/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file CommonEth.cpp * @author Gav Wood * @date 2014 */ #include "CommonEth.h" #include #include #include #include "Exceptions.h" using namespace std; using namespace dev; using namespace dev::eth; //#define ETH_ADDRESS_DEBUG 1 namespace dev { namespace eth { const unsigned c_protocolVersion = 35; const unsigned c_databaseVersion = 3; static const vector> g_units = { {((((u256(1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000000, "Uether"}, {((((u256(1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000, "Vether"}, {((((u256(1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000, "Dether"}, {(((u256(1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000000, "Nether"}, {(((u256(1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000000, "Yether"}, {(((u256(1000000000) * 1000000000) * 1000000000) * 1000000000) * 1000, "Zether"}, {((u256(1000000000) * 1000000000) * 1000000000) * 1000000000, "Eether"}, {((u256(1000000000) * 1000000000) * 1000000000) * 1000000, "Pether"}, {((u256(1000000000) * 1000000000) * 1000000000) * 1000, "Tether"}, {(u256(1000000000) * 1000000000) * 1000000000, "Gether"}, {(u256(1000000000) * 1000000000) * 1000000, "Mether"}, {(u256(1000000000) * 1000000000) * 1000, "Kether"}, {u256(1000000000) * 1000000000, "ether"}, {u256(1000000000) * 1000000, "finney"}, {u256(1000000000) * 1000, "szabo"}, {u256(1000000000), "Gwei"}, {u256(1000000), "Mwei"}, {u256(1000), "Kwei"}, {u256(1), "wei"} }; vector> const& units() { return g_units; } std::string formatBalance(u256 _b) { ostringstream ret; if (_b > g_units[0].first * 10000) { ret << (_b / g_units[0].first) << " " << g_units[0].second; return ret.str(); } ret << setprecision(5); for (auto const& i: g_units) if (i.first != 1 && _b >= i.first * 100) { ret << (double(_b / (i.first / 1000)) / 1000.0) << " " << i.second; return ret.str(); } ret << _b << " wei"; return ret.str(); } Address toAddress(Secret _private) { secp256k1_start(); byte pubkey[65]; int pubkeylen = 65; int ok = secp256k1_ecdsa_seckey_verify(_private.data()); if (!ok) return Address(); ok = secp256k1_ecdsa_pubkey_create(pubkey, &pubkeylen, _private.data(), 0); assert(pubkeylen == 65); if (!ok) return Address(); ok = secp256k1_ecdsa_pubkey_verify(pubkey, 65); if (!ok) return Address(); auto ret = right160(dev::eth::sha3(bytesConstRef(&(pubkey[1]), 64))); #if ETH_ADDRESS_DEBUG cout << "---- ADDRESS -------------------------------" << endl; cout << "SEC: " << _private << endl; cout << "PUB: " << toHex(bytesConstRef(&(pubkey[1]), 64)) << endl; cout << "ADR: " << ret << endl; #endif return ret; } }}