/* */ #include "LibsslDHKeyExchange.h" #include #include #include #include "DlAbortEx.h" #include "fmt.h" namespace aria2 { namespace { void handleError(const std::string& funName) { throw DL_ABORT_EX( fmt("Exception in libssl routine %s(DHKeyExchange class): %s", funName.c_str(), ERR_error_string(ERR_get_error(), nullptr))); } } // namespace DHKeyExchange::DHKeyExchange() : bnCtx_(nullptr), keyLength_(0), prime_(nullptr), generator_(nullptr), privateKey_(nullptr), publicKey_(nullptr) { } DHKeyExchange::~DHKeyExchange() { BN_CTX_free(bnCtx_); BN_free(prime_); BN_free(generator_); BN_free(privateKey_); BN_free(publicKey_); } void DHKeyExchange::init(const unsigned char* prime, size_t primeBits, const unsigned char* generator, size_t privateKeyBits) { BN_CTX_free(bnCtx_); bnCtx_ = BN_CTX_new(); if (!bnCtx_) { handleError("BN_CTX_new in init"); } BN_free(prime_); prime_ = nullptr; BN_free(generator_); generator_ = nullptr; BN_free(privateKey_); privateKey_ = nullptr; if (BN_hex2bn(&prime_, reinterpret_cast(prime)) == 0) { handleError("BN_hex2bn in init"); } if (BN_hex2bn(&generator_, reinterpret_cast(generator)) == 0) { handleError("BN_hex2bn in init"); } privateKey_ = BN_new(); if (BN_rand(privateKey_, privateKeyBits, -1, false) == 0) { handleError("BN_new in init"); } keyLength_ = (primeBits + 7) / 8; } void DHKeyExchange::generatePublicKey() { BN_free(publicKey_); publicKey_ = BN_new(); BN_mod_exp(publicKey_, generator_, privateKey_, prime_, bnCtx_); } size_t DHKeyExchange::getPublicKey(unsigned char* out, size_t outLength) const { if (outLength < keyLength_) { throw DL_ABORT_EX( fmt("Insufficient buffer for public key. expect:%lu, actual:%lu", static_cast(keyLength_), static_cast(outLength))); } memset(out, 0, outLength); size_t publicKeyBytes = BN_num_bytes(publicKey_); size_t offset = keyLength_ - publicKeyBytes; size_t nwritten = BN_bn2bin(publicKey_, out + offset); if (nwritten != publicKeyBytes) { throw DL_ABORT_EX( fmt("BN_bn2bin in DHKeyExchange::getPublicKey, %lu bytes written," " but %lu bytes expected.", static_cast(nwritten), static_cast(publicKeyBytes))); } return nwritten; } void DHKeyExchange::generateNonce(unsigned char* out, size_t outLength) const { if (RAND_bytes(out, outLength) != 1) { handleError("RAND_bytes in generateNonce"); } } size_t DHKeyExchange::computeSecret(unsigned char* out, size_t outLength, const unsigned char* peerPublicKeyData, size_t peerPublicKeyLength) const { if (outLength < keyLength_) { throw DL_ABORT_EX( fmt("Insufficient buffer for secret. expect:%lu, actual:%lu", static_cast(keyLength_), static_cast(outLength))); } BIGNUM* peerPublicKey = BN_bin2bn(peerPublicKeyData, peerPublicKeyLength, nullptr); if (!peerPublicKey) { handleError("BN_bin2bn in computeSecret"); } BIGNUM* secret = BN_new(); BN_mod_exp(secret, peerPublicKey, privateKey_, prime_, bnCtx_); BN_free(peerPublicKey); memset(out, 0, outLength); size_t secretBytes = BN_num_bytes(secret); size_t offset = keyLength_ - secretBytes; size_t nwritten = BN_bn2bin(secret, out + offset); BN_free(secret); if (nwritten != secretBytes) { throw DL_ABORT_EX( fmt("BN_bn2bin in DHKeyExchange::getPublicKey, %lu bytes written," " but %lu bytes expected.", static_cast(nwritten), static_cast(secretBytes))); } return nwritten; } } // namespace aria2