/* This file is part of solidity. solidity 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. solidity 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 solidity. If not, see . The Implementation originally from https://msdn.microsoft.com/en-us/library/windows/desktop/aa365592(v=vs.85).aspx */ /** @file RPCSession.cpp * @author Dimtiry Khokhlov * @date 2016 */ #include #include #include #include #include #include #include "RPCSession.h" using namespace std; using namespace dev; IPCSocket::IPCSocket(string const& _path): m_path(_path) { #if defined(_WIN32) m_socket = CreateFile( m_path.c_str(), // pipe name GENERIC_READ | // read and write access GENERIC_WRITE, 0, // no sharing NULL, // default security attribute OPEN_EXISTING, // opens existing pipe 0, // default attributes NULL); // no template file if (m_socket == INVALID_HANDLE_VALUE) BOOST_FAIL("Error creating IPC socket object!"); #else if (_path.length() >= sizeof(sockaddr_un::sun_path)) BOOST_FAIL("Error opening IPC: socket path is too long!"); struct sockaddr_un saun; memset(&saun, 0, sizeof(sockaddr_un)); saun.sun_family = AF_UNIX; strcpy(saun.sun_path, _path.c_str()); // http://idletechnology.blogspot.ca/2011/12/unix-domain-sockets-on-osx.html // // SUN_LEN() might be optimal, but it seemingly affects the portability, // with at least Android missing this macro. Just using the sizeof() for // structure seemingly works, and would only have the side-effect of // sending larger-than-required packets over the socket. Given that this // code is only used for unit-tests, that approach seems simpler. #if defined(__APPLE__) saun.sun_len = sizeof(struct sockaddr_un); #endif // defined(__APPLE__) if ((m_socket = socket(AF_UNIX, SOCK_STREAM, 0)) < 0) BOOST_FAIL("Error creating IPC socket object"); if (connect(m_socket, reinterpret_cast(&saun), sizeof(struct sockaddr_un)) < 0) BOOST_FAIL("Error connecting to IPC socket: " << _path); #endif } string IPCSocket::sendRequest(string const& _req) { #if defined(_WIN32) string returnStr; DWORD cbWritten; BOOL fSuccess = WriteFile( m_socket, // pipe handle _req.c_str(), // message _req.size(), // message length &cbWritten, // bytes written NULL); // not overlapped if (!fSuccess) BOOST_FAIL("WriteFile to pipe failed"); DWORD cbRead; TCHAR chBuf[c_buffsize]; // Read from the pipe. fSuccess = ReadFile( m_socket, // pipe handle chBuf, // buffer to receive reply c_buffsize,// size of buffer &cbRead, // number of bytes read NULL); // not overlapped returnStr += chBuf; if (!fSuccess) BOOST_FAIL("ReadFile from pipe failed"); return returnStr; #else if (send(m_socket, _req.c_str(), _req.length(), 0) != (ssize_t)_req.length()) BOOST_FAIL("Writing on IPC failed"); char c; string response; while (recv(m_socket, &c, 1, 0) == 1) { if (c != '\n') response += c; else break; } return response; #endif } RPCSession& RPCSession::instance(const string& _path) { static RPCSession session(_path); BOOST_REQUIRE_EQUAL(session.m_ipcSocket.path(), _path); return session; } string RPCSession::eth_getCode(string const& _address, string const& _blockNumber) { return rpcCall("eth_getCode", { quote(_address), quote(_blockNumber) }).asString(); } RPCSession::TransactionReceipt RPCSession::eth_getTransactionReceipt(string const& _transactionHash) { TransactionReceipt receipt; Json::Value const result = rpcCall("eth_getTransactionReceipt", { quote(_transactionHash) }); BOOST_REQUIRE(!result.isNull()); receipt.gasUsed = result["gasUsed"].asString(); receipt.contractAddress = result["contractAddress"].asString(); for (auto const& log: result["logs"]) { LogEntry entry; entry.address = log["address"].asString(); entry.data = log["data"].asString(); for (auto const& topic: log["topics"]) entry.topics.push_back(topic.asString()); receipt.logEntries.push_back(entry); } return receipt; } string RPCSession::eth_sendTransaction(TransactionData const& _td) { return rpcCall("eth_sendTransaction", { _td.toJson() }).asString(); } string RPCSession::eth_call(TransactionData const& _td, string const& _blockNumber) { return rpcCall("eth_call", { _td.toJson(), quote(_blockNumber) }).asString(); } string RPCSession::eth_sendTransaction(string const& _transaction) { return rpcCall("eth_sendTransaction", { _transaction }).asString(); } string RPCSession::eth_getBalance(string const& _address, string const& _blockNumber) { string address = (_address.length() == 20) ? "0x" + _address : _address; return rpcCall("eth_getBalance", { quote(address), quote(_blockNumber) }).asString(); } string RPCSession::eth_getStorageRoot(string const& _address, string const& _blockNumber) { string address = (_address.length() == 20) ? "0x" + _address : _address; return