//------------------------------------------------------------------------------ /* This file is part of rippled: https://github.com/ripple/rippled Copyright (c) 2012-2014 Ripple Labs Inc. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ //============================================================================== #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace ripple { double estimate_entropy (std::string const& input) { // First, we calculate the Shannon entropy. This gives // the average number of bits per symbol that we would // need to encode the input. std::map freq; for (auto const& c : input) freq[c]++; double se = 0.0; for (auto const& f : freq) { auto x = f.second / input.length(); se += (x) * log2(x); } // We multiply it by the length, to get an estimate of // the number of bits in the input. We floor because it // is better to be conservative. return std::floor (-se * input.length()); } // { // passphrase: // } Json::Value doWalletPropose (RPC::Context& context) { return walletPropose (context.params); } Json::Value walletPropose (Json::Value const& params) { boost::optional seed; KeyType keyType = KeyType::secp256k1; if (params.isMember (jss::key_type)) { if (! params[jss::key_type].isString()) { return RPC::expected_field_error ( jss::key_type, "string"); } keyType = keyTypeFromString ( params[jss::key_type].asString()); if (keyType == KeyType::invalid) return rpcError(rpcINVALID_PARAMS); } if (params.isMember (jss::passphrase) || params.isMember (jss::seed) || params.isMember (jss::seed_hex)) { Json::Value err; seed = RPC::getSeedFromRPC (params, err); if (!seed) return err; } else { seed = randomSeed (); } auto const publicKey = generateKeyPair (keyType, *seed).first; Json::Value obj (Json::objectValue); auto const seed1751 = seedAs1751 (*seed); auto const seedHex = strHex (seed->data(), seed->size()); auto const seedBase58 = toBase58 (*seed); obj[jss::master_seed] = seedBase58; obj[jss::master_seed_hex] = seedHex; obj[jss::master_key] = seed1751; obj[jss::account_id] = toBase58(calcAccountID(publicKey)); obj[jss::public_key] = toBase58(TokenType::AccountPublic, publicKey); obj[jss::key_type] = to_string (keyType); obj[jss::public_key_hex] = strHex (publicKey.data(), publicKey.size()); // If a passphrase was specified, and it was hashed and used as a seed // run a quick entropy check and add an appropriate warning, because // "brain wallets" can be easily attacked. if (params.isMember (jss::passphrase)) { auto const passphrase = params[jss::passphrase].asString(); if (passphrase != seed1751 && passphrase != seedBase58 && passphrase != seedHex) { // 80 bits of entropy isn't bad, but it's better to // err on the side of caution and be conservative. if (estimate_entropy (passphrase) < 80.0) obj[jss::warning] = "This wallet was generated using a user-supplied " "passphrase that has low entropy and is vulnerable " "to brute-force attacks."; else obj[jss::warning] = "This wallet was generated using a user-supplied " "passphrase. It may be vulnerable to brute-force " "attacks."; } } return obj; } } // ripple