"); return false; } ByteString secret; // We compensate that Botan removes leading zeros int size = ((BotanECDHPublicKey *)publicKey)->getOrderLength(); int keySize = sk.length(); secret.wipe(size); memcpy(&secret[0] + size - keySize, sk.begin(), keySize); *ppSymmetricKey = new SymmetricKey(secret.size() * 8); if (*ppSymmetricKey == NULL) { ERROR_MSG("Can't create ECDH secret"); return false; } if (!(*ppSymmetricKey)->setKeyBits(secret)) { delete *ppSymmetricKey; *ppSymmetricKey = NULL; return false; } return true; } unsigned long BotanECDH::getMinKeySize() { // Smallest EC group is secp112r1 return 112; } unsigned long BotanECDH::getMaxKeySize() { // Biggest EC group is secp521r1 return 521; } bool BotanECDH::reconstructKeyPair(AsymmetricKeyPair** ppKeyPair, ByteString& serialisedData) { // Check input if ((ppKeyPair == NULL) || (serialisedData.size() == 0)) { return false; } ByteString dPub = ByteString::chainDeserialise(serialisedData); ByteString dPriv = ByteString::chainDeserialise(serialisedData); BotanECDHKeyPair* kp = new BotanECDHKeyPair(); bool rv = true; if (!((ECPublicKey*) kp->getPublicKey())->deserialise(dPub)) { rv = false; } if (!((ECPrivateKey*) kp->getPrivateKey())->deserialise(dPriv)) { rv = false; } if (!rv) { delete kp; return false; } *ppKeyPair = kp; return true; } bool BotanECDH::reconstructPublicKey(PublicKey** ppPublicKey, ByteString& serialisedData) { // Check input if ((ppPublicKey == NULL) || (serialisedData.size() == 0)) { return false; } BotanECDHPublicKey* pub = new BotanECDHPublicKey(); if (!pub->deserialise(serialisedData)) { delete pub; return false; } *ppPublicKey = pub; return true; } bool BotanECDH::reconstructPrivateKey(PrivateKey** ppPrivateKey, ByteString& serialisedData) { // Check input if ((ppPrivateKey == NULL) || (serialisedData.size() == 0)) { return false; } BotanECDHPrivateKey* priv = new BotanECDHPrivateKey(); if (!priv->deserialise(serialisedData)) { delete priv; return false; } *ppPrivateKey = priv; return true; } PublicKey* BotanECDH::newPublicKey() { return (PublicKey*) new BotanECDHPublicKey(); } PrivateKey* BotanECDH::newPrivateKey() { return (PrivateKey*) new BotanECDHPrivateKey(); } AsymmetricParameters* BotanECDH::newParameters() { return (AsymmetricParameters*) new ECParameters(); } bool BotanECDH::reconstructParameters(AsymmetricParameters** ppParams, ByteString& serialisedData) { // Check input parameters if ((ppParams == NULL) || (serialisedData.size() == 0)) { return false; } ECParameters* params = new ECParameters(); if (!params->deserialise(serialisedData)) { delete params; return false; } *ppParams = params; return true; } #endif