/* 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 jsonrpc.cpp * @author Marek Kotewicz * @date 2014 */ // @debris disabled as tests fail with: // unknown location(0): fatal error in "jsonrpc_setMining": std::exception: Exception -32003 : Client connector error: : libcurl error: 28 // /home/gav/Eth/cpp-ethereum/test/jsonrpc.cpp(169): last checkpoint #if ETH_JSONRPC && 0 #include #include #include #include #include #include #include #include #include #include #include "../JsonSpiritHeaders.h" #include "../TestHelper.h" #include "webthreestubclient.h" BOOST_AUTO_TEST_SUITE(jsonrpc) using namespace std; using namespace dev; using namespace dev::eth; namespace js = json_spirit; WebThreeDirect* web3; unique_ptr jsonrpcServer; unique_ptr jsonrpcClient; struct Setup { Setup() { static bool setup = false; if (setup) return; setup = true; dev::p2p::NetworkPreferences nprefs(30303, std::string(), false); web3 = new WebThreeDirect("++eth tests", "", true, {"eth", "shh"}, nprefs); web3->setIdealPeerCount(5); web3->ethereum()->setForceMining(true); auto server = new jsonrpc::HttpServer(8080); jsonrpcServer = unique_ptr(new WebThreeStubServer(*server, *web3, {})); jsonrpcServer->setIdentities({}); jsonrpcServer->StartListening(); auto client = new jsonrpc::HttpClient("http://localhost:8080"); jsonrpcClient = unique_ptr(new WebThreeStubClient(*client)); } }; string fromAscii(string _s) { bytes b = asBytes(_s); return "0x" + toHex(b); } BOOST_FIXTURE_TEST_SUITE(environment, Setup) BOOST_AUTO_TEST_CASE(jsonrpc_defaultBlock) { cnote << "Testing jsonrpc defaultBlock..."; int defaultBlock = jsonrpcClient->eth_defaultBlock(); BOOST_CHECK_EQUAL(defaultBlock, web3->ethereum()->getDefault()); } BOOST_AUTO_TEST_CASE(jsonrpc_gasPrice) { cnote << "Testing jsonrpc gasPrice..."; string gasPrice = jsonrpcClient->eth_gasPrice(); BOOST_CHECK_EQUAL(gasPrice, toJS(10 * dev::eth::szabo)); } BOOST_AUTO_TEST_CASE(jsonrpc_isListening) { cnote << "Testing jsonrpc isListening..."; web3->startNetwork(); bool listeningOn = jsonrpcClient->eth_listening(); BOOST_CHECK_EQUAL(listeningOn, web3->isNetworkStarted()); web3->stopNetwork(); bool listeningOff = jsonrpcClient->eth_listening(); BOOST_CHECK_EQUAL(listeningOff, web3->isNetworkStarted()); } BOOST_AUTO_TEST_CASE(jsonrpc_isMining) { cnote << "Testing jsonrpc isMining..."; web3->ethereum()->startMining(); bool miningOn = jsonrpcClient->eth_mining(); BOOST_CHECK_EQUAL(miningOn, web3->ethereum()->isMining()); web3->ethereum()->stopMining(); bool miningOff = jsonrpcClient->eth_mining(); BOOST_CHECK_EQUAL(miningOff, web3->ethereum()->isMining()); } BOOST_AUTO_TEST_CASE(jsonrpc_accounts) { cnote << "Testing jsonrpc accounts..."; std::vector keys = {KeyPair::create(), KeyPair::create()}; jsonrpcServer->setAccounts(keys); Json::Value k = jsonrpcClient->eth_accounts(); jsonrpcServer->setAccounts({}); BOOST_CHECK_EQUAL(k.isArray(), true); BOOST_CHECK_EQUAL(k.size(), keys.size()); for (auto &i:k) { auto it = std::find_if(keys.begin(), keys.end(), [i](dev::KeyPair