rpcCall("eth_getStorageRoot", { quote(address), quote(_blockNumber) }).asString(); } void RPCSession::personal_unlockAccount(string const& _address, string const& _password, int _duration) { BOOST_REQUIRE(rpcCall("personal_unlockAccount", { quote(_address), quote(_password), to_string(_duration) }) == true); } string RPCSession::personal_newAccount(string const& _password) { return rpcCall("personal_newAccount", { quote(_password) }).asString(); } void RPCSession::test_setChainParams(vector const& _accounts) { static std::string const c_configString = R"( { "sealEngine": "NoProof", "params": { "accountStartNonce": "0x", "maximumExtraDataSize": "0x1000000", "blockReward": "0x", "allowFutureBlocks": "1" }, "genesis": { "author": "0000000000000010000000000000000000000000", "timestamp": "0x00", "parentHash": "0x0000000000000000000000000000000000000000000000000000000000000000", "extraData": "0x", "gasLimit": "0x1000000000000" }, "accounts": { "0000000000000000000000000000000000000001": { "wei": "1", "precompiled": { "name": "ecrecover", "linear": { "base": 3000, "word": 0 } } }, "0000000000000000000000000000000000000002": { "wei": "1", "precompiled": { "name": "sha256", "linear": { "base": 60, "word": 12 } } }, "0000000000000000000000000000000000000003": { "wei": "1", "precompiled": { "name": "ripemd160", "linear": { "base": 600, "word": 120 } } }, "0000000000000000000000000000000000000004": { "wei": "1", "precompiled": { "name": "identity", "linear": { "base": 15, "word": 3 } } } } } )"; Json::Value config; BOOST_REQUIRE(Json::Reader().parse(c_configString, config)); for (auto const& account: _accounts) config["accounts"][account]["wei"] = "0x100000000000000000000000000000000000000000"; test_setChainParams(Json::FastWriter().write(config)); } void RPCSession::test_setChainParams(string const& _config) { BOOST_REQUIRE(rpcCall("test_setChainParams", { _config }) == true); } void RPCSession::test_rewindToBlock(size_t _blockNr) { BOOST_REQUIRE(rpcCall("test_rewindToBlock", { to_string(_blockNr) }) == true); } void RPCSession::test_mineBlocks(int _number) { u256 startBlock = fromBigEndian(fromHex(rpcCall("eth_blockNumber").asString())); BOOST_REQUIRE(rpcCall("test_mineBlocks", { to_string(_number) }, true) == true); bool mined = false; // We auto-calibrate the time it takes to mine the transaction. // It would be better to go without polling, but that would probably need a change to the test client unsigned sleepTime = m_sleepTime; size_t polls = 0; for (; polls < 14 && !mined; ++polls) { std::this_thread::sleep_for(chrono::milliseconds(sleepTime)); if (fromBigEndian(fromHex(rpcCall("eth_blockNumber").asString())) >= startBlock + _number) mined = true; else sleepTime *= 2; } if (polls > 1) { m_successfulMineRuns = 0; m_sleepTime += 2; } else if (polls == 1) { m_successfulMineRuns++; if (m_successfulMineRuns > 5) { m_successfulMineRuns = 0; if (m_sleepTime > 2) m_sleepTime--; } } if (!mined) BOOST_FAIL("Error in test_mineBlocks: block mining timeout!"); } void RPCSession::test_modifyTimestamp(size_t _timestamp) { BOOST_REQUIRE(rpcCall("test_modifyTimestamp", { to_string(_timestamp) }) == true); } Json::Value RPCSession::rpcCall(string const& _methodName, vector const& _args, bool _canFail) { string request = "{\"jsonrpc\":\"2.0\",\"method\":\"" + _methodName + "\",\"params\":["; for (size_t i = 0; i < _args.size(); ++i) { request += _args[i]; if (i + 1 != _args.size()) request += ", "; } request += "],\"id\":" + to_string(m_rpcSequence) + "}"; ++m_rpcSequence; //cout << "Request: " << request << endl; string reply = m_ipcSocket.sendRequest(request); //cout << "Reply: " << reply << endl; Json::Value result; BOOST_REQUIRE(Json::Reader().parse(reply, result, false)); if (result.isMember("error")) { if (_canFail) return Json::Value(); BOOST_FAIL("Error on JSON-RPC call: " + result["error"]["message"].asString()); } return result["result"]; } string const& RPCSession::accountCreateIfNotExists(size_t _id) { if (_id >= m_accounts.size()) { m_accounts.push_back(personal_newAccount("")); personal_unlockAccount(m_accounts.back(), "", 100000); } return m_accounts[_id]; } RPCSession::RPCSession(const string& _path): m_ipcSocket(_path) { string account = personal_newAccount(""); personal_unlockAccount(account, "", 100000); m_accounts.push_back(account); test_setChainParams(m_accounts); } string RPCSession::TransactionData::toJson() const { Json::Value json; json["from"] = (from.length() == 20) ? "0x" + from : from; json["to"] = (to.length() == 20 || to == "") ? "0x" + to : to; json["gas"] = gas; json["gasprice"] = gasPrice; json["value"] = value; json["data"] = data; return Json::FastWriter().write(json); }