/* * The ManaPlus Client * Copyright (C) 2004-2009 The Mana World Development Team * Copyright (C) 2009-2010 The Mana Developers * Copyright (C) 2011-2013 The ManaPlus Developers * * This file is part of The ManaPlus Client. * * This program 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 2 of the License, or * any later version. * * This program 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 this program. If not, see . */ #include "net/ea/network.h" #include "configuration.h" #include "logger.h" #include "net/messagehandler.h" #include "net/eathena/protocol.h" #include "utils/gettext.h" #include #include #include "debug.h" namespace Ea { const unsigned int BUFFER_SIZE = 1000000; const unsigned int BUFFER_LIMIT = 930000; int networkThread(void *data) { Network *const network = static_cast(data); if (!network || !network->realConnect()) return -1; network->receive(); return 0; } Network::Network() : mSocket(nullptr), mServer(), mInBuffer(new char[BUFFER_SIZE]), mOutBuffer(new char[BUFFER_SIZE]), mInSize(0), mOutSize(0), mToSkip(0), mState(IDLE), mError(), mWorkerThread(nullptr), mMutex(SDL_CreateMutex()), mSleep(config.getIntValue("networksleep")) { TcpNet::init(); } Network::~Network() { if (mState != IDLE && mState != NET_ERROR) disconnect(); SDL_DestroyMutex(mMutex); mMutex = nullptr; delete []mInBuffer; delete []mOutBuffer; TcpNet::quit(); } bool Network::connect(ServerInfo server) { if (mState != IDLE && mState != NET_ERROR) { logger->log1("Tried to connect an already connected socket!"); assert(false); return false; } if (server.hostname.empty()) { // TRANSLATORS: error message setError(_("Empty address given to Network::connect()!")); return false; } logger->log("Network::Connecting to %s:%i", server.hostname.c_str(), server.port); mServer.hostname = server.hostname; mServer.althostname = server.althostname; mServer.port = server.port; // Reset to sane values mOutSize = 0; mInSize = 0; mToSkip = 0; mState = CONNECTING; mWorkerThread = SDL_CreateThread(networkThread, this); if (!mWorkerThread) { setError("Unable to create network worker thread"); return false; } return true; } void Network::disconnect() { BLOCK_START("Network::disconnect") mState = IDLE; if (mWorkerThread && SDL_GetThreadID(mWorkerThread)) { SDL_WaitThread(mWorkerThread, nullptr); mWorkerThread = nullptr; } if (mSocket) { TcpNet::closeSocket(mSocket); mSocket = nullptr; if (mSleep > 0) SDL_Delay(mSleep); } BLOCK_END("Network::disconnect") } void Network::flush() { if (!mOutSize || mState != CONNECTED) return; SDL_mutexP(mMutex); const int ret = TcpNet::send(mSocket, mOutBuffer, mOutSize); DEBUGLOG(std::string("Send ").append(toString(mOutSize)).append(" bytes")); if (ret < static_cast(mOutSize)) { setError("Error in TcpNet::send(): " + std::string(TcpNet::getError())); } mOutSize = 0; SDL_mutexV(mMutex); } void Network::skip(const int len) { SDL_mutexP(mMutex); mToSkip += len; if (!mInSize) { SDL_mutexV(mMutex); return; } if (mInSize >= mToSkip) { mInSize -= mToSkip; memmove(mInBuffer, mInBuffer + mToSkip, mInSize); mToSkip = 0; } else { mToSkip -= mInSize; mInSize = 0; } SDL_mutexV(mMutex); } bool Network::realConnect() { IPaddress ipAddress; if (TcpNet::resolveHost(&ipAddress, mServer.hostname.c_str(), mServer.port) == -1) { if (mServer.althostname.empty() || TcpNet::resolveHost(&ipAddress, mServer.althostname.c_str(), mServer.port) == -1) { const std::string errorMessage = std::string( // TRANSLATORS: error message _("Unable to resolve host \"")).append( mServer.hostname).append("\""); setError(errorMessage); logger->log("TcpNet::ResolveHost: %s", errorMessage.c_str()); return false; } logger->log("using alt host name: %s", mServer.althostname.c_str()); } mState = CONNECTING; mSocket = TcpNet::open(&ipAddress); if (!mSocket) { logger->log("Error in TcpNet::open(): %s", TcpNet::getError()); setError(TcpNet::getError()); return false; } logger->log("Network::Started session with %s:%i", ipToString(ipAddress.host), ipAddress.port); mState = CONNECTED; return true; } void Network::receive() { TcpNet::SocketSet set; if (!(set = TcpNet::allocSocketSet(1))) { setError("Error in TcpNet::allocSocketSet(): " + std::string(TcpNet::getError())); return; } if (TcpNet::addSocket(set, mSocket) == -1) { setError("Error in TcpNet::addSocket(): " + std::string(TcpNet::getError())); } while (mState == CONNECTED) { const int numReady = TcpNet::checkSockets( set, (static_cast(500))); switch (numReady) { case -1: logger->log1("Error: TcpNet::checkSockets"); // FALLTHROUGH case 0: break; case 1: { // Receive data from the socket SDL_mutexP(mMutex); if (mInSize > BUFFER_LIMIT) { SDL_mutexV(mMutex); SDL_Delay(100); continue; } const int ret = TcpNet::recv(mSocket, mInBuffer + mInSize, BUFFER_SIZE - mInSize); if (!ret) { // We got disconnected mState = IDLE; logger->log1("Disconnected."); } else if (ret < 0) { // TRANSLATORS: error message setError(_("Connection to server terminated. ") + std::string(TcpNet::getError())); } else { // DEBUGLOG("Receive " + toString(ret) + " bytes"); mInSize += ret; if (mToSkip) { if (mInSize >= mToSkip) { mInSize -= mToSkip; memmove(mInBuffer, mInBuffer + mToSkip, mInSize); mToSkip = 0; } else { mToSkip -= mInSize; mInSize = 0; } } } SDL_mutexV(mMutex); break; } default: // more than one socket is ready.. // this should not happen since we only listen once socket. std::stringstream errorStream; errorStream << "Error in TcpNet::recv(), " << numReady << " sockets are ready: " << TcpNet::getError(); setError(errorStream.str()); break; } } if (TcpNet::delSocket(set, mSocket) == -1) logger->log("Error in TcpNet::delSocket(): %s", TcpNet::getError()); TcpNet::freeSocketSet(set); } void Network::setError(const std::string &error) { logger->log("Network error: %s", error.c_str()); mError = error; mState = NET_ERROR; } uint16_t Network::readWord(const int pos) const { #if SDL_BYTEORDER == SDL_BIG_ENDIAN return SDL_Swap16(*reinterpret_cast(mInBuffer + (pos))); #else return (*reinterpret_cast(mInBuffer + (pos))); #endif } void Network::fixSendBuffer() { if (mOutSize > BUFFER_LIMIT) { if (mState != CONNECTED) mOutSize = 0; else flush(); } } } // namespace Ea