const& keyPair) { return jsToAddress(i.asString()) == keyPair.address(); }); BOOST_CHECK_EQUAL(it != keys.end(), true); } } BOOST_AUTO_TEST_CASE(jsonrpc_number) { cnote << "Testing jsonrpc number2..."; int number = jsonrpcClient->eth_number(); BOOST_CHECK_EQUAL(number, web3->ethereum()->number() + 1); dev::eth::mine(*(web3->ethereum()), 1); int numberAfter = jsonrpcClient->eth_number(); BOOST_CHECK_EQUAL(number + 1, numberAfter); BOOST_CHECK_EQUAL(numberAfter, web3->ethereum()->number() + 1); } BOOST_AUTO_TEST_CASE(jsonrpc_peerCount) { cnote << "Testing jsonrpc peerCount..."; int peerCount = jsonrpcClient->eth_peerCount(); BOOST_CHECK_EQUAL(web3->peerCount(), peerCount); } BOOST_AUTO_TEST_CASE(jsonrpc_setListening) { cnote << "Testing jsonrpc setListening..."; jsonrpcClient->eth_setListening(true); BOOST_CHECK_EQUAL(web3->isNetworkStarted(), true); jsonrpcClient->eth_setListening(false); BOOST_CHECK_EQUAL(web3->isNetworkStarted(), false); } BOOST_AUTO_TEST_CASE(jsonrpc_setMining) { cnote << "Testing jsonrpc setMining..."; jsonrpcClient->eth_setMining(true); BOOST_CHECK_EQUAL(web3->ethereum()->isMining(), true); jsonrpcClient->eth_setMining(false); BOOST_CHECK_EQUAL(web3->ethereum()->isMining(), false); } BOOST_AUTO_TEST_CASE(jsonrpc_stateAt) { cnote << "Testing jsonrpc stateAt..."; dev::KeyPair key = KeyPair::create(); auto address = key.address(); string stateAt = jsonrpcClient->eth_stateAt(toJS(address), "0"); BOOST_CHECK_EQUAL(toJS(web3->ethereum()->stateAt(address, jsToU256("0"), 0)), stateAt); } BOOST_AUTO_TEST_CASE(jsonrpc_transact) { cnote << "Testing jsonrpc transact..."; string coinbase = jsonrpcClient->eth_coinbase(); BOOST_CHECK_EQUAL(jsToAddress(coinbase), web3->ethereum()->address()); dev::KeyPair key = KeyPair::create(); auto address = key.address(); auto receiver = KeyPair::create(); web3->ethereum()->setAddress(address); coinbase = jsonrpcClient->eth_coinbase(); BOOST_CHECK_EQUAL(jsToAddress(coinbase), web3->ethereum()->address()); BOOST_CHECK_EQUAL(jsToAddress(coinbase), address); jsonrpcServer->setAccounts({key}); auto balance = web3->ethereum()->balanceAt(address, 0); string balanceString = jsonrpcClient->eth_balanceAt(toJS(address)); double countAt = jsonrpcClient->eth_countAt(toJS(address)); BOOST_CHECK_EQUAL(countAt, (double)(uint64_t)web3->ethereum()->countAt(address)); BOOST_CHECK_EQUAL(countAt, 0); BOOST_CHECK_EQUAL(toJS(balance), balanceString); BOOST_CHECK_EQUAL(jsToDecimal(balanceString), "0"); dev::eth::mine(*(web3->ethereum()), 1); balance = web3->ethereum()->balanceAt(address, 0); balanceString = jsonrpcClient->eth_balanceAt(toJS(address)); BOOST_CHECK_EQUAL(toJS(balance), balanceString); BOOST_CHECK_EQUAL(jsToDecimal(balanceString), "1500000000000000000"); auto txAmount = balance / 2u; auto gasPrice = 10 * dev::eth::szabo; auto gas = dev::eth::c_txGas; Json::Value t; t["from"] = toJS(address); t["value"] = jsToDecimal(toJS(txAmount)); t["to"] = toJS(receiver.address()); t["data"] = toJS(bytes()); t["gas"] = toJS(gas); t["gasPrice"] = toJS(gasPrice); jsonrpcClient->eth_transact(t); jsonrpcServer->setAccounts({}); dev::eth::mine(*(web3->ethereum()), 1); countAt = jsonrpcClient->eth_countAt(toJS(address)); auto balance2 = web3->ethereum()->balanceAt(receiver.address()); string balanceString2 = jsonrpcClient->eth_balanceAt(toJS(receiver.address())); BOOST_CHECK_EQUAL(countAt, (double)(uint64_t)web3->ethereum()->countAt(address)); BOOST_CHECK_EQUAL(countAt, 1); BOOST_CHECK_EQUAL(toJS(balance2), balanceString2); BOOST_CHECK_EQUAL(jsToDecimal(balanceString2), "750000000000000000"); BOOST_CHECK_EQUAL(txAmount, balance2); } BOOST_AUTO_TEST_CASE(simple_contract) { cnote << "Testing jsonrpc contract..."; KeyPair kp = KeyPair::create(); web3->ethereum()->setAddress(kp.address()); jsonrpcServer->setAccounts({kp}); dev::eth::mine(*(web3->ethereum()), 1); char const* sourceCode = "contract test {\n" " function f(uint a) returns(uint d) { return a * 7; }\n" "}\n"; string compiled = jsonrpcClient->eth_solidity(sourceCode); Json::Value create; create["code"] = compiled; string contractAddress = jsonrpcClient->eth_transact(create); dev::eth::mine(*(web3->ethereum()), 1); Json::Value call; call["to"] = contractAddress; call["data"] = "0x00000000000000000000000000000000000000000000000000000000000000001"; string result = jsonrpcClient->eth_call(call); BOOST_CHECK_EQUAL(result, "0x0000000000000000000000000000000000000000000000000000000000000007"); } BOOST_AUTO_TEST_CASE(contract_storage) { cnote << "Testing jsonrpc contract storage..."; KeyPair kp = KeyPair::create(); web3->ethereum()->setAddress(kp.address()); jsonrpcServer->setAccounts({kp}); dev::eth::mine(*(web3->ethereum()), 1); char const* sourceCode = R"( contract test { uint hello; function writeHello(uint value) returns(bool d){ hello = value; return true; } } )"; string compiled = jsonrpcClient->eth_solidity(sourceCode); Json::Value create; create["code"] = compiled; string contractAddress = jsonrpcClient->eth_transact(create); dev::eth::mine(*(web3->ethereum()), 1); Json::Value transact; transact["to"] = contractAddress; transact["data"] = "0x00000000000000000000000000000000000000000000000000000000000000003"; jsonrpcClient->eth_transact(transact); dev::eth::mine(*(web3->ethereum()), 1); Json::Value storage = jsonrpcClient->eth_storageAt(contractAddress); BOOST_CHECK_EQUAL(storage.getMemberNames().size(), 1); // bracers are required, cause msvc couldnt handle this macro in for statement for (auto name: storage.getMemberNames()) { BOOST_CHECK_EQUAL(storage[name].asString(), "0x03"); } } BOOST_AUTO_TEST_CASE(sha3) { cnote << "Testing jsonrpc sha3..."; string testString = "multiply(uint256)"; h256 expected = dev::sha3(testString); auto hexValue = fromAscii(testString); string result = jsonrpcClient->web3_sha3(hexValue); BOOST_CHECK_EQUAL(toJS(expected), result); BOOST_CHECK_EQUAL("0xc6888fa159d67f77c2f3d7a402e199802766bd7e8d4d1ecd2274fc920265d56a", result); } BOOST_AUTO_TEST_SUITE_END() BOOST_AUTO_TEST_SUITE_END() #endif